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pA-Tn5 Transposase - loaded

Catalog Number

Format

Price

C01070001-30

30 µl (64 rxns)

$1,025.00

Other format

C01070001

15 µl (32 rxns)

C01070001-100

100 µl (200 rxns)

pA-Tn5 transposase is a fusion protein of hyperactive Tn5 transposase and protein A developed for the CUT&Tag assay. For convenience, the fusion protein is pre-loaded with sequencing adapters. Diagenode pA-Tn5 transposase is compatible with CUT&Tag and other antibody-tethered Tn5 based methods, like ACT-seq and CoBATCH.

pA-Tn5 Transposase

High enrichment and specificity of the signal around the TSS
No contamination with E. coli DNA
Flexible versions: loaded or unloaded
Excellent for CUT&Tag

As it is crucial to target only the protein of interest, a highly specific antibody is critical for the success of the CUT&Tag assay. All Diagenode ChIP-seq grade antibodies are validated for specificity using strict validation criteria to assure high performance in CUT&Tag.

Check out all products recommended for CUT&Tag assay:

iDeal CUT&Tag kit for Histones - compatible with histome marks and some transcription factors
pA/Tn5 Transposase (loaded or unloaded)
CUT&Tag grade and ChIP-seq grade antibodies
Negative & positive CUT&Tag controls: Antibody Package for CUT&Tag: anti-rabbit and anti-mouse
DNA purification: IPure kit v2 or MicroChIP DiaPure columns
Sequencing indexes: single indexes and UDI

TESTIMONIAL
We are really happy to use the loaded pA-Tn5 for CUT&Tag. Easy to use and reproductible for samples with a starting low number of cells. Besides, Diagenode has a great customer service and technical support which are really responsive.
Cathy NGUYEN, CNRGH, Evry-Courcouronnes, France.

Validation data

A.

B.

C.

Figure 1. Representative screenshots for H3K4me3 (A), H3K9me3 (B) and H3K27me3 (C) data obtained using Diagenode pA-Tn5 fusion protein (C01070001) and CUT&Tag protocol (Kaya-Okur, H.S., Nat Commun 10, 1930 (2019)) at selected loci. CUT&Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. C15410003), H3K27me3 polyclonal ChIP-seq grade antibody (Cat. No. C15410195) and H3K9me3 polyclonal ChIP-seq grade antibody (Cat. No. C15410193).

Figure 2. CUT&Tag profiles show typical enrichments specific for a given histone mark. Representative screenshots for H3K27me3 (red) and H3K4me3 (green) are shown at selected loci. H3K27me3, which marks inactive regions (red), does not show enrichment over open chromatin regions, marked by H3K4me3 (green). CUT&Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. C15410003), and H3K27me3 polyclonal ChIP-seq grade (Cat. No.C15410195).
Documents
pA-TN5 transposase (loaded) datasheet DATASHEET
pA-Tn5 Transposase is a fusion protein of hyperactive Tn5 transposase and protein A developed for... Download

Publications

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Accelerated epigenetic aging in Huntington’s disease involves polycomb repressive complex 1
Baptiste Brulé et al.
Loss of epigenetic information during physiological aging compromises cellular identity, leading to de-repression of developmental genes. Here, we assessed the epigenomic landscape of vulnerable neurons in two reference mouse models of Huntington neurodegenerative disease (HD), using cell-type-specific multi-omics, ...

HDAC1 and HDAC2 are bidirectional enzymes that catalyze histone sorbylation to induce epigenetic alterations
Akihiro Ito et al.
Reversible histone acylation is crucial for epigenetic gene expression regulation. Histone acylation is typically mediated by lysine acyltransferases (KATs), which use acyl-CoAs as acyl donors. Here, we revealed the novel role of the histone deacetylases HDAC1 and HDAC2 in histone acylation catalysis. Notably, we sh...

The molecular consequences of FOXF1 missense mutations associated with alveolar capillary dysplasia with misalignment of pulmonary veins
G. G. Edel et al.
Background Alveolar capillary dysplasia with misalignment of pulmonary veins (ACD/MPV) is a fatal congenital lung disorder strongly associated with genomic alterations in the Forkhead box F1 (FOXF1) gene and its regulatory region. However, little is known about how FOXF1 genomic alterations cause ACD/MPV and what m...

Two-factor authentication underpins the precision of the piRNA pathway
Dias Mirandela M. et al.
The PIWI-interacting RNA (piRNA) pathway guides the DNA methylation of young, active transposons during germline development in male mice. piRNAs tether the PIWI protein MIWI2 (PIWIL4) to the nascent transposon transcript, resulting in DNA methylation through SPOCD1. Transposon methylation requires great precision: ...

Transcription factor EGR2 controls homing and pathogenicity of T17cells in the central nervous system.
Gao Y. et al.
CD4 T helper 17 (T17) cells protect barrier tissues but also trigger autoimmunity. The mechanisms behind these opposing processes remain unclear. Here, we found that the transcription factor EGR2 controlled the transcriptional program of pathogenic T17 cells in the central nervous system (CNS) but not that of protec...

The Hdc GC box is critical for Hdc gene transcription andhistamine-mediated anaphylaxis.
Li Y. et al.
BACKGROUND: Histamine is a critical mediator of anaphylaxis, a neurotransmitter, and a regulator of gastric acid secretion. Histidine decarboxylase is a rate-limiting enzyme for histamine synthesis. However, in vivo regulation of Hdc, the gene that encodes histidine decarboxylase is poorly understood. OBJECTIVE: We ...

Retrospective analysis of enhancer activity and transcriptome history.
Boers R. et al.
Cell state changes in development and disease are controlled by gene regulatory networks, the dynamics of which are difficult to track in real time. In this study, we used an inducible DCM-RNA polymerase subunit b fusion protein which labels active genes and enhancers with a bacterial methylation mark that does not ...

Simultaneous profiling of histone modifications and DNA methylation viananopore sequencing.
Yue X. et al.
The interplay between histone modifications and DNA methylation drives the establishment and maintenance of the cellular epigenomic landscape, but it remains challenging to investigate the complex relationship between these epigenetic marks across the genome. Here we describe a nanopore-sequencing-based-method, nano...

A SOX2-engineered epigenetic silencer factor represses the glioblastomagenetic program and restrains tumor development.
Benedetti V. et al.
Current therapies remain unsatisfactory in preventing the recurrence of glioblastoma multiforme (GBM), which leads to poor patient survival. By rational engineering of the transcription factor SOX2, a key promoter of GBM malignancy, together with the Kruppel-associated box and DNA methyltransferase3A/L catalytic dom...

Caffeine intake exerts dual genome-wide effects on hippocampal metabolismand learning-dependent transcription.
Paiva I. et al.
Caffeine is the most widely consumed psychoactive substance in the world. Strikingly, the molecular pathways engaged by its regular consumption remain unclear. We herein addressed the mechanisms associated with habitual (chronic) caffeine consumption in the mouse hippocampus using untargeted orthogonal omics techniq...

ATRX regulates glial identity and the tumor microenvironment inIDH-mutant glioma
Babikir, Husam and Wang, Lin and Shamardani, Karin andCatalan, Francisca and Sudhir, Sweta and Aghi, Manish K. andRaleigh, David R. and Phillips, Joanna J. and Diaz, AaronA.
Background Recent single-cell transcriptomic studies report that IDH-mutant gliomas share a common hierarchy of cellular phenotypes, independent of genetic subtype. However, the genetic differences between IDH-mutant glioma subtypes are prognostic, predictive of response to chemotherapy, and correlate with distinct ...

Autocrine Vitamin D-signaling switches off pro-inflammatory programsof Th1 cells
Chauss D.et al.
The molecular mechanisms governing orderly shutdown and retraction of CD4+ T helper (Th)1 responses remain poorly understood. Here, we show that complement triggers contraction of Th1 responses by inducing intrinsic expression of the vitamin D (VitD) receptor (VDR) and the VitD-activating enzyme CYP27B1, permitting ...

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<div class="small-12 medium-8 large-8 columns"><br />
<p><strong>pA-Tn5 transposase</strong> is a fusion protein of hyperactive Tn5 transposase and protein A developed for the <strong>CUT&amp;Tag assay</strong>. For convenience, the fusion protein is pre-loaded with sequencing adapters. Diagenode pA-Tn5 transposase is compatible with CUT&amp;Tag and other antibody-tethered Tn5 based methods, like ACT-seq and CoBATCH.</p>
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<p><strong>pA-Tn5 Transposase</strong></p>
<ul style="list-style-type: circle;">
<li>High enrichment and specificity of the signal around the TSS</li>
<li>No contamination<span style="font-weight: 400;"> with </span><i><span style="font-weight: 400;">E. coli</span></i><span style="font-weight: 400;"> DNA</span></li>
<li><span style="font-weight: 400;">Flexible versions: loaded or <a href="https://www.diagenode.com/en/p/pa-tn5-transposase-unloaded">unloaded</a><br /></span></li>
<li><span style="font-weight: 400;">Excellent for CUT&amp;Tag </span></li>
</ul>
<p>As it is crucial to target only the protein of interest, a highly specific antibody is critical for the success of the CUT&amp;Tag assay. All Diagenode ChIP-seq grade antibodies are validated for specificity using strict validation criteria to assure <a href="https://www.diagenode.com/en/pages/cut-and-tag" target="_blank">high performance in CUT&amp;Tag</a>.</p>
<p class="lead"><strong>Check out all products recommended for CUT&amp;Tag assay</strong>:</p>
<ul class="nobullet" style="list-style-type: circle;">
<li><a href="https://www.diagenode.com/en/p/ideal-cut-and-tag-kit-for-histones-24">iDeal CUT&amp;Tag kit for Histones</a>&nbsp;- compatible with histome marks and some transcription factors</li>
<li>pA/Tn5 Transposase (loaded or <a href="https://www.diagenode.com/en/products/view/3065" target="_blank">unloaded</a>)</li>
<li><a href="https://www.diagenode.com/en/applications/cut-and-tag">CUT&amp;Tag grade</a> and <a href="https://www.diagenode.com/en/categories/chip-seq-grade-antibodies">ChIP-seq grade</a> antibodies</li>
<li>Negative &amp; positive CUT&amp;Tag controls:&nbsp;<span>Antibody Package for CUT&amp;Tag: <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antirabbit-24">anti-rabbit</a> and <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antimouse-24">anti-mouse</a></span></li>
<li>DNA purification: <a href="https://www.diagenode.com/en/p/ipure-kit-v2-x24">IPure kit v2</a> or <a href="https://www.diagenode.com/en/p/microchip-diapure-columns-50-rxns">MicroChIP DiaPure columns</a></li>
<li>Sequencing indexes: <a href="https://www.diagenode.com/en/p/24-si-for-tagmented-libraries">single indexes</a> and <a href="https://www.diagenode.com/en/p/24-unique-dual-indexes-for-tagmented-libraries-set1">UDI</a></li>
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<div class="small-12 medium-12 large-12 columns">A.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K4me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-a.png" width="800" height="374" /></center><br /> B.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K9me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-b.png" width="800" height="374" /></center><br /> C.<br /><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-c.png" width="800" height="374" /></center></div>
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<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">
<p><strong>Figure 1.</strong> Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (A), <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">H3K9me3</a> (B) and <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (C) data obtained using Diagenode pA-Tn5 fusion protein (C01070001) and CUT&amp;Tag protocol (Kaya-Okur, H.S., Nat Commun 10, 1930 (2019)) at selected loci. CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), H3K27me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>) and H3K9me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">C15410193</a>).</p>
</div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-a.png" /></center></div>
<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K4me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-b.png" /></center></div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">
<p><strong>Figure 2.</strong> CUT&amp;Tag profiles show typical enrichments specific for a given histone mark. Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (red) and <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (green) are shown at selected loci. H3K27me3, which marks inactive regions (red), does not show enrichment over open chromatin regions, marked by H3K4me3 (green). CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), and H3K27me3 polyclonal ChIP-seq grade (Cat. No.<a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>).</p>
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			'description' => '<div class="row">
<div class="small-12 medium-8 large-8 columns"><br />
<p><strong>pA-Tn5 transposase</strong> is a fusion protein of hyperactive Tn5 transposase and protein A developed for the <strong>CUT&amp;Tag assay</strong>. For convenience, the fusion protein is pre-loaded with sequencing adapters. Diagenode pA-Tn5 transposase is compatible with CUT&amp;Tag and other antibody-tethered Tn5 based methods, like ACT-seq and CoBATCH.</p>
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<p><strong>pA-Tn5 Transposase</strong></p>
<ul style="list-style-type: circle;">
<li>High enrichment and specificity of the signal around the TSS</li>
<li>No contamination<span style="font-weight: 400;"> with </span><i><span style="font-weight: 400;">E. coli</span></i><span style="font-weight: 400;"> DNA</span></li>
<li><span style="font-weight: 400;">Flexible versions: loaded or <a href="https://www.diagenode.com/en/p/pa-tn5-transposase-unloaded">unloaded</a><br /></span></li>
<li><span style="font-weight: 400;">Excellent for CUT&amp;Tag </span></li>
</ul>
<p>As it is crucial to target only the protein of interest, a highly specific antibody is critical for the success of the CUT&amp;Tag assay. All Diagenode ChIP-seq grade antibodies are validated for specificity using strict validation criteria to assure <a href="https://www.diagenode.com/en/pages/cut-and-tag" target="_blank">high performance in CUT&amp;Tag</a>.</p>
<p class="lead"><strong>Check out all products recommended for CUT&amp;Tag assay</strong>:</p>
<ul class="nobullet" style="list-style-type: circle;">
<li><a href="https://www.diagenode.com/en/p/ideal-cut-and-tag-kit-for-histones-24">iDeal CUT&amp;Tag kit for Histones</a>&nbsp;- compatible with histome marks and some transcription factors</li>
<li>pA/Tn5 Transposase (loaded or <a href="https://www.diagenode.com/en/products/view/3065" target="_blank">unloaded</a>)</li>
<li><a href="https://www.diagenode.com/en/applications/cut-and-tag">CUT&amp;Tag grade</a> and <a href="https://www.diagenode.com/en/categories/chip-seq-grade-antibodies">ChIP-seq grade</a> antibodies</li>
<li>Negative &amp; positive CUT&amp;Tag controls:&nbsp;<span>Antibody Package for CUT&amp;Tag: <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antirabbit-24">anti-rabbit</a> and <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antimouse-24">anti-mouse</a></span></li>
<li>DNA purification: <a href="https://www.diagenode.com/en/p/ipure-kit-v2-x24">IPure kit v2</a> or <a href="https://www.diagenode.com/en/p/microchip-diapure-columns-50-rxns">MicroChIP DiaPure columns</a></li>
<li>Sequencing indexes: <a href="https://www.diagenode.com/en/p/24-si-for-tagmented-libraries">single indexes</a> and <a href="https://www.diagenode.com/en/p/24-unique-dual-indexes-for-tagmented-libraries-set1">UDI</a></li>
</ul>',
			'label1' => 'Validation data',
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<div class="small-12 medium-12 large-12 columns">A.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K4me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-a.png" width="800" height="374" /></center><br /> B.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K9me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-b.png" width="800" height="374" /></center><br /> C.<br /><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-c.png" width="800" height="374" /></center></div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">
<p><strong>Figure 1.</strong> Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (A), <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">H3K9me3</a> (B) and <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (C) data obtained using Diagenode pA-Tn5 fusion protein (C01070001) and CUT&amp;Tag protocol (Kaya-Okur, H.S., Nat Commun 10, 1930 (2019)) at selected loci. CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), H3K27me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>) and H3K9me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">C15410193</a>).</p>
</div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-a.png" /></center></div>
<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K4me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-b.png" /></center></div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">
<p><strong>Figure 2.</strong> CUT&amp;Tag profiles show typical enrichments specific for a given histone mark. Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (red) and <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (green) are shown at selected loci. H3K27me3, which marks inactive regions (red), does not show enrichment over open chromatin regions, marked by H3K4me3 (green). CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), and H3K27me3 polyclonal ChIP-seq grade (Cat. No.<a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>).</p>
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<div class="row">
<div class="small-12 medium-8 large-8 columns"><br />
<p><strong>CUT&amp;Tag</strong>-sequencing (<strong>C</strong>leavage <strong>U</strong>nder <strong>T</strong>argets and <strong>Tag</strong>mentation) is a new alternative method to ChIP-seq combining antibody-targeted controlled cleavage by a protein A-Tn5 fusion with massively parallel DNA sequencing to identify the binding sites of DNA-associated proteins. At Diagenode we offer a complete solution for CUT&amp;Tag &ndash; our iDeal CUT&amp;Tag for Histones (developped for histone marks and some non-histone proteins), but also stand-alone fusion protein &ndash; pA-Tn5 Transposase. Moreover, we have validated our <a href="https://www.diagenode.com/en/categories/chip-seq-grade-antibodies">ChIP-seq grade antibodies</a> in <a href="https://www.diagenode.com/en/categories/cut-and-tag-antibodies">CUT&amp;Tag</a> proving their high performance in this assay.</p>
<br /> <a href="https://www.diagenode.com/files/application_notes/AN-iDealCUTandTag.pdf"><img src="https://www.diagenode.com/img/banners/cutandtag-appnote.png" /></a><br /><br /></div>
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<ul class="accordion" data-accordion="">
<li class="accordion-navigation"><a href="#v5" style="color: #13b29c;"><i class="fa fa-caret-right"></i> How does it work?</a>
<div id="v5" class="content">
<p>The iDeal CUT&amp;Tag protocol involves the binding of cells on a solid phase ConA magnetic beads, allowing magnetic handling of the cells for the major steps of the protocol. Bead-bound cells are permeabilized, incubated with primary antibody against a target of interest and secondary antibody. Then, Diagenode&rsquo;s protein pA-Tn5 Transposase - loaded is bound to the complex. Protein A guides Tn5 transposase on chromatin to the antibody attached to its target. Tn5 transposase is activated by Mg+2 ions to insert the sequencing adaptors into genomic regions of interest. DNA is then purified and the tagmented genomic regions of interest are amplified by PCR using Diagenode&rsquo;s Primer Indexes for tagmented libraries.</p>
<img src="https://www.diagenode.com/img/product/kits/workflow-cutandtag.jpg" /></div>
<h2>Products for CUT&amp;Tag assay</h2>
<h3 class="diacol">Complete solutions</h3>
<ul class="nobullet">
<li><i class="fa fa-arrow-circle-right"></i> <a href="https://www.diagenode.com/en/p/ideal-cut-and-tag-kit-for-histones-24" target="_blank">iDeal CUT&amp;Tag kit for Histones</a></li>
<li><i class="fa fa-arrow-circle-right"></i> <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antirabbit-24" target="_blank">Antibody package for CUT&amp;Tag (anti-rabbit)</a></li>
<li><i class="fa fa-arrow-circle-right"></i> <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antimouse-24" target="_blank">Antibody package for CUT&amp;Tag (anti-mouse)</a></li>
</ul>
<h3 class="diacol">Fusion protein</h3>
<ul class="nobullet">
<li><i class="fa fa-arrow-circle-right"></i> <a href="https://www.diagenode.com/en/products/view/3064" target="_blank">pA/Tn5 Transposase (loaded)</a></li>
<li><i class="fa fa-arrow-circle-right"></i> <a href="https://www.diagenode.com/en/products/view/3065" target="_blank">pA/Tn5 Transposase (unloaded)</a></li>
</ul>
<h3 class="diacol">CUT&amp;Tag grade antibodies</h3>
<ul class="nobullet">
<li>Antibodies <a href="https://www.diagenode.com/en/applications/cut-and-tag">validated in CUT&amp;Tag</a></li>
<li>Check out our list of <a href="https://www.diagenode.com/en/categories/chip-seq-grade-antibodies" target="_blank">ChIP-seq grade antibodies</a></li>
<li>Read more about the performance of Diagenode antibodies in <a href="https://www.diagenode.com/en/pages/cut-and-tag" target="_blank">CUT&amp;Tag</a></li>
</ul>
<h3 class="diacol">Positive &amp; Negative CUT&amp;Tag control</h3>
<ul class="nobullet">
<li><i class="fa fa-arrow-circle-right"></i> <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antirabbit-24" target="_blank">Antibody package for CUT&amp;Tag (anti-rabbit)</a></li>
<li><i class="fa fa-arrow-circle-right"></i> <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antimouse-24" target="_blank">Antibody package for CUT&amp;Tag (anti-mouse)</a></li>
</ul>
<h3 class="diacol">DNA purification</h3>
<p style="padding-left: 30px;"><a href="https://www.diagenode.com/en/p/ipure-kit-v2-x24">IPure kit v2<br /></a><a href="https://www.diagenode.com/en/p/microchip-diapure-columns-50-rxns">MicroChIP DiaPure columns</a></p>
<h3 class="diacol">Sequencing indexes</h3>
<ul class="nobullet">
<li><i class="fa fa-arrow-circle-right"></i> <a href="https://www.diagenode.com/en/categories/primer-indexes-for-tagmented-libraries" target="_blank">Primer indexes for tagmented libraries</a></li>
</ul>
</li>
</ul>',
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			'description' => '<p>pA-Tn5 Transposase is a fusion protein of hyperactive Tn5 transposase and protein A developed for the CUT&amp;Tag assay. For ease of use, the fusion protein is pre-loaded with sequencing adapters suitable for single or dual indexing in single or paired-end Illumina platforms. The adaptors contain 19-mer Tn5 mosaic ends and the sequences for PCR amplification with barcoded i7/i5.</p>',
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			'name' => 'Accelerated epigenetic aging in Huntington’s disease involves polycomb repressive complex 1',
			'authors' => 'Baptiste Brulé et al.',
			'description' => '<p><span>Loss of epigenetic information during physiological aging compromises cellular identity, leading to de-repression of developmental genes. Here, we assessed the epigenomic landscape of vulnerable neurons in two reference mouse models of Huntington neurodegenerative disease (HD), using cell-type-specific multi-omics, including temporal analysis at three disease stages via FANS-CUT&amp;Tag. We show accelerated de-repression of developmental genes in HD striatal neurons, involving histone re-acetylation and depletion of H2AK119 ubiquitination and H3K27 trimethylation marks, which are catalyzed by polycomb repressive complexes 1 and 2 (PRC1 and PRC2), respectively. We further identify a PRC1-dependent subcluster of bivalent developmental transcription factors that is re-activated in HD striatal neurons. This mechanism likely involves progressive paralog switching between PRC1-CBX genes, which promotes the upregulation of normally low-expressed PRC1-CBX2/4/8 isoforms in striatal neurons, alongside the down-regulation of predominant PRC1-CBX isoforms in these cells (e.g., CBX6/7). Collectively, our data provide evidence for PRC1-dependent accelerated epigenetic aging in HD vulnerable neurons.</span></p>',
			'date' => '2025-02-11',
			'pmid' => 'https://www.nature.com/articles/s41467-025-56722-z',
			'doi' => ' https://doi.org/10.1038/s41467-025-56722-z',
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			'authors' => 'Akihiro Ito et al.',
			'description' => '<p><span>Reversible histone acylation is crucial for epigenetic gene expression regulation. Histone acylation is typically mediated by lysine acyltransferases (KATs), which use acyl-CoAs as acyl donors. Here, we revealed the novel role of the histone deacetylases HDAC1 and HDAC2 in histone acylation catalysis. Notably, we show that HDAC1 and HDAC2 directly catalyze sorbylation using sorbic acid, a common food preservative, in addition to facilitating desorbylation. This newly discovered HDAC1/2-driven histone sorbylation function is a distinctive active epigenetic mark that leads to widespread changes in the expression of genes, particularly those involved in cholesterol biosynthesis. Our findings reveal that HDAC1/2 are unique enzymes capable of catalyzing not only the removal but also formation of histone modifications in response to exogenous carboxylic acids such as sorbic acid and benzoic acid. Our results highlight the impact of carboxylic acids found in the environment, such as food additives, on gene expression changes that occur via histone lysine modification regulated by HDAC1 and HDAC2.</span></p>',
			'date' => '2025-01-30',
			'pmid' => 'https://www.researchsquare.com/article/rs-5847857/v1',
			'doi' => 'https://doi.org/10.21203/rs.3.rs-5847857/v1',
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			'name' => 'The molecular consequences of FOXF1 missense mutations associated with alveolar capillary dysplasia with misalignment of pulmonary veins',
			'authors' => 'G. G. Edel et al.',
			'description' => '<h3 class="c-article__sub-heading" data-test="abstract-sub-heading">Background</h3>
<p>Alveolar capillary dysplasia with misalignment of pulmonary veins (ACD/MPV) is a fatal congenital lung disorder strongly associated with genomic alterations in the Forkhead box F1 (FOXF1) gene and its regulatory region. However, little is known about how FOXF1 genomic alterations cause ACD/MPV and what molecular mechanisms are affected by these mutations. Therefore, the effect of ACD/MPV patient-specific mutations in the<span>&nbsp;</span><i>FOXF1</i><span>&nbsp;</span>gene on the molecular function of FOXF1 was studied.</p>
<h3 class="c-article__sub-heading" data-test="abstract-sub-heading">Methods</h3>
<p>Epitope-tagged FOXF1 constructs containing one of the ACD/MPV-associated mutations were expressed in mammalian cell lines to study the effect of FOXF1 mutations on protein function. EMSA binding assays and luciferase assays were performed to study the effect on target gene binding and activation. Immunoprecipitation followed by SDS‒PAGE and western blotting were used to study protein‒protein interactions. Protein phosphorylation was studied using phos-tag western blotting.</p>
<h3 class="c-article__sub-heading" data-test="abstract-sub-heading">Results</h3>
<p>An overview of the localization of ACD/MPV-associated FOXF1 mutations revealed that the G91-S101 region was frequently mutated. A three-dimensional model of the forkhead DNA-binding domain of FOXF1 showed that the G91-S101 region consists of an &alpha;-helix and is predicted to be important for DNA binding. We showed that FOXF1 missense mutations in this region differentially affect the DNA binding of the FOXF1 protein and influence the transcriptional regulation of target genes depending on the location of the mutation. Furthermore, we showed that some of these mutations can affect the FOXF1 protein at the posttranscriptional level, as shown by altered phosphorylation by MST1 and MST2 kinases.</p>
<h3 class="c-article__sub-heading" data-test="abstract-sub-heading">Conclusion</h3>
<p>Missense mutations in the coding region of the<span>&nbsp;</span><i>FOXF1</i><span>&nbsp;</span>gene alter the molecular function of the FOXF1 protein at multiple levels, such as phosphorylation, DNA binding and target gene activation. These results indicate that FOXF1 molecular pathways may be differentially affected in ACD/MPV patients carrying missense mutations in the DNA-binding domain and may explain the phenotypic heterogeneity of ACD/MPV.</p>',
			'date' => '2024-11-04',
			'pmid' => 'https://link.springer.com/article/10.1186/s12929-024-01088-5',
			'doi' => 'https://doi.org/10.1186/s12929-024-01088-5',
			'modified' => '2024-11-07 11:27:34',
			'created' => '2024-11-07 11:27:34',
			'ProductsPublication' => array(
				[maximum depth reached]
			)
		),
		(int) 3 => array(
			'id' => '4972',
			'name' => 'Two-factor authentication underpins the precision of the piRNA pathway',
			'authors' => 'Dias Mirandela M. et al.',
			'description' => '<p><span>The PIWI-interacting RNA (piRNA) pathway guides the DNA methylation of young, active transposons during germline development in male mice</span><span>. piRNAs tether the PIWI protein MIWI2 (PIWIL4) to the nascent transposon transcript, resulting in DNA methylation through SPOCD1</span><span>. Transposon methylation requires great precision: every copy needs to be methylated but off-target methylation must be avoided. However, the underlying mechanisms that ensure this precision remain unknown. Here, we show that SPOCD1 interacts directly with SPIN1 (SPINDLIN1), a chromatin reader that primarily binds to H3K4me3-K9me3</span><span>. The prevailing assumption is that all the molecular events required for piRNA-directed DNA methylation occur after the engagement of MIWI2. We find that SPIN1 expression precedes that of both SPOCD1 and MIWI2. Furthermore, we demonstrate that young LINE1 copies, but not old ones, are marked by H3K4me3, H3K9me3 and SPIN1 before the initiation of piRNA-directed DNA methylation. We generated a<span>&nbsp;</span></span><i>Spocd1</i><span><span>&nbsp;</span>separation-of-function allele in the mouse that encodes a SPOCD1 variant that no longer interacts with SPIN1. We found that the interaction between SPOCD1 and SPIN1 is essential for spermatogenesis and piRNA-directed DNA methylation of young LINE1 elements. We propose that piRNA-directed LINE1 DNA methylation requires a developmentally timed two-factor authentication process. The first authentication is the recruitment of SPIN1&ndash;SPOCD1 to the young LINE1 promoter, and the second is MIWI2 engagement with the nascent transcript. In summary, independent authentication events underpin the precision of piRNA-directed LINE1 DNA methylation.</span></p>',
			'date' => '2024-09-18',
			'pmid' => 'https://www.nature.com/articles/s41586-024-07963-3',
			'doi' => 'https://doi.org/10.1038/s41586-024-07963-3',
			'modified' => '2024-09-23 10:02:22',
			'created' => '2024-09-23 10:01:31',
			'ProductsPublication' => array(
				[maximum depth reached]
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		),
		(int) 4 => array(
			'id' => '4827',
			'name' => 'Transcription factor EGR2 controls homing and pathogenicity of T17cells in the central nervous system.',
			'authors' => 'Gao  Y. et al.',
			'description' => '<p>CD4 T helper 17 (T17) cells protect barrier tissues but also trigger autoimmunity. The mechanisms behind these opposing processes remain unclear. Here, we found that the transcription factor EGR2 controlled the transcriptional program of pathogenic T17 cells in the central nervous system (CNS) but not that of protective T17 cells at barrier sites. EGR2 was significantly elevated in myelin-reactive CD4 T cells from patients with multiple sclerosis and mice with autoimmune neuroinflammation. The EGR2 transcriptional program was intricately woven within the T17 cell transcriptional regulatory network and showed high interconnectivity with core T17 cell-specific transcription factors. Mechanistically, EGR2 enhanced T17 cell differentiation and myeloid cell recruitment to the CNS by upregulating pathogenesis-associated genes and myelomonocytic chemokines. T cell-specific deletion of Egr2 attenuated neuroinflammation without compromising the host's ability to control infections. Our study shows that EGR2 regulates tissue-specific and disease-specific functions in pathogenic T17 cells in the CNS.</p>',
			'date' => '2023-08-01',
			'pmid' => 'https://www.ncbi.nlm.nih.gov/pubmed/37443284',
			'doi' => '10.1038/s41590-023-01553-7',
			'modified' => '2023-08-01 13:35:13',
			'created' => '2023-08-01 15:59:38',
			'ProductsPublication' => array(
				[maximum depth reached]
			)
		),
		(int) 5 => array(
			'id' => '4671',
			'name' => 'The Hdc GC box is critical for Hdc gene transcription andhistamine-mediated anaphylaxis.',
			'authors' => 'Li  Y. et al.',
			'description' => '<p>BACKGROUND: Histamine is a critical mediator of anaphylaxis, a neurotransmitter, and a regulator of gastric acid secretion. Histidine decarboxylase is a rate-limiting enzyme for histamine synthesis. However, in vivo regulation of Hdc, the gene that encodes histidine decarboxylase is poorly understood. OBJECTIVE: We sought to investigate how enhancers regulate Hdc gene transcription and histamine synthesis in resting conditions and in a mouse model of anaphylaxis. METHODS: H3K27 acetylation histone modification and chromatin accessibility were used to identify candidate enhancers; The enhancer activity of candidate enhancers was measured in a reporter gene assay; and the function enhancers were validated using CRISPR deletion. RESULTS: Deletion of the GC box, which binds to zinc finger transcription factors, in the proximal Hdc enhancer, reduced Hdc gene transcription and histamine synthesis in the mouse and human mast cell lines. Mast cells, basophils, brain cells, and stomach cells from GC box-deficient mice transcribed the Hdc gene much less than similar cells from wild-type mice and Hdc GC box-deficient mice failed to develop anaphylaxis. CONCLUSION: Our results demonstrate that the HDC GC box within the proximal enhancer in the mouse and human HDC gene is essential for Hdc gene transcription, histamine synthesis, and histamine-mediated anaphylaxis in vitro and in vivo.</p>',
			'date' => '2023-02-01',
			'pmid' => 'https://doi.org/10.1016%2Fj.jaci.2023.01.031',
			'doi' => '10.1016/j.jaci.2023.01.031',
			'modified' => '2023-04-11 10:29:30',
			'created' => '2023-02-28 12:19:11',
			'ProductsPublication' => array(
				[maximum depth reached]
			)
		),
		(int) 6 => array(
			'id' => '4873',
			'name' => 'Retrospective analysis of enhancer activity and transcriptome history.',
			'authors' => 'Boers  R. et al.',
			'description' => '<p>Cell state changes in development and disease are controlled by gene regulatory networks, the dynamics of which are difficult to track in real time. In this study, we used an inducible DCM-RNA polymerase subunit b fusion protein which labels active genes and enhancers with a bacterial methylation mark that does not affect gene transcription and is propagated in S-phase. This DCM-RNA polymerase fusion protein enables transcribed genes and active enhancers to be tagged and then examined at later stages of development or differentiation. We apply this DCM-time machine (DCM-TM) technology to study intestinal homeostasis, revealing rapid and coordinated activation of enhancers and nearby genes during enterocyte differentiation. We provide new insights in absorptive-secretory lineage decision-making in intestinal stem cell (ISC) differentiation and show that ISCs retain a unique chromatin landscape required to maintain ISC identity and delineate future expression of differentiation-associated genes. DCM-TM has wide applicability in tracking cell states, providing new insights in the regulatory networks underlying cell state changes.</p>',
			'date' => '2023-02-01',
			'pmid' => 'https://www.ncbi.nlm.nih.gov/pubmed/36823354',
			'doi' => '10.1038/s41587-023-01683-1',
			'modified' => '2023-11-10 09:13:54',
			'created' => '2023-09-01 14:23:20',
			'ProductsPublication' => array(
				[maximum depth reached]
			)
		),
		(int) 7 => array(
			'id' => '4627',
			'name' => 'Simultaneous profiling of histone modifications and DNA methylation viananopore sequencing.',
			'authors' => 'Yue  X. et al.',
			'description' => '<p>The interplay between histone modifications and DNA methylation drives the establishment and maintenance of the cellular epigenomic landscape, but it remains challenging to investigate the complex relationship between these epigenetic marks across the genome. Here we describe a nanopore-sequencing-based-method, nanoHiMe-seq, for interrogating the genome-wide localization of histone modifications and DNA methylation from single DNA molecules. nanoHiMe-seq leverages a nonspecific methyltransferase to exogenously label adenine bases proximal to antibody-targeted modified nucleosomes in situ. The labelled adenines and the endogenous methylated CpG sites are simultaneously detected on individual nanopore reads using a hidden Markov model, which is implemented in the nanoHiMe software package. We demonstrate the utility, robustness and sensitivity of nanoHiMe-seq by jointly profiling DNA methylation and histone modifications at low coverage depths, concurrently determining phased patterns of DNA methylation and histone modifications, and probing the intrinsic connectivity between these epigenetic marks across the genome.</p>',
			'date' => '2022-12-01',
			'pmid' => 'https://www.ncbi.nlm.nih.gov/pubmed/36566265',
			'doi' => '10.1038/s41467-022-35650-2',
			'modified' => '2023-03-28 08:59:26',
			'created' => '2023-02-21 09:59:46',
			'ProductsPublication' => array(
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		),
		(int) 8 => array(
			'id' => '4550',
			'name' => 'A SOX2-engineered epigenetic silencer factor represses the glioblastomagenetic program and restrains tumor development.',
			'authors' => 'Benedetti  V. et al.',
			'description' => '<p>Current therapies remain unsatisfactory in preventing the recurrence of glioblastoma multiforme (GBM), which leads to poor patient survival. By rational engineering of the transcription factor SOX2, a key promoter of GBM malignancy, together with the Kruppel-associated box and DNA methyltransferase3A/L catalytic domains, we generated a synthetic repressor named SOX2 epigenetic silencer (SES), which induces the transcriptional silencing of its original targets. By doing so, SES kills both glioma cell lines and patient-derived cancer stem cells in vitro and in vivo. SES expression, through local viral delivery in mouse xenografts, induces strong regression of human tumors and survival rescue. Conversely, SES is not harmful to neurons and glia, also thanks to a minimal promoter that restricts its expression in mitotically active cells, rarely present in the brain parenchyma. Collectively, SES produces a significant silencing of a large fraction of the SOX2 transcriptional network, achieving high levels of efficacy in repressing aggressive brain tumors.</p>',
			'date' => '2022-08-01',
			'pmid' => 'https://pubmed.ncbi.nlm.nih.gov/35921410/',
			'doi' => '10.1126/sciadv.abn3986',
			'modified' => '2023-09-28 11:26:02',
			'created' => '2022-11-24 08:49:52',
			'ProductsPublication' => array(
				[maximum depth reached]
			)
		),
		(int) 9 => array(
			'id' => '4836',
			'name' => 'Caffeine intake exerts dual genome-wide effects on hippocampal metabolismand learning-dependent transcription.',
			'authors' => 'Paiva  I. et al.',
			'description' => '<p>Caffeine is the most widely consumed psychoactive substance in the world. Strikingly, the molecular pathways engaged by its regular consumption remain unclear. We herein addressed the mechanisms associated with habitual (chronic) caffeine consumption in the mouse hippocampus using untargeted orthogonal omics techniques. Our results revealed that chronic caffeine exerts concerted pleiotropic effects in the hippocampus at the epigenomic, proteomic, and metabolomic levels. Caffeine lowered metabolism-related processes (e.g., at the level of metabolomics and gene expression) in bulk tissue, while it induced neuron-specific epigenetic changes at synaptic transmission/plasticity-related genes and increased experience-driven transcriptional activity. Altogether, these findings suggest that regular caffeine intake improves the signal-to-noise ratio during information encoding, in part through fine-tuning of metabolic genes, while boosting the salience of information processing during learning in neuronal circuits.</p>',
			'date' => '2022-06-01',
			'pmid' => 'https://www.ncbi.nlm.nih.gov/pubmed/35536645',
			'doi' => '10.1172/JCI149371',
			'modified' => '2023-08-01 13:52:29',
			'created' => '2023-08-01 15:59:38',
			'ProductsPublication' => array(
				[maximum depth reached]
			)
		),
		(int) 10 => array(
			'id' => '4263',
			'name' => 'ATRX regulates glial identity and the tumor microenvironment inIDH-mutant glioma',
			'authors' => 'Babikir, Husam and Wang, Lin and Shamardani, Karin andCatalan, Francisca and Sudhir, Sweta and Aghi, Manish K. andRaleigh, David R. and Phillips, Joanna J. and Diaz, AaronA.',
			'description' => '<p>Background Recent single-cell transcriptomic studies report that IDH-mutant gliomas share a common hierarchy of cellular phenotypes, independent of genetic subtype. However, the genetic differences between IDH-mutant glioma subtypes are prognostic, predictive of response to chemotherapy, and correlate with distinct tumor microenvironments. Results To reconcile these findings, we profile 22 human IDH-mutant gliomas using scATAC-seq and scRNA-seq. We determine the cell-type-specific differences in transcription factor expression and associated regulatory grammars between IDH-mutant glioma subtypes. We find that while IDH-mutant gliomas do share a common distribution of cell types, there are significant differences in the expression and targeting of transcription factors that regulate glial identity and cytokine elaboration. We knock out the chromatin remodeler ATRX, which suffers loss-of-function alterations in most IDH-mutant astrocytomas, in an IDH-mutant immunocompetent intracranial murine model. We find that both human ATRX-mutant gliomas and murine ATRX-knockout gliomas are more heavily infiltrated by immunosuppressive monocytic-lineage cells derived from circulation than ATRX-intact gliomas, in an IDH-mutant background. ATRX knockout in murine glioma recapitulates gene expression and open chromatin signatures that are specific to human ATRX-mutant astrocytomas, including drivers of astrocytic lineage and immune-cell chemotaxis. Through single-cell cleavage under targets and tagmentation assays and meta-analysis of public data, we show that ATRX loss leads to a global depletion in CCCTC-binding factor association with DNA, gene dysregulation along associated chromatin loops, and protection from therapy-induced senescence. Conclusions These studies explain how IDH-mutant gliomas from different subtypes maintain distinct phenotypes and tumor microenvironments despite a common lineage hierarchy. Supplementary Information The online version contains supplementary material available at 10.1186/s13059-021-02535-4.</p>',
			'date' => '2021-11-01',
			'pmid' => 'https://www.ncbi.nlm.nih.gov/pubmed/34763709',
			'doi' => '10.1186/s13059-021-02535-4',
			'modified' => '2022-05-20 09:50:12',
			'created' => '2022-05-19 10:41:50',
			'ProductsPublication' => array(
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		(int) 11 => array(
			'id' => '4233',
			'name' => 'Autocrine Vitamin D-signaling switches off pro-inflammatory programsof Th1 cells',
			'authors' => 'Chauss D.et al.',
			'description' => '<p>The molecular mechanisms governing orderly shutdown and retraction of CD4+ T helper (Th)1 responses remain poorly understood. Here, we show that complement triggers contraction of Th1 responses by inducing intrinsic expression of the vitamin D (VitD) receptor (VDR) and the VitD-activating enzyme CYP27B1, permitting T cells to both activate and respond to VitD. VitD then initiated transition from pro-inflammatory IFN-&gamma; + Th1 cells to suppressive IL-10+ cells. This process was primed by dynamic changes in the epigenetic landscape of CD4+ T cells, generating super-enhancers and recruiting several transcription factors, notably c-JUN, STAT3 and BACH2, which together with VDR shaped the transcriptional response to VitD. Accordingly, VitD did not induce IL-10 in cells with dysfunctional BACH2 or STAT3. Bronchoalveolar lavage fluid CD4+ T cells of COVID-19 patients were Th1-skewed and showed de-repression of genes down-regulated by VitD, either from lack of substrate (VitD deficiency) and/or abnormal regulation of this system.</p>',
			'date' => '2021-10-01',
			'pmid' => 'https://www.ncbi.nlm.nih.gov/pubmed/34764490',
			'doi' => '10.1038/s41590-021-01080-3',
			'modified' => '2022-05-19 16:57:27',
			'created' => '2022-05-19 10:41:50',
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			'description' => '<p>We are really happy to use the loaded pA-Tn5 for CUT&amp;Tag. Easy to use and reproductible for samples with a starting low number of cells. Besides, Diagenode has a great customer service and technical support which are really responsive.</p>',
			'author' => 'Cathy NGUYEN, CNRGH, Evry-Courcouronnes, France.',
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		'id' => '3064',
		'antibody_id' => null,
		'name' => 'pA-Tn5 Transposase - loaded',
		'description' => '<div class="row">
<div class="small-12 medium-8 large-8 columns"><br />
<p><strong>pA-Tn5 transposase</strong> is a fusion protein of hyperactive Tn5 transposase and protein A developed for the <strong>CUT&amp;Tag assay</strong>. For convenience, the fusion protein is pre-loaded with sequencing adapters. Diagenode pA-Tn5 transposase is compatible with CUT&amp;Tag and other antibody-tethered Tn5 based methods, like ACT-seq and CoBATCH.</p>
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<p><strong>pA-Tn5 Transposase</strong></p>
<ul style="list-style-type: circle;">
<li>High enrichment and specificity of the signal around the TSS</li>
<li>No contamination<span style="font-weight: 400;"> with </span><i><span style="font-weight: 400;">E. coli</span></i><span style="font-weight: 400;"> DNA</span></li>
<li><span style="font-weight: 400;">Flexible versions: loaded or <a href="https://www.diagenode.com/en/p/pa-tn5-transposase-unloaded">unloaded</a><br /></span></li>
<li><span style="font-weight: 400;">Excellent for CUT&amp;Tag </span></li>
</ul>
<p>As it is crucial to target only the protein of interest, a highly specific antibody is critical for the success of the CUT&amp;Tag assay. All Diagenode ChIP-seq grade antibodies are validated for specificity using strict validation criteria to assure <a href="https://www.diagenode.com/en/pages/cut-and-tag" target="_blank">high performance in CUT&amp;Tag</a>.</p>
<p class="lead"><strong>Check out all products recommended for CUT&amp;Tag assay</strong>:</p>
<ul class="nobullet" style="list-style-type: circle;">
<li><a href="https://www.diagenode.com/en/p/ideal-cut-and-tag-kit-for-histones-24">iDeal CUT&amp;Tag kit for Histones</a>&nbsp;- compatible with histome marks and some transcription factors</li>
<li>pA/Tn5 Transposase (loaded or <a href="https://www.diagenode.com/en/products/view/3065" target="_blank">unloaded</a>)</li>
<li><a href="https://www.diagenode.com/en/applications/cut-and-tag">CUT&amp;Tag grade</a> and <a href="https://www.diagenode.com/en/categories/chip-seq-grade-antibodies">ChIP-seq grade</a> antibodies</li>
<li>Negative &amp; positive CUT&amp;Tag controls:&nbsp;<span>Antibody Package for CUT&amp;Tag: <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antirabbit-24">anti-rabbit</a> and <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antimouse-24">anti-mouse</a></span></li>
<li>DNA purification: <a href="https://www.diagenode.com/en/p/ipure-kit-v2-x24">IPure kit v2</a> or <a href="https://www.diagenode.com/en/p/microchip-diapure-columns-50-rxns">MicroChIP DiaPure columns</a></li>
<li>Sequencing indexes: <a href="https://www.diagenode.com/en/p/24-si-for-tagmented-libraries">single indexes</a> and <a href="https://www.diagenode.com/en/p/24-unique-dual-indexes-for-tagmented-libraries-set1">UDI</a></li>
</ul>',
		'label1' => 'Validation data',
		'info1' => '<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">A.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K4me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-a.png" width="800" height="374" /></center><br /> B.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K9me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-b.png" width="800" height="374" /></center><br /> C.<br /><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-c.png" width="800" height="374" /></center></div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">
<p><strong>Figure 1.</strong> Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (A), <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">H3K9me3</a> (B) and <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (C) data obtained using Diagenode pA-Tn5 fusion protein (C01070001) and CUT&amp;Tag protocol (Kaya-Okur, H.S., Nat Commun 10, 1930 (2019)) at selected loci. CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), H3K27me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>) and H3K9me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">C15410193</a>).</p>
</div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-a.png" /></center></div>
<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K4me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-b.png" /></center></div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">
<p><strong>Figure 2.</strong> CUT&amp;Tag profiles show typical enrichments specific for a given histone mark. Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (red) and <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (green) are shown at selected loci. H3K27me3, which marks inactive regions (red), does not show enrichment over open chromatin regions, marked by H3K4me3 (green). CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), and H3K27me3 polyclonal ChIP-seq grade (Cat. No.<a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>).</p>
</div>
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		'price_EUR' => '650',
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		'slug' => 'pa-tn5-transposase-loaded',
		'meta_title' => 'pA-Tn5 Transposase (loaded) developed for the CUT&Tag assay | Diagenode.com',
		'meta_keywords' => '',
		'meta_description' => 'Diagenode pA-Tn5 Transposase (loaded) is a fusion protein of hyperactive Tn5 transposase and protein A developed for the CUT&Tag assay. For convenience, the fusion protein is pre-loaded with sequencing adapters.',
		'modified' => '2024-08-29 10:33:48',
		'created' => '2020-04-28 15:34:52'
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	(int) 1 => array(
		'id' => '3239',
		'antibody_id' => null,
		'name' => 'pA-Tn5 Transposase - loaded',
		'description' => '<div class="row">
<div class="small-12 medium-8 large-8 columns"><br />
<p><strong>pA-Tn5 transposase</strong> is a fusion protein of hyperactive Tn5 transposase and protein A developed for the <strong>CUT&amp;Tag assay</strong>. For convenience, the fusion protein is pre-loaded with sequencing adapters. Diagenode pA-Tn5 transposase is compatible with CUT&amp;Tag and other antibody-tethered Tn5 based methods, like ACT-seq and CoBATCH.</p>
</div>
<div class="small-12 medium-4 large-4 columns"><center>
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<p><strong>pA-Tn5 Transposase</strong></p>
<ul style="list-style-type: circle;">
<li>High enrichment and specificity of the signal around the TSS</li>
<li>No contamination<span style="font-weight: 400;"> with </span><i><span style="font-weight: 400;">E. coli</span></i><span style="font-weight: 400;"> DNA</span></li>
<li><span style="font-weight: 400;">Flexible versions: loaded or <a href="https://www.diagenode.com/en/p/pa-tn5-transposase-unloaded">unloaded</a><br /></span></li>
<li><span style="font-weight: 400;">Excellent for CUT&amp;Tag </span></li>
</ul>
<p>As it is crucial to target only the protein of interest, a highly specific antibody is critical for the success of the CUT&amp;Tag assay. All Diagenode ChIP-seq grade antibodies are validated for specificity using strict validation criteria to assure <a href="https://www.diagenode.com/en/pages/cut-and-tag" target="_blank">high performance in CUT&amp;Tag</a>.</p>
<p class="lead"><strong>Check out all products recommended for CUT&amp;Tag assay</strong>:</p>
<ul class="nobullet" style="list-style-type: circle;">
<li><a href="https://www.diagenode.com/en/p/ideal-cut-and-tag-kit-for-histones-24">iDeal CUT&amp;Tag kit for Histones</a>&nbsp;- compatible with histome marks and some transcription factors</li>
<li>pA/Tn5 Transposase (loaded or <a href="https://www.diagenode.com/en/products/view/3065" target="_blank">unloaded</a>)</li>
<li><a href="https://www.diagenode.com/en/applications/cut-and-tag">CUT&amp;Tag grade</a> and <a href="https://www.diagenode.com/en/categories/chip-seq-grade-antibodies">ChIP-seq grade</a> antibodies</li>
<li>Negative &amp; positive CUT&amp;Tag controls:&nbsp;<span>Antibody Package for CUT&amp;Tag: <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antirabbit-24">anti-rabbit</a> and <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antimouse-24">anti-mouse</a></span></li>
<li>DNA purification: <a href="https://www.diagenode.com/en/p/ipure-kit-v2-x24">IPure kit v2</a> or <a href="https://www.diagenode.com/en/p/microchip-diapure-columns-50-rxns">MicroChIP DiaPure columns</a></li>
<li>Sequencing indexes: <a href="https://www.diagenode.com/en/p/24-si-for-tagmented-libraries">single indexes</a> and <a href="https://www.diagenode.com/en/p/24-unique-dual-indexes-for-tagmented-libraries-set1">UDI</a></li>
</ul>',
		'label1' => 'Validation Data',
		'info1' => '<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">A.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K4me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-a.png" width="800" height="374" /></center><br /> B.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K9me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-b.png" width="800" height="374" /></center><br /> C.<br /><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-c.png" width="800" height="374" /></center></div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">
<p><strong>Figure 1.</strong> Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (A), <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">H3K9me3</a> (B) and <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (C) data obtained using Diagenode pA-Tn5 fusion protein (C01070001) and CUT&amp;Tag protocol (Kaya-Okur, H.S., Nat Commun 10, 1930 (2019)) at selected loci. CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), H3K27me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>) and H3K9me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">C15410193</a>).</p>
</div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-a.png" /></center></div>
<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K4me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-b.png" /></center></div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">
<p><strong>Figure 2.</strong> CUT&amp;Tag profiles show typical enrichments specific for a given histone mark. Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (red) and <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (green) are shown at selected loci. H3K27me3, which marks inactive regions (red), does not show enrichment over open chromatin regions, marked by H3K4me3 (green). CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), and H3K27me3 polyclonal ChIP-seq grade (Cat. No.<a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>).</p>
</div>
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$pro = array(
	'id' => '3239',
	'antibody_id' => null,
	'name' => 'pA-Tn5 Transposase - loaded',
	'description' => '<div class="row">
<div class="small-12 medium-8 large-8 columns"><br />
<p><strong>pA-Tn5 transposase</strong> is a fusion protein of hyperactive Tn5 transposase and protein A developed for the <strong>CUT&amp;Tag assay</strong>. For convenience, the fusion protein is pre-loaded with sequencing adapters. Diagenode pA-Tn5 transposase is compatible with CUT&amp;Tag and other antibody-tethered Tn5 based methods, like ACT-seq and CoBATCH.</p>
</div>
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<p><strong>pA-Tn5 Transposase</strong></p>
<ul style="list-style-type: circle;">
<li>High enrichment and specificity of the signal around the TSS</li>
<li>No contamination<span style="font-weight: 400;"> with </span><i><span style="font-weight: 400;">E. coli</span></i><span style="font-weight: 400;"> DNA</span></li>
<li><span style="font-weight: 400;">Flexible versions: loaded or <a href="https://www.diagenode.com/en/p/pa-tn5-transposase-unloaded">unloaded</a><br /></span></li>
<li><span style="font-weight: 400;">Excellent for CUT&amp;Tag </span></li>
</ul>
<p>As it is crucial to target only the protein of interest, a highly specific antibody is critical for the success of the CUT&amp;Tag assay. All Diagenode ChIP-seq grade antibodies are validated for specificity using strict validation criteria to assure <a href="https://www.diagenode.com/en/pages/cut-and-tag" target="_blank">high performance in CUT&amp;Tag</a>.</p>
<p class="lead"><strong>Check out all products recommended for CUT&amp;Tag assay</strong>:</p>
<ul class="nobullet" style="list-style-type: circle;">
<li><a href="https://www.diagenode.com/en/p/ideal-cut-and-tag-kit-for-histones-24">iDeal CUT&amp;Tag kit for Histones</a>&nbsp;- compatible with histome marks and some transcription factors</li>
<li>pA/Tn5 Transposase (loaded or <a href="https://www.diagenode.com/en/products/view/3065" target="_blank">unloaded</a>)</li>
<li><a href="https://www.diagenode.com/en/applications/cut-and-tag">CUT&amp;Tag grade</a> and <a href="https://www.diagenode.com/en/categories/chip-seq-grade-antibodies">ChIP-seq grade</a> antibodies</li>
<li>Negative &amp; positive CUT&amp;Tag controls:&nbsp;<span>Antibody Package for CUT&amp;Tag: <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antirabbit-24">anti-rabbit</a> and <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antimouse-24">anti-mouse</a></span></li>
<li>DNA purification: <a href="https://www.diagenode.com/en/p/ipure-kit-v2-x24">IPure kit v2</a> or <a href="https://www.diagenode.com/en/p/microchip-diapure-columns-50-rxns">MicroChIP DiaPure columns</a></li>
<li>Sequencing indexes: <a href="https://www.diagenode.com/en/p/24-si-for-tagmented-libraries">single indexes</a> and <a href="https://www.diagenode.com/en/p/24-unique-dual-indexes-for-tagmented-libraries-set1">UDI</a></li>
</ul>',
	'label1' => 'Validation Data',
	'info1' => '<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">A.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K4me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-a.png" width="800" height="374" /></center><br /> B.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K9me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-b.png" width="800" height="374" /></center><br /> C.<br /><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-c.png" width="800" height="374" /></center></div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">
<p><strong>Figure 1.</strong> Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (A), <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">H3K9me3</a> (B) and <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (C) data obtained using Diagenode pA-Tn5 fusion protein (C01070001) and CUT&amp;Tag protocol (Kaya-Okur, H.S., Nat Commun 10, 1930 (2019)) at selected loci. CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), H3K27me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>) and H3K9me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">C15410193</a>).</p>
</div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-a.png" /></center></div>
<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K4me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-b.png" /></center></div>
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<p><strong>Figure 2.</strong> CUT&amp;Tag profiles show typical enrichments specific for a given histone mark. Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (red) and <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (green) are shown at selected loci. H3K27me3, which marks inactive regions (red), does not show enrichment over open chromatin regions, marked by H3K4me3 (green). CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), and H3K27me3 polyclonal ChIP-seq grade (Cat. No.<a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>).</p>
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<div class="small-12 medium-8 large-8 columns"><br />
<p><strong>pA-Tn5 transposase</strong> is a fusion protein of hyperactive Tn5 transposase and protein A developed for the <strong>CUT&amp;Tag assay</strong>. For convenience, the fusion protein is pre-loaded with sequencing adapters. Diagenode pA-Tn5 transposase is compatible with CUT&amp;Tag and other antibody-tethered Tn5 based methods, like ACT-seq and CoBATCH.</p>
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<p><strong>pA-Tn5 Transposase</strong></p>
<ul style="list-style-type: circle;">
<li>High enrichment and specificity of the signal around the TSS</li>
<li>No contamination<span style="font-weight: 400;"> with </span><i><span style="font-weight: 400;">E. coli</span></i><span style="font-weight: 400;"> DNA</span></li>
<li><span style="font-weight: 400;">Flexible versions: loaded or <a href="https://www.diagenode.com/en/p/pa-tn5-transposase-unloaded">unloaded</a><br /></span></li>
<li><span style="font-weight: 400;">Excellent for CUT&amp;Tag </span></li>
</ul>
<p>As it is crucial to target only the protein of interest, a highly specific antibody is critical for the success of the CUT&amp;Tag assay. All Diagenode ChIP-seq grade antibodies are validated for specificity using strict validation criteria to assure <a href="https://www.diagenode.com/en/pages/cut-and-tag" target="_blank">high performance in CUT&amp;Tag</a>.</p>
<p class="lead"><strong>Check out all products recommended for CUT&amp;Tag assay</strong>:</p>
<ul class="nobullet" style="list-style-type: circle;">
<li><a href="https://www.diagenode.com/en/p/ideal-cut-and-tag-kit-for-histones-24">iDeal CUT&amp;Tag kit for Histones</a>&nbsp;- compatible with histome marks and some transcription factors</li>
<li>pA/Tn5 Transposase (loaded or <a href="https://www.diagenode.com/en/products/view/3065" target="_blank">unloaded</a>)</li>
<li><a href="https://www.diagenode.com/en/applications/cut-and-tag">CUT&amp;Tag grade</a> and <a href="https://www.diagenode.com/en/categories/chip-seq-grade-antibodies">ChIP-seq grade</a> antibodies</li>
<li>Negative &amp; positive CUT&amp;Tag controls:&nbsp;<span>Antibody Package for CUT&amp;Tag: <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antirabbit-24">anti-rabbit</a> and <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antimouse-24">anti-mouse</a></span></li>
<li>DNA purification: <a href="https://www.diagenode.com/en/p/ipure-kit-v2-x24">IPure kit v2</a> or <a href="https://www.diagenode.com/en/p/microchip-diapure-columns-50-rxns">MicroChIP DiaPure columns</a></li>
<li>Sequencing indexes: <a href="https://www.diagenode.com/en/p/24-si-for-tagmented-libraries">single indexes</a> and <a href="https://www.diagenode.com/en/p/24-unique-dual-indexes-for-tagmented-libraries-set1">UDI</a></li>
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<div class="small-12 medium-12 large-12 columns">A.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K4me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-a.png" width="800" height="374" /></center><br /> B.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K9me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-b.png" width="800" height="374" /></center><br /> C.<br /><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-c.png" width="800" height="374" /></center></div>
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<div class="row extra-spaced">
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<p><strong>Figure 1.</strong> Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (A), <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">H3K9me3</a> (B) and <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (C) data obtained using Diagenode pA-Tn5 fusion protein (C01070001) and CUT&amp;Tag protocol (Kaya-Okur, H.S., Nat Commun 10, 1930 (2019)) at selected loci. CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), H3K27me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>) and H3K9me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">C15410193</a>).</p>
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<div class="row extra-spaced">
<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-a.png" /></center></div>
<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K4me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-b.png" /></center></div>
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<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">
<p><strong>Figure 2.</strong> CUT&amp;Tag profiles show typical enrichments specific for a given histone mark. Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (red) and <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (green) are shown at selected loci. H3K27me3, which marks inactive regions (red), does not show enrichment over open chromatin regions, marked by H3K4me3 (green). CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), and H3K27me3 polyclonal ChIP-seq grade (Cat. No.<a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>).</p>
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<p><strong>pA-Tn5 transposase</strong> is a fusion protein of hyperactive Tn5 transposase and protein A developed for the <strong>CUT&amp;Tag assay</strong>. For convenience, the fusion protein is pre-loaded with sequencing adapters. Diagenode pA-Tn5 transposase is compatible with CUT&amp;Tag and other antibody-tethered Tn5 based methods, like ACT-seq and CoBATCH.</p>
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<p><strong>pA-Tn5 Transposase</strong></p>
<ul style="list-style-type: circle;">
<li>High enrichment and specificity of the signal around the TSS</li>
<li>No contamination<span style="font-weight: 400;"> with </span><i><span style="font-weight: 400;">E. coli</span></i><span style="font-weight: 400;"> DNA</span></li>
<li><span style="font-weight: 400;">Flexible versions: loaded or <a href="https://www.diagenode.com/en/p/pa-tn5-transposase-unloaded">unloaded</a><br /></span></li>
<li><span style="font-weight: 400;">Excellent for CUT&amp;Tag </span></li>
</ul>
<p>As it is crucial to target only the protein of interest, a highly specific antibody is critical for the success of the CUT&amp;Tag assay. All Diagenode ChIP-seq grade antibodies are validated for specificity using strict validation criteria to assure <a href="https://www.diagenode.com/en/pages/cut-and-tag" target="_blank">high performance in CUT&amp;Tag</a>.</p>
<p class="lead"><strong>Check out all products recommended for CUT&amp;Tag assay</strong>:</p>
<ul class="nobullet" style="list-style-type: circle;">
<li><a href="https://www.diagenode.com/en/p/ideal-cut-and-tag-kit-for-histones-24">iDeal CUT&amp;Tag kit for Histones</a>&nbsp;- compatible with histome marks and some transcription factors</li>
<li>pA/Tn5 Transposase (loaded or <a href="https://www.diagenode.com/en/products/view/3065" target="_blank">unloaded</a>)</li>
<li><a href="https://www.diagenode.com/en/applications/cut-and-tag">CUT&amp;Tag grade</a> and <a href="https://www.diagenode.com/en/categories/chip-seq-grade-antibodies">ChIP-seq grade</a> antibodies</li>
<li>Negative &amp; positive CUT&amp;Tag controls:&nbsp;<span>Antibody Package for CUT&amp;Tag: <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antirabbit-24">anti-rabbit</a> and <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antimouse-24">anti-mouse</a></span></li>
<li>DNA purification: <a href="https://www.diagenode.com/en/p/ipure-kit-v2-x24">IPure kit v2</a> or <a href="https://www.diagenode.com/en/p/microchip-diapure-columns-50-rxns">MicroChIP DiaPure columns</a></li>
<li>Sequencing indexes: <a href="https://www.diagenode.com/en/p/24-si-for-tagmented-libraries">single indexes</a> and <a href="https://www.diagenode.com/en/p/24-unique-dual-indexes-for-tagmented-libraries-set1">UDI</a></li>
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<div class="small-12 medium-12 large-12 columns">A.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K4me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-a.png" width="800" height="374" /></center><br /> B.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K9me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-b.png" width="800" height="374" /></center><br /> C.<br /><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-c.png" width="800" height="374" /></center></div>
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<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">
<p><strong>Figure 1.</strong> Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (A), <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">H3K9me3</a> (B) and <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (C) data obtained using Diagenode pA-Tn5 fusion protein (C01070001) and CUT&amp;Tag protocol (Kaya-Okur, H.S., Nat Commun 10, 1930 (2019)) at selected loci. CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), H3K27me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>) and H3K9me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">C15410193</a>).</p>
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<div class="row extra-spaced">
<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-a.png" /></center></div>
<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K4me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-b.png" /></center></div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">
<p><strong>Figure 2.</strong> CUT&amp;Tag profiles show typical enrichments specific for a given histone mark. Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (red) and <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (green) are shown at selected loci. H3K27me3, which marks inactive regions (red), does not show enrichment over open chromatin regions, marked by H3K4me3 (green). CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), and H3K27me3 polyclonal ChIP-seq grade (Cat. No.<a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>).</p>
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<p><strong>pA-Tn5 transposase</strong> is a fusion protein of hyperactive Tn5 transposase and protein A developed for the <strong>CUT&amp;Tag assay</strong>. For convenience, the fusion protein is pre-loaded with sequencing adapters. Diagenode pA-Tn5 transposase is compatible with CUT&amp;Tag and other antibody-tethered Tn5 based methods, like ACT-seq and CoBATCH.</p>
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<p><strong>pA-Tn5 Transposase</strong></p>
<ul style="list-style-type: circle;">
<li>High enrichment and specificity of the signal around the TSS</li>
<li>No contamination<span style="font-weight: 400;"> with </span><i><span style="font-weight: 400;">E. coli</span></i><span style="font-weight: 400;"> DNA</span></li>
<li><span style="font-weight: 400;">Flexible versions: loaded or <a href="https://www.diagenode.com/en/p/pa-tn5-transposase-unloaded">unloaded</a><br /></span></li>
<li><span style="font-weight: 400;">Excellent for CUT&amp;Tag </span></li>
</ul>
<p>As it is crucial to target only the protein of interest, a highly specific antibody is critical for the success of the CUT&amp;Tag assay. All Diagenode ChIP-seq grade antibodies are validated for specificity using strict validation criteria to assure <a href="https://www.diagenode.com/en/pages/cut-and-tag" target="_blank">high performance in CUT&amp;Tag</a>.</p>
<p class="lead"><strong>Check out all products recommended for CUT&amp;Tag assay</strong>:</p>
<ul class="nobullet" style="list-style-type: circle;">
<li><a href="https://www.diagenode.com/en/p/ideal-cut-and-tag-kit-for-histones-24">iDeal CUT&amp;Tag kit for Histones</a>&nbsp;- compatible with histome marks and some transcription factors</li>
<li>pA/Tn5 Transposase (loaded or <a href="https://www.diagenode.com/en/products/view/3065" target="_blank">unloaded</a>)</li>
<li><a href="https://www.diagenode.com/en/applications/cut-and-tag">CUT&amp;Tag grade</a> and <a href="https://www.diagenode.com/en/categories/chip-seq-grade-antibodies">ChIP-seq grade</a> antibodies</li>
<li>Negative &amp; positive CUT&amp;Tag controls:&nbsp;<span>Antibody Package for CUT&amp;Tag: <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antirabbit-24">anti-rabbit</a> and <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antimouse-24">anti-mouse</a></span></li>
<li>DNA purification: <a href="https://www.diagenode.com/en/p/ipure-kit-v2-x24">IPure kit v2</a> or <a href="https://www.diagenode.com/en/p/microchip-diapure-columns-50-rxns">MicroChIP DiaPure columns</a></li>
<li>Sequencing indexes: <a href="https://www.diagenode.com/en/p/24-si-for-tagmented-libraries">single indexes</a> and <a href="https://www.diagenode.com/en/p/24-unique-dual-indexes-for-tagmented-libraries-set1">UDI</a></li>
</ul>',
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<div class="small-12 medium-12 large-12 columns">A.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K4me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-a.png" width="800" height="374" /></center><br /> B.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K9me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-b.png" width="800" height="374" /></center><br /> C.<br /><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-c.png" width="800" height="374" /></center></div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">
<p><strong>Figure 1.</strong> Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (A), <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">H3K9me3</a> (B) and <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (C) data obtained using Diagenode pA-Tn5 fusion protein (C01070001) and CUT&amp;Tag protocol (Kaya-Okur, H.S., Nat Commun 10, 1930 (2019)) at selected loci. CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), H3K27me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>) and H3K9me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">C15410193</a>).</p>
</div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-a.png" /></center></div>
<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K4me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-b.png" /></center></div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">
<p><strong>Figure 2.</strong> CUT&amp;Tag profiles show typical enrichments specific for a given histone mark. Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (red) and <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (green) are shown at selected loci. H3K27me3, which marks inactive regions (red), does not show enrichment over open chromatin regions, marked by H3K4me3 (green). CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), and H3K27me3 polyclonal ChIP-seq grade (Cat. No.<a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>).</p>
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<div class="small-12 medium-8 large-8 columns"><br />
<p><strong>CUT&amp;Tag</strong>-sequencing (<strong>C</strong>leavage <strong>U</strong>nder <strong>T</strong>argets and <strong>Tag</strong>mentation) is a new alternative method to ChIP-seq combining antibody-targeted controlled cleavage by a protein A-Tn5 fusion with massively parallel DNA sequencing to identify the binding sites of DNA-associated proteins. At Diagenode we offer a complete solution for CUT&amp;Tag &ndash; our iDeal CUT&amp;Tag for Histones (developped for histone marks and some non-histone proteins), but also stand-alone fusion protein &ndash; pA-Tn5 Transposase. Moreover, we have validated our <a href="https://www.diagenode.com/en/categories/chip-seq-grade-antibodies">ChIP-seq grade antibodies</a> in <a href="https://www.diagenode.com/en/categories/cut-and-tag-antibodies">CUT&amp;Tag</a> proving their high performance in this assay.</p>
<br /> <a href="https://www.diagenode.com/files/application_notes/AN-iDealCUTandTag.pdf"><img src="https://www.diagenode.com/img/banners/cutandtag-appnote.png" /></a><br /><br /></div>
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<li class="accordion-navigation"><a href="#v5" style="color: #13b29c;"><i class="fa fa-caret-right"></i> How does it work?</a>
<div id="v5" class="content">
<p>The iDeal CUT&amp;Tag protocol involves the binding of cells on a solid phase ConA magnetic beads, allowing magnetic handling of the cells for the major steps of the protocol. Bead-bound cells are permeabilized, incubated with primary antibody against a target of interest and secondary antibody. Then, Diagenode&rsquo;s protein pA-Tn5 Transposase - loaded is bound to the complex. Protein A guides Tn5 transposase on chromatin to the antibody attached to its target. Tn5 transposase is activated by Mg+2 ions to insert the sequencing adaptors into genomic regions of interest. DNA is then purified and the tagmented genomic regions of interest are amplified by PCR using Diagenode&rsquo;s Primer Indexes for tagmented libraries.</p>
<img src="https://www.diagenode.com/img/product/kits/workflow-cutandtag.jpg" /></div>
<h2>Products for CUT&amp;Tag assay</h2>
<h3 class="diacol">Complete solutions</h3>
<ul class="nobullet">
<li><i class="fa fa-arrow-circle-right"></i> <a href="https://www.diagenode.com/en/p/ideal-cut-and-tag-kit-for-histones-24" target="_blank">iDeal CUT&amp;Tag kit for Histones</a></li>
<li><i class="fa fa-arrow-circle-right"></i> <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antirabbit-24" target="_blank">Antibody package for CUT&amp;Tag (anti-rabbit)</a></li>
<li><i class="fa fa-arrow-circle-right"></i> <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antimouse-24" target="_blank">Antibody package for CUT&amp;Tag (anti-mouse)</a></li>
</ul>
<h3 class="diacol">Fusion protein</h3>
<ul class="nobullet">
<li><i class="fa fa-arrow-circle-right"></i> <a href="https://www.diagenode.com/en/products/view/3064" target="_blank">pA/Tn5 Transposase (loaded)</a></li>
<li><i class="fa fa-arrow-circle-right"></i> <a href="https://www.diagenode.com/en/products/view/3065" target="_blank">pA/Tn5 Transposase (unloaded)</a></li>
</ul>
<h3 class="diacol">CUT&amp;Tag grade antibodies</h3>
<ul class="nobullet">
<li>Antibodies <a href="https://www.diagenode.com/en/applications/cut-and-tag">validated in CUT&amp;Tag</a></li>
<li>Check out our list of <a href="https://www.diagenode.com/en/categories/chip-seq-grade-antibodies" target="_blank">ChIP-seq grade antibodies</a></li>
<li>Read more about the performance of Diagenode antibodies in <a href="https://www.diagenode.com/en/pages/cut-and-tag" target="_blank">CUT&amp;Tag</a></li>
</ul>
<h3 class="diacol">Positive &amp; Negative CUT&amp;Tag control</h3>
<ul class="nobullet">
<li><i class="fa fa-arrow-circle-right"></i> <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antirabbit-24" target="_blank">Antibody package for CUT&amp;Tag (anti-rabbit)</a></li>
<li><i class="fa fa-arrow-circle-right"></i> <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antimouse-24" target="_blank">Antibody package for CUT&amp;Tag (anti-mouse)</a></li>
</ul>
<h3 class="diacol">DNA purification</h3>
<p style="padding-left: 30px;"><a href="https://www.diagenode.com/en/p/ipure-kit-v2-x24">IPure kit v2<br /></a><a href="https://www.diagenode.com/en/p/microchip-diapure-columns-50-rxns">MicroChIP DiaPure columns</a></p>
<h3 class="diacol">Sequencing indexes</h3>
<ul class="nobullet">
<li><i class="fa fa-arrow-circle-right"></i> <a href="https://www.diagenode.com/en/categories/primer-indexes-for-tagmented-libraries" target="_blank">Primer indexes for tagmented libraries</a></li>
</ul>
</li>
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			'meta_description' => 'Rapid chromatin profiling assay, optimized protocol, all reagents provided. Easy sample handling due to ConA magnetic beads. Highly specific CUT&Tag grade antibodies available. ',
			'meta_title' => 'Diagenode provides advanced solutions for high performance CUT&Tag experiments',
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			'id' => '1078',
			'name' => 'pA-TN5 transposase (loaded) datasheet',
			'description' => '<p>pA-Tn5 Transposase is a fusion protein of hyperactive Tn5 transposase and protein A developed for the CUT&amp;Tag assay. For ease of use, the fusion protein is pre-loaded with sequencing adapters suitable for single or dual indexing in single or paired-end Illumina platforms. The adaptors contain 19-mer Tn5 mosaic ends and the sequences for PCR amplification with barcoded i7/i5.</p>',
			'image_id' => null,
			'type' => 'Datasheet',
			'url' => 'files/products/cutandtag/C01070001-pa-tn5-transposase-loaded.pdf',
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	'Publication' => array(
		(int) 0 => array(
			'id' => '5045',
			'name' => 'Accelerated epigenetic aging in Huntington’s disease involves polycomb repressive complex 1',
			'authors' => 'Baptiste Brulé et al.',
			'description' => '<p><span>Loss of epigenetic information during physiological aging compromises cellular identity, leading to de-repression of developmental genes. Here, we assessed the epigenomic landscape of vulnerable neurons in two reference mouse models of Huntington neurodegenerative disease (HD), using cell-type-specific multi-omics, including temporal analysis at three disease stages via FANS-CUT&amp;Tag. We show accelerated de-repression of developmental genes in HD striatal neurons, involving histone re-acetylation and depletion of H2AK119 ubiquitination and H3K27 trimethylation marks, which are catalyzed by polycomb repressive complexes 1 and 2 (PRC1 and PRC2), respectively. We further identify a PRC1-dependent subcluster of bivalent developmental transcription factors that is re-activated in HD striatal neurons. This mechanism likely involves progressive paralog switching between PRC1-CBX genes, which promotes the upregulation of normally low-expressed PRC1-CBX2/4/8 isoforms in striatal neurons, alongside the down-regulation of predominant PRC1-CBX isoforms in these cells (e.g., CBX6/7). Collectively, our data provide evidence for PRC1-dependent accelerated epigenetic aging in HD vulnerable neurons.</span></p>',
			'date' => '2025-02-11',
			'pmid' => 'https://www.nature.com/articles/s41467-025-56722-z',
			'doi' => ' https://doi.org/10.1038/s41467-025-56722-z',
			'modified' => '2025-02-14 13:43:16',
			'created' => '2025-02-14 13:43:16',
			'ProductsPublication' => array(
				[maximum depth reached]
			)
		),
		(int) 1 => array(
			'id' => '5040',
			'name' => 'HDAC1 and HDAC2 are bidirectional enzymes that catalyze histone sorbylation to induce epigenetic alterations',
			'authors' => 'Akihiro Ito et al.',
			'description' => '<p><span>Reversible histone acylation is crucial for epigenetic gene expression regulation. Histone acylation is typically mediated by lysine acyltransferases (KATs), which use acyl-CoAs as acyl donors. Here, we revealed the novel role of the histone deacetylases HDAC1 and HDAC2 in histone acylation catalysis. Notably, we show that HDAC1 and HDAC2 directly catalyze sorbylation using sorbic acid, a common food preservative, in addition to facilitating desorbylation. This newly discovered HDAC1/2-driven histone sorbylation function is a distinctive active epigenetic mark that leads to widespread changes in the expression of genes, particularly those involved in cholesterol biosynthesis. Our findings reveal that HDAC1/2 are unique enzymes capable of catalyzing not only the removal but also formation of histone modifications in response to exogenous carboxylic acids such as sorbic acid and benzoic acid. Our results highlight the impact of carboxylic acids found in the environment, such as food additives, on gene expression changes that occur via histone lysine modification regulated by HDAC1 and HDAC2.</span></p>',
			'date' => '2025-01-30',
			'pmid' => 'https://www.researchsquare.com/article/rs-5847857/v1',
			'doi' => 'https://doi.org/10.21203/rs.3.rs-5847857/v1',
			'modified' => '2025-02-04 09:27:45',
			'created' => '2025-02-04 09:27:45',
			'ProductsPublication' => array(
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			)
		),
		(int) 2 => array(
			'id' => '4998',
			'name' => 'The molecular consequences of FOXF1 missense mutations associated with alveolar capillary dysplasia with misalignment of pulmonary veins',
			'authors' => 'G. G. Edel et al.',
			'description' => '<h3 class="c-article__sub-heading" data-test="abstract-sub-heading">Background</h3>
<p>Alveolar capillary dysplasia with misalignment of pulmonary veins (ACD/MPV) is a fatal congenital lung disorder strongly associated with genomic alterations in the Forkhead box F1 (FOXF1) gene and its regulatory region. However, little is known about how FOXF1 genomic alterations cause ACD/MPV and what molecular mechanisms are affected by these mutations. Therefore, the effect of ACD/MPV patient-specific mutations in the<span>&nbsp;</span><i>FOXF1</i><span>&nbsp;</span>gene on the molecular function of FOXF1 was studied.</p>
<h3 class="c-article__sub-heading" data-test="abstract-sub-heading">Methods</h3>
<p>Epitope-tagged FOXF1 constructs containing one of the ACD/MPV-associated mutations were expressed in mammalian cell lines to study the effect of FOXF1 mutations on protein function. EMSA binding assays and luciferase assays were performed to study the effect on target gene binding and activation. Immunoprecipitation followed by SDS‒PAGE and western blotting were used to study protein‒protein interactions. Protein phosphorylation was studied using phos-tag western blotting.</p>
<h3 class="c-article__sub-heading" data-test="abstract-sub-heading">Results</h3>
<p>An overview of the localization of ACD/MPV-associated FOXF1 mutations revealed that the G91-S101 region was frequently mutated. A three-dimensional model of the forkhead DNA-binding domain of FOXF1 showed that the G91-S101 region consists of an &alpha;-helix and is predicted to be important for DNA binding. We showed that FOXF1 missense mutations in this region differentially affect the DNA binding of the FOXF1 protein and influence the transcriptional regulation of target genes depending on the location of the mutation. Furthermore, we showed that some of these mutations can affect the FOXF1 protein at the posttranscriptional level, as shown by altered phosphorylation by MST1 and MST2 kinases.</p>
<h3 class="c-article__sub-heading" data-test="abstract-sub-heading">Conclusion</h3>
<p>Missense mutations in the coding region of the<span>&nbsp;</span><i>FOXF1</i><span>&nbsp;</span>gene alter the molecular function of the FOXF1 protein at multiple levels, such as phosphorylation, DNA binding and target gene activation. These results indicate that FOXF1 molecular pathways may be differentially affected in ACD/MPV patients carrying missense mutations in the DNA-binding domain and may explain the phenotypic heterogeneity of ACD/MPV.</p>',
			'date' => '2024-11-04',
			'pmid' => 'https://link.springer.com/article/10.1186/s12929-024-01088-5',
			'doi' => 'https://doi.org/10.1186/s12929-024-01088-5',
			'modified' => '2024-11-07 11:27:34',
			'created' => '2024-11-07 11:27:34',
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		),
		(int) 3 => array(
			'id' => '4972',
			'name' => 'Two-factor authentication underpins the precision of the piRNA pathway',
			'authors' => 'Dias Mirandela M. et al.',
			'description' => '<p><span>The PIWI-interacting RNA (piRNA) pathway guides the DNA methylation of young, active transposons during germline development in male mice</span><span>. piRNAs tether the PIWI protein MIWI2 (PIWIL4) to the nascent transposon transcript, resulting in DNA methylation through SPOCD1</span><span>. Transposon methylation requires great precision: every copy needs to be methylated but off-target methylation must be avoided. However, the underlying mechanisms that ensure this precision remain unknown. Here, we show that SPOCD1 interacts directly with SPIN1 (SPINDLIN1), a chromatin reader that primarily binds to H3K4me3-K9me3</span><span>. The prevailing assumption is that all the molecular events required for piRNA-directed DNA methylation occur after the engagement of MIWI2. We find that SPIN1 expression precedes that of both SPOCD1 and MIWI2. Furthermore, we demonstrate that young LINE1 copies, but not old ones, are marked by H3K4me3, H3K9me3 and SPIN1 before the initiation of piRNA-directed DNA methylation. We generated a<span>&nbsp;</span></span><i>Spocd1</i><span><span>&nbsp;</span>separation-of-function allele in the mouse that encodes a SPOCD1 variant that no longer interacts with SPIN1. We found that the interaction between SPOCD1 and SPIN1 is essential for spermatogenesis and piRNA-directed DNA methylation of young LINE1 elements. We propose that piRNA-directed LINE1 DNA methylation requires a developmentally timed two-factor authentication process. The first authentication is the recruitment of SPIN1&ndash;SPOCD1 to the young LINE1 promoter, and the second is MIWI2 engagement with the nascent transcript. In summary, independent authentication events underpin the precision of piRNA-directed LINE1 DNA methylation.</span></p>',
			'date' => '2024-09-18',
			'pmid' => 'https://www.nature.com/articles/s41586-024-07963-3',
			'doi' => 'https://doi.org/10.1038/s41586-024-07963-3',
			'modified' => '2024-09-23 10:02:22',
			'created' => '2024-09-23 10:01:31',
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		(int) 4 => array(
			'id' => '4827',
			'name' => 'Transcription factor EGR2 controls homing and pathogenicity of T17cells in the central nervous system.',
			'authors' => 'Gao  Y. et al.',
			'description' => '<p>CD4 T helper 17 (T17) cells protect barrier tissues but also trigger autoimmunity. The mechanisms behind these opposing processes remain unclear. Here, we found that the transcription factor EGR2 controlled the transcriptional program of pathogenic T17 cells in the central nervous system (CNS) but not that of protective T17 cells at barrier sites. EGR2 was significantly elevated in myelin-reactive CD4 T cells from patients with multiple sclerosis and mice with autoimmune neuroinflammation. The EGR2 transcriptional program was intricately woven within the T17 cell transcriptional regulatory network and showed high interconnectivity with core T17 cell-specific transcription factors. Mechanistically, EGR2 enhanced T17 cell differentiation and myeloid cell recruitment to the CNS by upregulating pathogenesis-associated genes and myelomonocytic chemokines. T cell-specific deletion of Egr2 attenuated neuroinflammation without compromising the host's ability to control infections. Our study shows that EGR2 regulates tissue-specific and disease-specific functions in pathogenic T17 cells in the CNS.</p>',
			'date' => '2023-08-01',
			'pmid' => 'https://www.ncbi.nlm.nih.gov/pubmed/37443284',
			'doi' => '10.1038/s41590-023-01553-7',
			'modified' => '2023-08-01 13:35:13',
			'created' => '2023-08-01 15:59:38',
			'ProductsPublication' => array(
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			)
		),
		(int) 5 => array(
			'id' => '4671',
			'name' => 'The Hdc GC box is critical for Hdc gene transcription andhistamine-mediated anaphylaxis.',
			'authors' => 'Li  Y. et al.',
			'description' => '<p>BACKGROUND: Histamine is a critical mediator of anaphylaxis, a neurotransmitter, and a regulator of gastric acid secretion. Histidine decarboxylase is a rate-limiting enzyme for histamine synthesis. However, in vivo regulation of Hdc, the gene that encodes histidine decarboxylase is poorly understood. OBJECTIVE: We sought to investigate how enhancers regulate Hdc gene transcription and histamine synthesis in resting conditions and in a mouse model of anaphylaxis. METHODS: H3K27 acetylation histone modification and chromatin accessibility were used to identify candidate enhancers; The enhancer activity of candidate enhancers was measured in a reporter gene assay; and the function enhancers were validated using CRISPR deletion. RESULTS: Deletion of the GC box, which binds to zinc finger transcription factors, in the proximal Hdc enhancer, reduced Hdc gene transcription and histamine synthesis in the mouse and human mast cell lines. Mast cells, basophils, brain cells, and stomach cells from GC box-deficient mice transcribed the Hdc gene much less than similar cells from wild-type mice and Hdc GC box-deficient mice failed to develop anaphylaxis. CONCLUSION: Our results demonstrate that the HDC GC box within the proximal enhancer in the mouse and human HDC gene is essential for Hdc gene transcription, histamine synthesis, and histamine-mediated anaphylaxis in vitro and in vivo.</p>',
			'date' => '2023-02-01',
			'pmid' => 'https://doi.org/10.1016%2Fj.jaci.2023.01.031',
			'doi' => '10.1016/j.jaci.2023.01.031',
			'modified' => '2023-04-11 10:29:30',
			'created' => '2023-02-28 12:19:11',
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		(int) 6 => array(
			'id' => '4873',
			'name' => 'Retrospective analysis of enhancer activity and transcriptome history.',
			'authors' => 'Boers  R. et al.',
			'description' => '<p>Cell state changes in development and disease are controlled by gene regulatory networks, the dynamics of which are difficult to track in real time. In this study, we used an inducible DCM-RNA polymerase subunit b fusion protein which labels active genes and enhancers with a bacterial methylation mark that does not affect gene transcription and is propagated in S-phase. This DCM-RNA polymerase fusion protein enables transcribed genes and active enhancers to be tagged and then examined at later stages of development or differentiation. We apply this DCM-time machine (DCM-TM) technology to study intestinal homeostasis, revealing rapid and coordinated activation of enhancers and nearby genes during enterocyte differentiation. We provide new insights in absorptive-secretory lineage decision-making in intestinal stem cell (ISC) differentiation and show that ISCs retain a unique chromatin landscape required to maintain ISC identity and delineate future expression of differentiation-associated genes. DCM-TM has wide applicability in tracking cell states, providing new insights in the regulatory networks underlying cell state changes.</p>',
			'date' => '2023-02-01',
			'pmid' => 'https://www.ncbi.nlm.nih.gov/pubmed/36823354',
			'doi' => '10.1038/s41587-023-01683-1',
			'modified' => '2023-11-10 09:13:54',
			'created' => '2023-09-01 14:23:20',
			'ProductsPublication' => array(
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		),
		(int) 7 => array(
			'id' => '4627',
			'name' => 'Simultaneous profiling of histone modifications and DNA methylation viananopore sequencing.',
			'authors' => 'Yue  X. et al.',
			'description' => '<p>The interplay between histone modifications and DNA methylation drives the establishment and maintenance of the cellular epigenomic landscape, but it remains challenging to investigate the complex relationship between these epigenetic marks across the genome. Here we describe a nanopore-sequencing-based-method, nanoHiMe-seq, for interrogating the genome-wide localization of histone modifications and DNA methylation from single DNA molecules. nanoHiMe-seq leverages a nonspecific methyltransferase to exogenously label adenine bases proximal to antibody-targeted modified nucleosomes in situ. The labelled adenines and the endogenous methylated CpG sites are simultaneously detected on individual nanopore reads using a hidden Markov model, which is implemented in the nanoHiMe software package. We demonstrate the utility, robustness and sensitivity of nanoHiMe-seq by jointly profiling DNA methylation and histone modifications at low coverage depths, concurrently determining phased patterns of DNA methylation and histone modifications, and probing the intrinsic connectivity between these epigenetic marks across the genome.</p>',
			'date' => '2022-12-01',
			'pmid' => 'https://www.ncbi.nlm.nih.gov/pubmed/36566265',
			'doi' => '10.1038/s41467-022-35650-2',
			'modified' => '2023-03-28 08:59:26',
			'created' => '2023-02-21 09:59:46',
			'ProductsPublication' => array(
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			)
		),
		(int) 8 => array(
			'id' => '4550',
			'name' => 'A SOX2-engineered epigenetic silencer factor represses the glioblastomagenetic program and restrains tumor development.',
			'authors' => 'Benedetti  V. et al.',
			'description' => '<p>Current therapies remain unsatisfactory in preventing the recurrence of glioblastoma multiforme (GBM), which leads to poor patient survival. By rational engineering of the transcription factor SOX2, a key promoter of GBM malignancy, together with the Kruppel-associated box and DNA methyltransferase3A/L catalytic domains, we generated a synthetic repressor named SOX2 epigenetic silencer (SES), which induces the transcriptional silencing of its original targets. By doing so, SES kills both glioma cell lines and patient-derived cancer stem cells in vitro and in vivo. SES expression, through local viral delivery in mouse xenografts, induces strong regression of human tumors and survival rescue. Conversely, SES is not harmful to neurons and glia, also thanks to a minimal promoter that restricts its expression in mitotically active cells, rarely present in the brain parenchyma. Collectively, SES produces a significant silencing of a large fraction of the SOX2 transcriptional network, achieving high levels of efficacy in repressing aggressive brain tumors.</p>',
			'date' => '2022-08-01',
			'pmid' => 'https://pubmed.ncbi.nlm.nih.gov/35921410/',
			'doi' => '10.1126/sciadv.abn3986',
			'modified' => '2023-09-28 11:26:02',
			'created' => '2022-11-24 08:49:52',
			'ProductsPublication' => array(
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			)
		),
		(int) 9 => array(
			'id' => '4836',
			'name' => 'Caffeine intake exerts dual genome-wide effects on hippocampal metabolismand learning-dependent transcription.',
			'authors' => 'Paiva  I. et al.',
			'description' => '<p>Caffeine is the most widely consumed psychoactive substance in the world. Strikingly, the molecular pathways engaged by its regular consumption remain unclear. We herein addressed the mechanisms associated with habitual (chronic) caffeine consumption in the mouse hippocampus using untargeted orthogonal omics techniques. Our results revealed that chronic caffeine exerts concerted pleiotropic effects in the hippocampus at the epigenomic, proteomic, and metabolomic levels. Caffeine lowered metabolism-related processes (e.g., at the level of metabolomics and gene expression) in bulk tissue, while it induced neuron-specific epigenetic changes at synaptic transmission/plasticity-related genes and increased experience-driven transcriptional activity. Altogether, these findings suggest that regular caffeine intake improves the signal-to-noise ratio during information encoding, in part through fine-tuning of metabolic genes, while boosting the salience of information processing during learning in neuronal circuits.</p>',
			'date' => '2022-06-01',
			'pmid' => 'https://www.ncbi.nlm.nih.gov/pubmed/35536645',
			'doi' => '10.1172/JCI149371',
			'modified' => '2023-08-01 13:52:29',
			'created' => '2023-08-01 15:59:38',
			'ProductsPublication' => array(
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		),
		(int) 10 => array(
			'id' => '4263',
			'name' => 'ATRX regulates glial identity and the tumor microenvironment inIDH-mutant glioma',
			'authors' => 'Babikir, Husam and Wang, Lin and Shamardani, Karin andCatalan, Francisca and Sudhir, Sweta and Aghi, Manish K. andRaleigh, David R. and Phillips, Joanna J. and Diaz, AaronA.',
			'description' => '<p>Background Recent single-cell transcriptomic studies report that IDH-mutant gliomas share a common hierarchy of cellular phenotypes, independent of genetic subtype. However, the genetic differences between IDH-mutant glioma subtypes are prognostic, predictive of response to chemotherapy, and correlate with distinct tumor microenvironments. Results To reconcile these findings, we profile 22 human IDH-mutant gliomas using scATAC-seq and scRNA-seq. We determine the cell-type-specific differences in transcription factor expression and associated regulatory grammars between IDH-mutant glioma subtypes. We find that while IDH-mutant gliomas do share a common distribution of cell types, there are significant differences in the expression and targeting of transcription factors that regulate glial identity and cytokine elaboration. We knock out the chromatin remodeler ATRX, which suffers loss-of-function alterations in most IDH-mutant astrocytomas, in an IDH-mutant immunocompetent intracranial murine model. We find that both human ATRX-mutant gliomas and murine ATRX-knockout gliomas are more heavily infiltrated by immunosuppressive monocytic-lineage cells derived from circulation than ATRX-intact gliomas, in an IDH-mutant background. ATRX knockout in murine glioma recapitulates gene expression and open chromatin signatures that are specific to human ATRX-mutant astrocytomas, including drivers of astrocytic lineage and immune-cell chemotaxis. Through single-cell cleavage under targets and tagmentation assays and meta-analysis of public data, we show that ATRX loss leads to a global depletion in CCCTC-binding factor association with DNA, gene dysregulation along associated chromatin loops, and protection from therapy-induced senescence. Conclusions These studies explain how IDH-mutant gliomas from different subtypes maintain distinct phenotypes and tumor microenvironments despite a common lineage hierarchy. Supplementary Information The online version contains supplementary material available at 10.1186/s13059-021-02535-4.</p>',
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			'description' => '<p>The molecular mechanisms governing orderly shutdown and retraction of CD4+ T helper (Th)1 responses remain poorly understood. Here, we show that complement triggers contraction of Th1 responses by inducing intrinsic expression of the vitamin D (VitD) receptor (VDR) and the VitD-activating enzyme CYP27B1, permitting T cells to both activate and respond to VitD. VitD then initiated transition from pro-inflammatory IFN-&gamma; + Th1 cells to suppressive IL-10+ cells. This process was primed by dynamic changes in the epigenetic landscape of CD4+ T cells, generating super-enhancers and recruiting several transcription factors, notably c-JUN, STAT3 and BACH2, which together with VDR shaped the transcriptional response to VitD. Accordingly, VitD did not induce IL-10 in cells with dysfunctional BACH2 or STAT3. Bronchoalveolar lavage fluid CD4+ T cells of COVID-19 patients were Th1-skewed and showed de-repression of genes down-regulated by VitD, either from lack of substrate (VitD deficiency) and/or abnormal regulation of this system.</p>',
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<p><strong>pA-Tn5 transposase</strong> is a fusion protein of hyperactive Tn5 transposase and protein A developed for the <strong>CUT&amp;Tag assay</strong>. For convenience, the fusion protein is pre-loaded with sequencing adapters. Diagenode pA-Tn5 transposase is compatible with CUT&amp;Tag and other antibody-tethered Tn5 based methods, like ACT-seq and CoBATCH.</p>
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<p><strong>pA-Tn5 Transposase</strong></p>
<ul style="list-style-type: circle;">
<li>High enrichment and specificity of the signal around the TSS</li>
<li>No contamination<span style="font-weight: 400;"> with </span><i><span style="font-weight: 400;">E. coli</span></i><span style="font-weight: 400;"> DNA</span></li>
<li><span style="font-weight: 400;">Flexible versions: loaded or <a href="https://www.diagenode.com/en/p/pa-tn5-transposase-unloaded">unloaded</a><br /></span></li>
<li><span style="font-weight: 400;">Excellent for CUT&amp;Tag </span></li>
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<p>As it is crucial to target only the protein of interest, a highly specific antibody is critical for the success of the CUT&amp;Tag assay. All Diagenode ChIP-seq grade antibodies are validated for specificity using strict validation criteria to assure <a href="https://www.diagenode.com/en/pages/cut-and-tag" target="_blank">high performance in CUT&amp;Tag</a>.</p>
<p class="lead"><strong>Check out all products recommended for CUT&amp;Tag assay</strong>:</p>
<ul class="nobullet" style="list-style-type: circle;">
<li><a href="https://www.diagenode.com/en/p/ideal-cut-and-tag-kit-for-histones-24">iDeal CUT&amp;Tag kit for Histones</a>&nbsp;- compatible with histome marks and some transcription factors</li>
<li>pA/Tn5 Transposase (loaded or <a href="https://www.diagenode.com/en/products/view/3065" target="_blank">unloaded</a>)</li>
<li><a href="https://www.diagenode.com/en/applications/cut-and-tag">CUT&amp;Tag grade</a> and <a href="https://www.diagenode.com/en/categories/chip-seq-grade-antibodies">ChIP-seq grade</a> antibodies</li>
<li>Negative &amp; positive CUT&amp;Tag controls:&nbsp;<span>Antibody Package for CUT&amp;Tag: <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antirabbit-24">anti-rabbit</a> and <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antimouse-24">anti-mouse</a></span></li>
<li>DNA purification: <a href="https://www.diagenode.com/en/p/ipure-kit-v2-x24">IPure kit v2</a> or <a href="https://www.diagenode.com/en/p/microchip-diapure-columns-50-rxns">MicroChIP DiaPure columns</a></li>
<li>Sequencing indexes: <a href="https://www.diagenode.com/en/p/24-si-for-tagmented-libraries">single indexes</a> and <a href="https://www.diagenode.com/en/p/24-unique-dual-indexes-for-tagmented-libraries-set1">UDI</a></li>
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<div class="small-12 medium-12 large-12 columns">A.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K4me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-a.png" width="800" height="374" /></center><br /> B.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K9me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-b.png" width="800" height="374" /></center><br /> C.<br /><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-c.png" width="800" height="374" /></center></div>
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<p><strong>Figure 1.</strong> Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (A), <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">H3K9me3</a> (B) and <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (C) data obtained using Diagenode pA-Tn5 fusion protein (C01070001) and CUT&amp;Tag protocol (Kaya-Okur, H.S., Nat Commun 10, 1930 (2019)) at selected loci. CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), H3K27me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>) and H3K9me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">C15410193</a>).</p>
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<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-a.png" /></center></div>
<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K4me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-b.png" /></center></div>
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<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">
<p><strong>Figure 2.</strong> CUT&amp;Tag profiles show typical enrichments specific for a given histone mark. Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (red) and <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (green) are shown at selected loci. H3K27me3, which marks inactive regions (red), does not show enrichment over open chromatin regions, marked by H3K4me3 (green). CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), and H3K27me3 polyclonal ChIP-seq grade (Cat. No.<a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>).</p>
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<p><strong>pA-Tn5 transposase</strong> is a fusion protein of hyperactive Tn5 transposase and protein A developed for the <strong>CUT&amp;Tag assay</strong>. For convenience, the fusion protein is pre-loaded with sequencing adapters. Diagenode pA-Tn5 transposase is compatible with CUT&amp;Tag and other antibody-tethered Tn5 based methods, like ACT-seq and CoBATCH.</p>
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<p><strong>pA-Tn5 Transposase</strong></p>
<ul style="list-style-type: circle;">
<li>High enrichment and specificity of the signal around the TSS</li>
<li>No contamination<span style="font-weight: 400;"> with </span><i><span style="font-weight: 400;">E. coli</span></i><span style="font-weight: 400;"> DNA</span></li>
<li><span style="font-weight: 400;">Flexible versions: loaded or <a href="https://www.diagenode.com/en/p/pa-tn5-transposase-unloaded">unloaded</a><br /></span></li>
<li><span style="font-weight: 400;">Excellent for CUT&amp;Tag </span></li>
</ul>
<p>As it is crucial to target only the protein of interest, a highly specific antibody is critical for the success of the CUT&amp;Tag assay. All Diagenode ChIP-seq grade antibodies are validated for specificity using strict validation criteria to assure <a href="https://www.diagenode.com/en/pages/cut-and-tag" target="_blank">high performance in CUT&amp;Tag</a>.</p>
<p class="lead"><strong>Check out all products recommended for CUT&amp;Tag assay</strong>:</p>
<ul class="nobullet" style="list-style-type: circle;">
<li><a href="https://www.diagenode.com/en/p/ideal-cut-and-tag-kit-for-histones-24">iDeal CUT&amp;Tag kit for Histones</a>&nbsp;- compatible with histome marks and some transcription factors</li>
<li>pA/Tn5 Transposase (loaded or <a href="https://www.diagenode.com/en/products/view/3065" target="_blank">unloaded</a>)</li>
<li><a href="https://www.diagenode.com/en/applications/cut-and-tag">CUT&amp;Tag grade</a> and <a href="https://www.diagenode.com/en/categories/chip-seq-grade-antibodies">ChIP-seq grade</a> antibodies</li>
<li>Negative &amp; positive CUT&amp;Tag controls:&nbsp;<span>Antibody Package for CUT&amp;Tag: <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antirabbit-24">anti-rabbit</a> and <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antimouse-24">anti-mouse</a></span></li>
<li>DNA purification: <a href="https://www.diagenode.com/en/p/ipure-kit-v2-x24">IPure kit v2</a> or <a href="https://www.diagenode.com/en/p/microchip-diapure-columns-50-rxns">MicroChIP DiaPure columns</a></li>
<li>Sequencing indexes: <a href="https://www.diagenode.com/en/p/24-si-for-tagmented-libraries">single indexes</a> and <a href="https://www.diagenode.com/en/p/24-unique-dual-indexes-for-tagmented-libraries-set1">UDI</a></li>
</ul>',
		'label1' => 'Validation Data',
		'info1' => '<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">A.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K4me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-a.png" width="800" height="374" /></center><br /> B.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K9me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-b.png" width="800" height="374" /></center><br /> C.<br /><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-c.png" width="800" height="374" /></center></div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">
<p><strong>Figure 1.</strong> Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (A), <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">H3K9me3</a> (B) and <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (C) data obtained using Diagenode pA-Tn5 fusion protein (C01070001) and CUT&amp;Tag protocol (Kaya-Okur, H.S., Nat Commun 10, 1930 (2019)) at selected loci. CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), H3K27me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>) and H3K9me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">C15410193</a>).</p>
</div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-a.png" /></center></div>
<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K4me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-b.png" /></center></div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">
<p><strong>Figure 2.</strong> CUT&amp;Tag profiles show typical enrichments specific for a given histone mark. Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (red) and <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (green) are shown at selected loci. H3K27me3, which marks inactive regions (red), does not show enrichment over open chromatin regions, marked by H3K4me3 (green). CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), and H3K27me3 polyclonal ChIP-seq grade (Cat. No.<a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>).</p>
</div>
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	'name' => 'pA-Tn5 Transposase - loaded',
	'description' => '<div class="row">
<div class="small-12 medium-8 large-8 columns"><br />
<p><strong>pA-Tn5 transposase</strong> is a fusion protein of hyperactive Tn5 transposase and protein A developed for the <strong>CUT&amp;Tag assay</strong>. For convenience, the fusion protein is pre-loaded with sequencing adapters. Diagenode pA-Tn5 transposase is compatible with CUT&amp;Tag and other antibody-tethered Tn5 based methods, like ACT-seq and CoBATCH.</p>
</div>
<div class="small-12 medium-4 large-4 columns"><center>
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<p><strong>pA-Tn5 Transposase</strong></p>
<ul style="list-style-type: circle;">
<li>High enrichment and specificity of the signal around the TSS</li>
<li>No contamination<span style="font-weight: 400;"> with </span><i><span style="font-weight: 400;">E. coli</span></i><span style="font-weight: 400;"> DNA</span></li>
<li><span style="font-weight: 400;">Flexible versions: loaded or <a href="https://www.diagenode.com/en/p/pa-tn5-transposase-unloaded">unloaded</a><br /></span></li>
<li><span style="font-weight: 400;">Excellent for CUT&amp;Tag </span></li>
</ul>
<p>As it is crucial to target only the protein of interest, a highly specific antibody is critical for the success of the CUT&amp;Tag assay. All Diagenode ChIP-seq grade antibodies are validated for specificity using strict validation criteria to assure <a href="https://www.diagenode.com/en/pages/cut-and-tag" target="_blank">high performance in CUT&amp;Tag</a>.</p>
<p class="lead"><strong>Check out all products recommended for CUT&amp;Tag assay</strong>:</p>
<ul class="nobullet" style="list-style-type: circle;">
<li><a href="https://www.diagenode.com/en/p/ideal-cut-and-tag-kit-for-histones-24">iDeal CUT&amp;Tag kit for Histones</a>&nbsp;- compatible with histome marks and some transcription factors</li>
<li>pA/Tn5 Transposase (loaded or <a href="https://www.diagenode.com/en/products/view/3065" target="_blank">unloaded</a>)</li>
<li><a href="https://www.diagenode.com/en/applications/cut-and-tag">CUT&amp;Tag grade</a> and <a href="https://www.diagenode.com/en/categories/chip-seq-grade-antibodies">ChIP-seq grade</a> antibodies</li>
<li>Negative &amp; positive CUT&amp;Tag controls:&nbsp;<span>Antibody Package for CUT&amp;Tag: <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antirabbit-24">anti-rabbit</a> and <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antimouse-24">anti-mouse</a></span></li>
<li>DNA purification: <a href="https://www.diagenode.com/en/p/ipure-kit-v2-x24">IPure kit v2</a> or <a href="https://www.diagenode.com/en/p/microchip-diapure-columns-50-rxns">MicroChIP DiaPure columns</a></li>
<li>Sequencing indexes: <a href="https://www.diagenode.com/en/p/24-si-for-tagmented-libraries">single indexes</a> and <a href="https://www.diagenode.com/en/p/24-unique-dual-indexes-for-tagmented-libraries-set1">UDI</a></li>
</ul>',
	'label1' => 'Validation Data',
	'info1' => '<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">A.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K4me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-a.png" width="800" height="374" /></center><br /> B.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K9me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-b.png" width="800" height="374" /></center><br /> C.<br /><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-c.png" width="800" height="374" /></center></div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">
<p><strong>Figure 1.</strong> Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (A), <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">H3K9me3</a> (B) and <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (C) data obtained using Diagenode pA-Tn5 fusion protein (C01070001) and CUT&amp;Tag protocol (Kaya-Okur, H.S., Nat Commun 10, 1930 (2019)) at selected loci. CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), H3K27me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>) and H3K9me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">C15410193</a>).</p>
</div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-a.png" /></center></div>
<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K4me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-b.png" /></center></div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">
<p><strong>Figure 2.</strong> CUT&amp;Tag profiles show typical enrichments specific for a given histone mark. Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (red) and <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (green) are shown at selected loci. H3K27me3, which marks inactive regions (red), does not show enrichment over open chromatin regions, marked by H3K4me3 (green). CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), and H3K27me3 polyclonal ChIP-seq grade (Cat. No.<a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>).</p>
</div>
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	'description' => '<p>We are really happy to use the loaded pA-Tn5 for CUT&amp;Tag. Easy to use and reproductible for samples with a starting low number of cells. Besides, Diagenode has a great customer service and technical support which are really responsive.</p>',
	'author' => 'Cathy NGUYEN, CNRGH, Evry-Courcouronnes, France.',
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	'description' => '<div class="row">
<div class="small-12 medium-8 large-8 columns"><br />
<p><strong>pA-Tn5 transposase</strong> is a fusion protein of hyperactive Tn5 transposase and protein A developed for the <strong>CUT&amp;Tag assay</strong>. For convenience, the fusion protein is pre-loaded with sequencing adapters. Diagenode pA-Tn5 transposase is compatible with CUT&amp;Tag and other antibody-tethered Tn5 based methods, like ACT-seq and CoBATCH.</p>
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<script>// <![CDATA[
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<p><strong>pA-Tn5 Transposase</strong></p>
<ul style="list-style-type: circle;">
<li>High enrichment and specificity of the signal around the TSS</li>
<li>No contamination<span style="font-weight: 400;"> with </span><i><span style="font-weight: 400;">E. coli</span></i><span style="font-weight: 400;"> DNA</span></li>
<li><span style="font-weight: 400;">Flexible versions: loaded or <a href="https://www.diagenode.com/en/p/pa-tn5-transposase-unloaded">unloaded</a><br /></span></li>
<li><span style="font-weight: 400;">Excellent for CUT&amp;Tag </span></li>
</ul>
<p>As it is crucial to target only the protein of interest, a highly specific antibody is critical for the success of the CUT&amp;Tag assay. All Diagenode ChIP-seq grade antibodies are validated for specificity using strict validation criteria to assure <a href="https://www.diagenode.com/en/pages/cut-and-tag" target="_blank">high performance in CUT&amp;Tag</a>.</p>
<p class="lead"><strong>Check out all products recommended for CUT&amp;Tag assay</strong>:</p>
<ul class="nobullet" style="list-style-type: circle;">
<li><a href="https://www.diagenode.com/en/p/ideal-cut-and-tag-kit-for-histones-24">iDeal CUT&amp;Tag kit for Histones</a>&nbsp;- compatible with histome marks and some transcription factors</li>
<li>pA/Tn5 Transposase (loaded or <a href="https://www.diagenode.com/en/products/view/3065" target="_blank">unloaded</a>)</li>
<li><a href="https://www.diagenode.com/en/applications/cut-and-tag">CUT&amp;Tag grade</a> and <a href="https://www.diagenode.com/en/categories/chip-seq-grade-antibodies">ChIP-seq grade</a> antibodies</li>
<li>Negative &amp; positive CUT&amp;Tag controls:&nbsp;<span>Antibody Package for CUT&amp;Tag: <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antirabbit-24">anti-rabbit</a> and <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antimouse-24">anti-mouse</a></span></li>
<li>DNA purification: <a href="https://www.diagenode.com/en/p/ipure-kit-v2-x24">IPure kit v2</a> or <a href="https://www.diagenode.com/en/p/microchip-diapure-columns-50-rxns">MicroChIP DiaPure columns</a></li>
<li>Sequencing indexes: <a href="https://www.diagenode.com/en/p/24-si-for-tagmented-libraries">single indexes</a> and <a href="https://www.diagenode.com/en/p/24-unique-dual-indexes-for-tagmented-libraries-set1">UDI</a></li>
</ul>',
	'label1' => 'Validation Data',
	'info1' => '<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">A.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K4me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-a.png" width="800" height="374" /></center><br /> B.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K9me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-b.png" width="800" height="374" /></center><br /> C.<br /><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-c.png" width="800" height="374" /></center></div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">
<p><strong>Figure 1.</strong> Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (A), <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">H3K9me3</a> (B) and <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (C) data obtained using Diagenode pA-Tn5 fusion protein (C01070001) and CUT&amp;Tag protocol (Kaya-Okur, H.S., Nat Commun 10, 1930 (2019)) at selected loci. CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), H3K27me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>) and H3K9me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">C15410193</a>).</p>
</div>
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<p><strong>pA-Tn5 transposase</strong> is a fusion protein of hyperactive Tn5 transposase and protein A developed for the <strong>CUT&amp;Tag assay</strong>. For convenience, the fusion protein is pre-loaded with sequencing adapters. Diagenode pA-Tn5 transposase is compatible with CUT&amp;Tag and other antibody-tethered Tn5 based methods, like ACT-seq and CoBATCH.</p>
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<p><strong>pA-Tn5 Transposase</strong></p>
<ul style="list-style-type: circle;">
<li>High enrichment and specificity of the signal around the TSS</li>
<li>No contamination<span style="font-weight: 400;"> with </span><i><span style="font-weight: 400;">E. coli</span></i><span style="font-weight: 400;"> DNA</span></li>
<li><span style="font-weight: 400;">Flexible versions: loaded or <a href="https://www.diagenode.com/en/p/pa-tn5-transposase-unloaded">unloaded</a><br /></span></li>
<li><span style="font-weight: 400;">Excellent for CUT&amp;Tag </span></li>
</ul>
<p>As it is crucial to target only the protein of interest, a highly specific antibody is critical for the success of the CUT&amp;Tag assay. All Diagenode ChIP-seq grade antibodies are validated for specificity using strict validation criteria to assure <a href="https://www.diagenode.com/en/pages/cut-and-tag" target="_blank">high performance in CUT&amp;Tag</a>.</p>
<p class="lead"><strong>Check out all products recommended for CUT&amp;Tag assay</strong>:</p>
<ul class="nobullet" style="list-style-type: circle;">
<li><a href="https://www.diagenode.com/en/p/ideal-cut-and-tag-kit-for-histones-24">iDeal CUT&amp;Tag kit for Histones</a>&nbsp;- compatible with histome marks and some transcription factors</li>
<li>pA/Tn5 Transposase (loaded or <a href="https://www.diagenode.com/en/products/view/3065" target="_blank">unloaded</a>)</li>
<li><a href="https://www.diagenode.com/en/applications/cut-and-tag">CUT&amp;Tag grade</a> and <a href="https://www.diagenode.com/en/categories/chip-seq-grade-antibodies">ChIP-seq grade</a> antibodies</li>
<li>Negative &amp; positive CUT&amp;Tag controls:&nbsp;<span>Antibody Package for CUT&amp;Tag: <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antirabbit-24">anti-rabbit</a> and <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antimouse-24">anti-mouse</a></span></li>
<li>DNA purification: <a href="https://www.diagenode.com/en/p/ipure-kit-v2-x24">IPure kit v2</a> or <a href="https://www.diagenode.com/en/p/microchip-diapure-columns-50-rxns">MicroChIP DiaPure columns</a></li>
<li>Sequencing indexes: <a href="https://www.diagenode.com/en/p/24-si-for-tagmented-libraries">single indexes</a> and <a href="https://www.diagenode.com/en/p/24-unique-dual-indexes-for-tagmented-libraries-set1">UDI</a></li>
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<div class="small-12 medium-12 large-12 columns">A.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K4me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-a.png" width="800" height="374" /></center><br /> B.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K9me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-b.png" width="800" height="374" /></center><br /> C.<br /><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-c.png" width="800" height="374" /></center></div>
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<p><strong>Figure 1.</strong> Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (A), <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">H3K9me3</a> (B) and <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (C) data obtained using Diagenode pA-Tn5 fusion protein (C01070001) and CUT&amp;Tag protocol (Kaya-Okur, H.S., Nat Commun 10, 1930 (2019)) at selected loci. CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), H3K27me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>) and H3K9me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">C15410193</a>).</p>
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<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K4me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-b.png" /></center></div>
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<p><strong>Figure 2.</strong> CUT&amp;Tag profiles show typical enrichments specific for a given histone mark. Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (red) and <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (green) are shown at selected loci. H3K27me3, which marks inactive regions (red), does not show enrichment over open chromatin regions, marked by H3K4me3 (green). CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), and H3K27me3 polyclonal ChIP-seq grade (Cat. No.<a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>).</p>
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			'description' => '<div class="row">
<div class="small-12 medium-8 large-8 columns"><br />
<p><strong>pA-Tn5 transposase</strong> is a fusion protein of hyperactive Tn5 transposase and protein A developed for the <strong>CUT&amp;Tag assay</strong>. For convenience, the fusion protein is pre-loaded with sequencing adapters. Diagenode pA-Tn5 transposase is compatible with CUT&amp;Tag and other antibody-tethered Tn5 based methods, like ACT-seq and CoBATCH.</p>
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<p><strong>pA-Tn5 Transposase</strong></p>
<ul style="list-style-type: circle;">
<li>High enrichment and specificity of the signal around the TSS</li>
<li>No contamination<span style="font-weight: 400;"> with </span><i><span style="font-weight: 400;">E. coli</span></i><span style="font-weight: 400;"> DNA</span></li>
<li><span style="font-weight: 400;">Flexible versions: loaded or <a href="https://www.diagenode.com/en/p/pa-tn5-transposase-unloaded">unloaded</a><br /></span></li>
<li><span style="font-weight: 400;">Excellent for CUT&amp;Tag </span></li>
</ul>
<p>As it is crucial to target only the protein of interest, a highly specific antibody is critical for the success of the CUT&amp;Tag assay. All Diagenode ChIP-seq grade antibodies are validated for specificity using strict validation criteria to assure <a href="https://www.diagenode.com/en/pages/cut-and-tag" target="_blank">high performance in CUT&amp;Tag</a>.</p>
<p class="lead"><strong>Check out all products recommended for CUT&amp;Tag assay</strong>:</p>
<ul class="nobullet" style="list-style-type: circle;">
<li><a href="https://www.diagenode.com/en/p/ideal-cut-and-tag-kit-for-histones-24">iDeal CUT&amp;Tag kit for Histones</a>&nbsp;- compatible with histome marks and some transcription factors</li>
<li>pA/Tn5 Transposase (loaded or <a href="https://www.diagenode.com/en/products/view/3065" target="_blank">unloaded</a>)</li>
<li><a href="https://www.diagenode.com/en/applications/cut-and-tag">CUT&amp;Tag grade</a> and <a href="https://www.diagenode.com/en/categories/chip-seq-grade-antibodies">ChIP-seq grade</a> antibodies</li>
<li>Negative &amp; positive CUT&amp;Tag controls:&nbsp;<span>Antibody Package for CUT&amp;Tag: <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antirabbit-24">anti-rabbit</a> and <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antimouse-24">anti-mouse</a></span></li>
<li>DNA purification: <a href="https://www.diagenode.com/en/p/ipure-kit-v2-x24">IPure kit v2</a> or <a href="https://www.diagenode.com/en/p/microchip-diapure-columns-50-rxns">MicroChIP DiaPure columns</a></li>
<li>Sequencing indexes: <a href="https://www.diagenode.com/en/p/24-si-for-tagmented-libraries">single indexes</a> and <a href="https://www.diagenode.com/en/p/24-unique-dual-indexes-for-tagmented-libraries-set1">UDI</a></li>
</ul>',
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<div class="small-12 medium-12 large-12 columns">A.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K4me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-a.png" width="800" height="374" /></center><br /> B.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K9me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-b.png" width="800" height="374" /></center><br /> C.<br /><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-c.png" width="800" height="374" /></center></div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">
<p><strong>Figure 1.</strong> Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (A), <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">H3K9me3</a> (B) and <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (C) data obtained using Diagenode pA-Tn5 fusion protein (C01070001) and CUT&amp;Tag protocol (Kaya-Okur, H.S., Nat Commun 10, 1930 (2019)) at selected loci. CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), H3K27me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>) and H3K9me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">C15410193</a>).</p>
</div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-a.png" /></center></div>
<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K4me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-b.png" /></center></div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">
<p><strong>Figure 2.</strong> CUT&amp;Tag profiles show typical enrichments specific for a given histone mark. Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (red) and <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (green) are shown at selected loci. H3K27me3, which marks inactive regions (red), does not show enrichment over open chromatin regions, marked by H3K4me3 (green). CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), and H3K27me3 polyclonal ChIP-seq grade (Cat. No.<a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>).</p>
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<div class="row">
<div class="small-12 medium-8 large-8 columns"><br />
<p><strong>CUT&amp;Tag</strong>-sequencing (<strong>C</strong>leavage <strong>U</strong>nder <strong>T</strong>argets and <strong>Tag</strong>mentation) is a new alternative method to ChIP-seq combining antibody-targeted controlled cleavage by a protein A-Tn5 fusion with massively parallel DNA sequencing to identify the binding sites of DNA-associated proteins. At Diagenode we offer a complete solution for CUT&amp;Tag &ndash; our iDeal CUT&amp;Tag for Histones (developped for histone marks and some non-histone proteins), but also stand-alone fusion protein &ndash; pA-Tn5 Transposase. Moreover, we have validated our <a href="https://www.diagenode.com/en/categories/chip-seq-grade-antibodies">ChIP-seq grade antibodies</a> in <a href="https://www.diagenode.com/en/categories/cut-and-tag-antibodies">CUT&amp;Tag</a> proving their high performance in this assay.</p>
<br /> <a href="https://www.diagenode.com/files/application_notes/AN-iDealCUTandTag.pdf"><img src="https://www.diagenode.com/img/banners/cutandtag-appnote.png" /></a><br /><br /></div>
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<ul class="accordion" data-accordion="">
<li class="accordion-navigation"><a href="#v5" style="color: #13b29c;"><i class="fa fa-caret-right"></i> How does it work?</a>
<div id="v5" class="content">
<p>The iDeal CUT&amp;Tag protocol involves the binding of cells on a solid phase ConA magnetic beads, allowing magnetic handling of the cells for the major steps of the protocol. Bead-bound cells are permeabilized, incubated with primary antibody against a target of interest and secondary antibody. Then, Diagenode&rsquo;s protein pA-Tn5 Transposase - loaded is bound to the complex. Protein A guides Tn5 transposase on chromatin to the antibody attached to its target. Tn5 transposase is activated by Mg+2 ions to insert the sequencing adaptors into genomic regions of interest. DNA is then purified and the tagmented genomic regions of interest are amplified by PCR using Diagenode&rsquo;s Primer Indexes for tagmented libraries.</p>
<img src="https://www.diagenode.com/img/product/kits/workflow-cutandtag.jpg" /></div>
<h2>Products for CUT&amp;Tag assay</h2>
<h3 class="diacol">Complete solutions</h3>
<ul class="nobullet">
<li><i class="fa fa-arrow-circle-right"></i> <a href="https://www.diagenode.com/en/p/ideal-cut-and-tag-kit-for-histones-24" target="_blank">iDeal CUT&amp;Tag kit for Histones</a></li>
<li><i class="fa fa-arrow-circle-right"></i> <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antirabbit-24" target="_blank">Antibody package for CUT&amp;Tag (anti-rabbit)</a></li>
<li><i class="fa fa-arrow-circle-right"></i> <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antimouse-24" target="_blank">Antibody package for CUT&amp;Tag (anti-mouse)</a></li>
</ul>
<h3 class="diacol">Fusion protein</h3>
<ul class="nobullet">
<li><i class="fa fa-arrow-circle-right"></i> <a href="https://www.diagenode.com/en/products/view/3064" target="_blank">pA/Tn5 Transposase (loaded)</a></li>
<li><i class="fa fa-arrow-circle-right"></i> <a href="https://www.diagenode.com/en/products/view/3065" target="_blank">pA/Tn5 Transposase (unloaded)</a></li>
</ul>
<h3 class="diacol">CUT&amp;Tag grade antibodies</h3>
<ul class="nobullet">
<li>Antibodies <a href="https://www.diagenode.com/en/applications/cut-and-tag">validated in CUT&amp;Tag</a></li>
<li>Check out our list of <a href="https://www.diagenode.com/en/categories/chip-seq-grade-antibodies" target="_blank">ChIP-seq grade antibodies</a></li>
<li>Read more about the performance of Diagenode antibodies in <a href="https://www.diagenode.com/en/pages/cut-and-tag" target="_blank">CUT&amp;Tag</a></li>
</ul>
<h3 class="diacol">Positive &amp; Negative CUT&amp;Tag control</h3>
<ul class="nobullet">
<li><i class="fa fa-arrow-circle-right"></i> <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antirabbit-24" target="_blank">Antibody package for CUT&amp;Tag (anti-rabbit)</a></li>
<li><i class="fa fa-arrow-circle-right"></i> <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antimouse-24" target="_blank">Antibody package for CUT&amp;Tag (anti-mouse)</a></li>
</ul>
<h3 class="diacol">DNA purification</h3>
<p style="padding-left: 30px;"><a href="https://www.diagenode.com/en/p/ipure-kit-v2-x24">IPure kit v2<br /></a><a href="https://www.diagenode.com/en/p/microchip-diapure-columns-50-rxns">MicroChIP DiaPure columns</a></p>
<h3 class="diacol">Sequencing indexes</h3>
<ul class="nobullet">
<li><i class="fa fa-arrow-circle-right"></i> <a href="https://www.diagenode.com/en/categories/primer-indexes-for-tagmented-libraries" target="_blank">Primer indexes for tagmented libraries</a></li>
</ul>
</li>
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			'description' => '<p>pA-Tn5 Transposase is a fusion protein of hyperactive Tn5 transposase and protein A developed for the CUT&amp;Tag assay. For ease of use, the fusion protein is pre-loaded with sequencing adapters suitable for single or dual indexing in single or paired-end Illumina platforms. The adaptors contain 19-mer Tn5 mosaic ends and the sequences for PCR amplification with barcoded i7/i5.</p>',
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			'name' => 'Accelerated epigenetic aging in Huntington’s disease involves polycomb repressive complex 1',
			'authors' => 'Baptiste Brulé et al.',
			'description' => '<p><span>Loss of epigenetic information during physiological aging compromises cellular identity, leading to de-repression of developmental genes. Here, we assessed the epigenomic landscape of vulnerable neurons in two reference mouse models of Huntington neurodegenerative disease (HD), using cell-type-specific multi-omics, including temporal analysis at three disease stages via FANS-CUT&amp;Tag. We show accelerated de-repression of developmental genes in HD striatal neurons, involving histone re-acetylation and depletion of H2AK119 ubiquitination and H3K27 trimethylation marks, which are catalyzed by polycomb repressive complexes 1 and 2 (PRC1 and PRC2), respectively. We further identify a PRC1-dependent subcluster of bivalent developmental transcription factors that is re-activated in HD striatal neurons. This mechanism likely involves progressive paralog switching between PRC1-CBX genes, which promotes the upregulation of normally low-expressed PRC1-CBX2/4/8 isoforms in striatal neurons, alongside the down-regulation of predominant PRC1-CBX isoforms in these cells (e.g., CBX6/7). Collectively, our data provide evidence for PRC1-dependent accelerated epigenetic aging in HD vulnerable neurons.</span></p>',
			'date' => '2025-02-11',
			'pmid' => 'https://www.nature.com/articles/s41467-025-56722-z',
			'doi' => ' https://doi.org/10.1038/s41467-025-56722-z',
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			'authors' => 'Akihiro Ito et al.',
			'description' => '<p><span>Reversible histone acylation is crucial for epigenetic gene expression regulation. Histone acylation is typically mediated by lysine acyltransferases (KATs), which use acyl-CoAs as acyl donors. Here, we revealed the novel role of the histone deacetylases HDAC1 and HDAC2 in histone acylation catalysis. Notably, we show that HDAC1 and HDAC2 directly catalyze sorbylation using sorbic acid, a common food preservative, in addition to facilitating desorbylation. This newly discovered HDAC1/2-driven histone sorbylation function is a distinctive active epigenetic mark that leads to widespread changes in the expression of genes, particularly those involved in cholesterol biosynthesis. Our findings reveal that HDAC1/2 are unique enzymes capable of catalyzing not only the removal but also formation of histone modifications in response to exogenous carboxylic acids such as sorbic acid and benzoic acid. Our results highlight the impact of carboxylic acids found in the environment, such as food additives, on gene expression changes that occur via histone lysine modification regulated by HDAC1 and HDAC2.</span></p>',
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			'doi' => 'https://doi.org/10.21203/rs.3.rs-5847857/v1',
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			'name' => 'The molecular consequences of FOXF1 missense mutations associated with alveolar capillary dysplasia with misalignment of pulmonary veins',
			'authors' => 'G. G. Edel et al.',
			'description' => '<h3 class="c-article__sub-heading" data-test="abstract-sub-heading">Background</h3>
<p>Alveolar capillary dysplasia with misalignment of pulmonary veins (ACD/MPV) is a fatal congenital lung disorder strongly associated with genomic alterations in the Forkhead box F1 (FOXF1) gene and its regulatory region. However, little is known about how FOXF1 genomic alterations cause ACD/MPV and what molecular mechanisms are affected by these mutations. Therefore, the effect of ACD/MPV patient-specific mutations in the<span>&nbsp;</span><i>FOXF1</i><span>&nbsp;</span>gene on the molecular function of FOXF1 was studied.</p>
<h3 class="c-article__sub-heading" data-test="abstract-sub-heading">Methods</h3>
<p>Epitope-tagged FOXF1 constructs containing one of the ACD/MPV-associated mutations were expressed in mammalian cell lines to study the effect of FOXF1 mutations on protein function. EMSA binding assays and luciferase assays were performed to study the effect on target gene binding and activation. Immunoprecipitation followed by SDS‒PAGE and western blotting were used to study protein‒protein interactions. Protein phosphorylation was studied using phos-tag western blotting.</p>
<h3 class="c-article__sub-heading" data-test="abstract-sub-heading">Results</h3>
<p>An overview of the localization of ACD/MPV-associated FOXF1 mutations revealed that the G91-S101 region was frequently mutated. A three-dimensional model of the forkhead DNA-binding domain of FOXF1 showed that the G91-S101 region consists of an &alpha;-helix and is predicted to be important for DNA binding. We showed that FOXF1 missense mutations in this region differentially affect the DNA binding of the FOXF1 protein and influence the transcriptional regulation of target genes depending on the location of the mutation. Furthermore, we showed that some of these mutations can affect the FOXF1 protein at the posttranscriptional level, as shown by altered phosphorylation by MST1 and MST2 kinases.</p>
<h3 class="c-article__sub-heading" data-test="abstract-sub-heading">Conclusion</h3>
<p>Missense mutations in the coding region of the<span>&nbsp;</span><i>FOXF1</i><span>&nbsp;</span>gene alter the molecular function of the FOXF1 protein at multiple levels, such as phosphorylation, DNA binding and target gene activation. These results indicate that FOXF1 molecular pathways may be differentially affected in ACD/MPV patients carrying missense mutations in the DNA-binding domain and may explain the phenotypic heterogeneity of ACD/MPV.</p>',
			'date' => '2024-11-04',
			'pmid' => 'https://link.springer.com/article/10.1186/s12929-024-01088-5',
			'doi' => 'https://doi.org/10.1186/s12929-024-01088-5',
			'modified' => '2024-11-07 11:27:34',
			'created' => '2024-11-07 11:27:34',
			'ProductsPublication' => array(
				[maximum depth reached]
			)
		),
		(int) 3 => array(
			'id' => '4972',
			'name' => 'Two-factor authentication underpins the precision of the piRNA pathway',
			'authors' => 'Dias Mirandela M. et al.',
			'description' => '<p><span>The PIWI-interacting RNA (piRNA) pathway guides the DNA methylation of young, active transposons during germline development in male mice</span><span>. piRNAs tether the PIWI protein MIWI2 (PIWIL4) to the nascent transposon transcript, resulting in DNA methylation through SPOCD1</span><span>. Transposon methylation requires great precision: every copy needs to be methylated but off-target methylation must be avoided. However, the underlying mechanisms that ensure this precision remain unknown. Here, we show that SPOCD1 interacts directly with SPIN1 (SPINDLIN1), a chromatin reader that primarily binds to H3K4me3-K9me3</span><span>. The prevailing assumption is that all the molecular events required for piRNA-directed DNA methylation occur after the engagement of MIWI2. We find that SPIN1 expression precedes that of both SPOCD1 and MIWI2. Furthermore, we demonstrate that young LINE1 copies, but not old ones, are marked by H3K4me3, H3K9me3 and SPIN1 before the initiation of piRNA-directed DNA methylation. We generated a<span>&nbsp;</span></span><i>Spocd1</i><span><span>&nbsp;</span>separation-of-function allele in the mouse that encodes a SPOCD1 variant that no longer interacts with SPIN1. We found that the interaction between SPOCD1 and SPIN1 is essential for spermatogenesis and piRNA-directed DNA methylation of young LINE1 elements. We propose that piRNA-directed LINE1 DNA methylation requires a developmentally timed two-factor authentication process. The first authentication is the recruitment of SPIN1&ndash;SPOCD1 to the young LINE1 promoter, and the second is MIWI2 engagement with the nascent transcript. In summary, independent authentication events underpin the precision of piRNA-directed LINE1 DNA methylation.</span></p>',
			'date' => '2024-09-18',
			'pmid' => 'https://www.nature.com/articles/s41586-024-07963-3',
			'doi' => 'https://doi.org/10.1038/s41586-024-07963-3',
			'modified' => '2024-09-23 10:02:22',
			'created' => '2024-09-23 10:01:31',
			'ProductsPublication' => array(
				[maximum depth reached]
			)
		),
		(int) 4 => array(
			'id' => '4827',
			'name' => 'Transcription factor EGR2 controls homing and pathogenicity of T17cells in the central nervous system.',
			'authors' => 'Gao  Y. et al.',
			'description' => '<p>CD4 T helper 17 (T17) cells protect barrier tissues but also trigger autoimmunity. The mechanisms behind these opposing processes remain unclear. Here, we found that the transcription factor EGR2 controlled the transcriptional program of pathogenic T17 cells in the central nervous system (CNS) but not that of protective T17 cells at barrier sites. EGR2 was significantly elevated in myelin-reactive CD4 T cells from patients with multiple sclerosis and mice with autoimmune neuroinflammation. The EGR2 transcriptional program was intricately woven within the T17 cell transcriptional regulatory network and showed high interconnectivity with core T17 cell-specific transcription factors. Mechanistically, EGR2 enhanced T17 cell differentiation and myeloid cell recruitment to the CNS by upregulating pathogenesis-associated genes and myelomonocytic chemokines. T cell-specific deletion of Egr2 attenuated neuroinflammation without compromising the host's ability to control infections. Our study shows that EGR2 regulates tissue-specific and disease-specific functions in pathogenic T17 cells in the CNS.</p>',
			'date' => '2023-08-01',
			'pmid' => 'https://www.ncbi.nlm.nih.gov/pubmed/37443284',
			'doi' => '10.1038/s41590-023-01553-7',
			'modified' => '2023-08-01 13:35:13',
			'created' => '2023-08-01 15:59:38',
			'ProductsPublication' => array(
				[maximum depth reached]
			)
		),
		(int) 5 => array(
			'id' => '4671',
			'name' => 'The Hdc GC box is critical for Hdc gene transcription andhistamine-mediated anaphylaxis.',
			'authors' => 'Li  Y. et al.',
			'description' => '<p>BACKGROUND: Histamine is a critical mediator of anaphylaxis, a neurotransmitter, and a regulator of gastric acid secretion. Histidine decarboxylase is a rate-limiting enzyme for histamine synthesis. However, in vivo regulation of Hdc, the gene that encodes histidine decarboxylase is poorly understood. OBJECTIVE: We sought to investigate how enhancers regulate Hdc gene transcription and histamine synthesis in resting conditions and in a mouse model of anaphylaxis. METHODS: H3K27 acetylation histone modification and chromatin accessibility were used to identify candidate enhancers; The enhancer activity of candidate enhancers was measured in a reporter gene assay; and the function enhancers were validated using CRISPR deletion. RESULTS: Deletion of the GC box, which binds to zinc finger transcription factors, in the proximal Hdc enhancer, reduced Hdc gene transcription and histamine synthesis in the mouse and human mast cell lines. Mast cells, basophils, brain cells, and stomach cells from GC box-deficient mice transcribed the Hdc gene much less than similar cells from wild-type mice and Hdc GC box-deficient mice failed to develop anaphylaxis. CONCLUSION: Our results demonstrate that the HDC GC box within the proximal enhancer in the mouse and human HDC gene is essential for Hdc gene transcription, histamine synthesis, and histamine-mediated anaphylaxis in vitro and in vivo.</p>',
			'date' => '2023-02-01',
			'pmid' => 'https://doi.org/10.1016%2Fj.jaci.2023.01.031',
			'doi' => '10.1016/j.jaci.2023.01.031',
			'modified' => '2023-04-11 10:29:30',
			'created' => '2023-02-28 12:19:11',
			'ProductsPublication' => array(
				[maximum depth reached]
			)
		),
		(int) 6 => array(
			'id' => '4873',
			'name' => 'Retrospective analysis of enhancer activity and transcriptome history.',
			'authors' => 'Boers  R. et al.',
			'description' => '<p>Cell state changes in development and disease are controlled by gene regulatory networks, the dynamics of which are difficult to track in real time. In this study, we used an inducible DCM-RNA polymerase subunit b fusion protein which labels active genes and enhancers with a bacterial methylation mark that does not affect gene transcription and is propagated in S-phase. This DCM-RNA polymerase fusion protein enables transcribed genes and active enhancers to be tagged and then examined at later stages of development or differentiation. We apply this DCM-time machine (DCM-TM) technology to study intestinal homeostasis, revealing rapid and coordinated activation of enhancers and nearby genes during enterocyte differentiation. We provide new insights in absorptive-secretory lineage decision-making in intestinal stem cell (ISC) differentiation and show that ISCs retain a unique chromatin landscape required to maintain ISC identity and delineate future expression of differentiation-associated genes. DCM-TM has wide applicability in tracking cell states, providing new insights in the regulatory networks underlying cell state changes.</p>',
			'date' => '2023-02-01',
			'pmid' => 'https://www.ncbi.nlm.nih.gov/pubmed/36823354',
			'doi' => '10.1038/s41587-023-01683-1',
			'modified' => '2023-11-10 09:13:54',
			'created' => '2023-09-01 14:23:20',
			'ProductsPublication' => array(
				[maximum depth reached]
			)
		),
		(int) 7 => array(
			'id' => '4627',
			'name' => 'Simultaneous profiling of histone modifications and DNA methylation viananopore sequencing.',
			'authors' => 'Yue  X. et al.',
			'description' => '<p>The interplay between histone modifications and DNA methylation drives the establishment and maintenance of the cellular epigenomic landscape, but it remains challenging to investigate the complex relationship between these epigenetic marks across the genome. Here we describe a nanopore-sequencing-based-method, nanoHiMe-seq, for interrogating the genome-wide localization of histone modifications and DNA methylation from single DNA molecules. nanoHiMe-seq leverages a nonspecific methyltransferase to exogenously label adenine bases proximal to antibody-targeted modified nucleosomes in situ. The labelled adenines and the endogenous methylated CpG sites are simultaneously detected on individual nanopore reads using a hidden Markov model, which is implemented in the nanoHiMe software package. We demonstrate the utility, robustness and sensitivity of nanoHiMe-seq by jointly profiling DNA methylation and histone modifications at low coverage depths, concurrently determining phased patterns of DNA methylation and histone modifications, and probing the intrinsic connectivity between these epigenetic marks across the genome.</p>',
			'date' => '2022-12-01',
			'pmid' => 'https://www.ncbi.nlm.nih.gov/pubmed/36566265',
			'doi' => '10.1038/s41467-022-35650-2',
			'modified' => '2023-03-28 08:59:26',
			'created' => '2023-02-21 09:59:46',
			'ProductsPublication' => array(
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		),
		(int) 8 => array(
			'id' => '4550',
			'name' => 'A SOX2-engineered epigenetic silencer factor represses the glioblastomagenetic program and restrains tumor development.',
			'authors' => 'Benedetti  V. et al.',
			'description' => '<p>Current therapies remain unsatisfactory in preventing the recurrence of glioblastoma multiforme (GBM), which leads to poor patient survival. By rational engineering of the transcription factor SOX2, a key promoter of GBM malignancy, together with the Kruppel-associated box and DNA methyltransferase3A/L catalytic domains, we generated a synthetic repressor named SOX2 epigenetic silencer (SES), which induces the transcriptional silencing of its original targets. By doing so, SES kills both glioma cell lines and patient-derived cancer stem cells in vitro and in vivo. SES expression, through local viral delivery in mouse xenografts, induces strong regression of human tumors and survival rescue. Conversely, SES is not harmful to neurons and glia, also thanks to a minimal promoter that restricts its expression in mitotically active cells, rarely present in the brain parenchyma. Collectively, SES produces a significant silencing of a large fraction of the SOX2 transcriptional network, achieving high levels of efficacy in repressing aggressive brain tumors.</p>',
			'date' => '2022-08-01',
			'pmid' => 'https://pubmed.ncbi.nlm.nih.gov/35921410/',
			'doi' => '10.1126/sciadv.abn3986',
			'modified' => '2023-09-28 11:26:02',
			'created' => '2022-11-24 08:49:52',
			'ProductsPublication' => array(
				[maximum depth reached]
			)
		),
		(int) 9 => array(
			'id' => '4836',
			'name' => 'Caffeine intake exerts dual genome-wide effects on hippocampal metabolismand learning-dependent transcription.',
			'authors' => 'Paiva  I. et al.',
			'description' => '<p>Caffeine is the most widely consumed psychoactive substance in the world. Strikingly, the molecular pathways engaged by its regular consumption remain unclear. We herein addressed the mechanisms associated with habitual (chronic) caffeine consumption in the mouse hippocampus using untargeted orthogonal omics techniques. Our results revealed that chronic caffeine exerts concerted pleiotropic effects in the hippocampus at the epigenomic, proteomic, and metabolomic levels. Caffeine lowered metabolism-related processes (e.g., at the level of metabolomics and gene expression) in bulk tissue, while it induced neuron-specific epigenetic changes at synaptic transmission/plasticity-related genes and increased experience-driven transcriptional activity. Altogether, these findings suggest that regular caffeine intake improves the signal-to-noise ratio during information encoding, in part through fine-tuning of metabolic genes, while boosting the salience of information processing during learning in neuronal circuits.</p>',
			'date' => '2022-06-01',
			'pmid' => 'https://www.ncbi.nlm.nih.gov/pubmed/35536645',
			'doi' => '10.1172/JCI149371',
			'modified' => '2023-08-01 13:52:29',
			'created' => '2023-08-01 15:59:38',
			'ProductsPublication' => array(
				[maximum depth reached]
			)
		),
		(int) 10 => array(
			'id' => '4263',
			'name' => 'ATRX regulates glial identity and the tumor microenvironment inIDH-mutant glioma',
			'authors' => 'Babikir, Husam and Wang, Lin and Shamardani, Karin andCatalan, Francisca and Sudhir, Sweta and Aghi, Manish K. andRaleigh, David R. and Phillips, Joanna J. and Diaz, AaronA.',
			'description' => '<p>Background Recent single-cell transcriptomic studies report that IDH-mutant gliomas share a common hierarchy of cellular phenotypes, independent of genetic subtype. However, the genetic differences between IDH-mutant glioma subtypes are prognostic, predictive of response to chemotherapy, and correlate with distinct tumor microenvironments. Results To reconcile these findings, we profile 22 human IDH-mutant gliomas using scATAC-seq and scRNA-seq. We determine the cell-type-specific differences in transcription factor expression and associated regulatory grammars between IDH-mutant glioma subtypes. We find that while IDH-mutant gliomas do share a common distribution of cell types, there are significant differences in the expression and targeting of transcription factors that regulate glial identity and cytokine elaboration. We knock out the chromatin remodeler ATRX, which suffers loss-of-function alterations in most IDH-mutant astrocytomas, in an IDH-mutant immunocompetent intracranial murine model. We find that both human ATRX-mutant gliomas and murine ATRX-knockout gliomas are more heavily infiltrated by immunosuppressive monocytic-lineage cells derived from circulation than ATRX-intact gliomas, in an IDH-mutant background. ATRX knockout in murine glioma recapitulates gene expression and open chromatin signatures that are specific to human ATRX-mutant astrocytomas, including drivers of astrocytic lineage and immune-cell chemotaxis. Through single-cell cleavage under targets and tagmentation assays and meta-analysis of public data, we show that ATRX loss leads to a global depletion in CCCTC-binding factor association with DNA, gene dysregulation along associated chromatin loops, and protection from therapy-induced senescence. Conclusions These studies explain how IDH-mutant gliomas from different subtypes maintain distinct phenotypes and tumor microenvironments despite a common lineage hierarchy. Supplementary Information The online version contains supplementary material available at 10.1186/s13059-021-02535-4.</p>',
			'date' => '2021-11-01',
			'pmid' => 'https://www.ncbi.nlm.nih.gov/pubmed/34763709',
			'doi' => '10.1186/s13059-021-02535-4',
			'modified' => '2022-05-20 09:50:12',
			'created' => '2022-05-19 10:41:50',
			'ProductsPublication' => array(
				[maximum depth reached]
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		),
		(int) 11 => array(
			'id' => '4233',
			'name' => 'Autocrine Vitamin D-signaling switches off pro-inflammatory programsof Th1 cells',
			'authors' => 'Chauss D.et al.',
			'description' => '<p>The molecular mechanisms governing orderly shutdown and retraction of CD4+ T helper (Th)1 responses remain poorly understood. Here, we show that complement triggers contraction of Th1 responses by inducing intrinsic expression of the vitamin D (VitD) receptor (VDR) and the VitD-activating enzyme CYP27B1, permitting T cells to both activate and respond to VitD. VitD then initiated transition from pro-inflammatory IFN-&gamma; + Th1 cells to suppressive IL-10+ cells. This process was primed by dynamic changes in the epigenetic landscape of CD4+ T cells, generating super-enhancers and recruiting several transcription factors, notably c-JUN, STAT3 and BACH2, which together with VDR shaped the transcriptional response to VitD. Accordingly, VitD did not induce IL-10 in cells with dysfunctional BACH2 or STAT3. Bronchoalveolar lavage fluid CD4+ T cells of COVID-19 patients were Th1-skewed and showed de-repression of genes down-regulated by VitD, either from lack of substrate (VitD deficiency) and/or abnormal regulation of this system.</p>',
			'date' => '2021-10-01',
			'pmid' => 'https://www.ncbi.nlm.nih.gov/pubmed/34764490',
			'doi' => '10.1038/s41590-021-01080-3',
			'modified' => '2022-05-19 16:57:27',
			'created' => '2022-05-19 10:41:50',
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			'description' => '<p>We are really happy to use the loaded pA-Tn5 for CUT&amp;Tag. Easy to use and reproductible for samples with a starting low number of cells. Besides, Diagenode has a great customer service and technical support which are really responsive.</p>',
			'author' => 'Cathy NGUYEN, CNRGH, Evry-Courcouronnes, France.',
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		'id' => '3064',
		'antibody_id' => null,
		'name' => 'pA-Tn5 Transposase - loaded',
		'description' => '<div class="row">
<div class="small-12 medium-8 large-8 columns"><br />
<p><strong>pA-Tn5 transposase</strong> is a fusion protein of hyperactive Tn5 transposase and protein A developed for the <strong>CUT&amp;Tag assay</strong>. For convenience, the fusion protein is pre-loaded with sequencing adapters. Diagenode pA-Tn5 transposase is compatible with CUT&amp;Tag and other antibody-tethered Tn5 based methods, like ACT-seq and CoBATCH.</p>
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<p><strong>pA-Tn5 Transposase</strong></p>
<ul style="list-style-type: circle;">
<li>High enrichment and specificity of the signal around the TSS</li>
<li>No contamination<span style="font-weight: 400;"> with </span><i><span style="font-weight: 400;">E. coli</span></i><span style="font-weight: 400;"> DNA</span></li>
<li><span style="font-weight: 400;">Flexible versions: loaded or <a href="https://www.diagenode.com/en/p/pa-tn5-transposase-unloaded">unloaded</a><br /></span></li>
<li><span style="font-weight: 400;">Excellent for CUT&amp;Tag </span></li>
</ul>
<p>As it is crucial to target only the protein of interest, a highly specific antibody is critical for the success of the CUT&amp;Tag assay. All Diagenode ChIP-seq grade antibodies are validated for specificity using strict validation criteria to assure <a href="https://www.diagenode.com/en/pages/cut-and-tag" target="_blank">high performance in CUT&amp;Tag</a>.</p>
<p class="lead"><strong>Check out all products recommended for CUT&amp;Tag assay</strong>:</p>
<ul class="nobullet" style="list-style-type: circle;">
<li><a href="https://www.diagenode.com/en/p/ideal-cut-and-tag-kit-for-histones-24">iDeal CUT&amp;Tag kit for Histones</a>&nbsp;- compatible with histome marks and some transcription factors</li>
<li>pA/Tn5 Transposase (loaded or <a href="https://www.diagenode.com/en/products/view/3065" target="_blank">unloaded</a>)</li>
<li><a href="https://www.diagenode.com/en/applications/cut-and-tag">CUT&amp;Tag grade</a> and <a href="https://www.diagenode.com/en/categories/chip-seq-grade-antibodies">ChIP-seq grade</a> antibodies</li>
<li>Negative &amp; positive CUT&amp;Tag controls:&nbsp;<span>Antibody Package for CUT&amp;Tag: <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antirabbit-24">anti-rabbit</a> and <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antimouse-24">anti-mouse</a></span></li>
<li>DNA purification: <a href="https://www.diagenode.com/en/p/ipure-kit-v2-x24">IPure kit v2</a> or <a href="https://www.diagenode.com/en/p/microchip-diapure-columns-50-rxns">MicroChIP DiaPure columns</a></li>
<li>Sequencing indexes: <a href="https://www.diagenode.com/en/p/24-si-for-tagmented-libraries">single indexes</a> and <a href="https://www.diagenode.com/en/p/24-unique-dual-indexes-for-tagmented-libraries-set1">UDI</a></li>
</ul>',
		'label1' => 'Validation data',
		'info1' => '<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">A.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K4me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-a.png" width="800" height="374" /></center><br /> B.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K9me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-b.png" width="800" height="374" /></center><br /> C.<br /><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-c.png" width="800" height="374" /></center></div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">
<p><strong>Figure 1.</strong> Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (A), <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">H3K9me3</a> (B) and <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (C) data obtained using Diagenode pA-Tn5 fusion protein (C01070001) and CUT&amp;Tag protocol (Kaya-Okur, H.S., Nat Commun 10, 1930 (2019)) at selected loci. CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), H3K27me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>) and H3K9me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">C15410193</a>).</p>
</div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-a.png" /></center></div>
<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K4me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-b.png" /></center></div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">
<p><strong>Figure 2.</strong> CUT&amp;Tag profiles show typical enrichments specific for a given histone mark. Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (red) and <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (green) are shown at selected loci. H3K27me3, which marks inactive regions (red), does not show enrichment over open chromatin regions, marked by H3K4me3 (green). CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), and H3K27me3 polyclonal ChIP-seq grade (Cat. No.<a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>).</p>
</div>
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		'price_EUR' => '650',
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		'slug' => 'pa-tn5-transposase-loaded',
		'meta_title' => 'pA-Tn5 Transposase (loaded) developed for the CUT&Tag assay | Diagenode.com',
		'meta_keywords' => '',
		'meta_description' => 'Diagenode pA-Tn5 Transposase (loaded) is a fusion protein of hyperactive Tn5 transposase and protein A developed for the CUT&Tag assay. For convenience, the fusion protein is pre-loaded with sequencing adapters.',
		'modified' => '2024-08-29 10:33:48',
		'created' => '2020-04-28 15:34:52'
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	(int) 1 => array(
		'id' => '3239',
		'antibody_id' => null,
		'name' => 'pA-Tn5 Transposase - loaded',
		'description' => '<div class="row">
<div class="small-12 medium-8 large-8 columns"><br />
<p><strong>pA-Tn5 transposase</strong> is a fusion protein of hyperactive Tn5 transposase and protein A developed for the <strong>CUT&amp;Tag assay</strong>. For convenience, the fusion protein is pre-loaded with sequencing adapters. Diagenode pA-Tn5 transposase is compatible with CUT&amp;Tag and other antibody-tethered Tn5 based methods, like ACT-seq and CoBATCH.</p>
</div>
<div class="small-12 medium-4 large-4 columns"><center>
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<p><strong>pA-Tn5 Transposase</strong></p>
<ul style="list-style-type: circle;">
<li>High enrichment and specificity of the signal around the TSS</li>
<li>No contamination<span style="font-weight: 400;"> with </span><i><span style="font-weight: 400;">E. coli</span></i><span style="font-weight: 400;"> DNA</span></li>
<li><span style="font-weight: 400;">Flexible versions: loaded or <a href="https://www.diagenode.com/en/p/pa-tn5-transposase-unloaded">unloaded</a><br /></span></li>
<li><span style="font-weight: 400;">Excellent for CUT&amp;Tag </span></li>
</ul>
<p>As it is crucial to target only the protein of interest, a highly specific antibody is critical for the success of the CUT&amp;Tag assay. All Diagenode ChIP-seq grade antibodies are validated for specificity using strict validation criteria to assure <a href="https://www.diagenode.com/en/pages/cut-and-tag" target="_blank">high performance in CUT&amp;Tag</a>.</p>
<p class="lead"><strong>Check out all products recommended for CUT&amp;Tag assay</strong>:</p>
<ul class="nobullet" style="list-style-type: circle;">
<li><a href="https://www.diagenode.com/en/p/ideal-cut-and-tag-kit-for-histones-24">iDeal CUT&amp;Tag kit for Histones</a>&nbsp;- compatible with histome marks and some transcription factors</li>
<li>pA/Tn5 Transposase (loaded or <a href="https://www.diagenode.com/en/products/view/3065" target="_blank">unloaded</a>)</li>
<li><a href="https://www.diagenode.com/en/applications/cut-and-tag">CUT&amp;Tag grade</a> and <a href="https://www.diagenode.com/en/categories/chip-seq-grade-antibodies">ChIP-seq grade</a> antibodies</li>
<li>Negative &amp; positive CUT&amp;Tag controls:&nbsp;<span>Antibody Package for CUT&amp;Tag: <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antirabbit-24">anti-rabbit</a> and <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antimouse-24">anti-mouse</a></span></li>
<li>DNA purification: <a href="https://www.diagenode.com/en/p/ipure-kit-v2-x24">IPure kit v2</a> or <a href="https://www.diagenode.com/en/p/microchip-diapure-columns-50-rxns">MicroChIP DiaPure columns</a></li>
<li>Sequencing indexes: <a href="https://www.diagenode.com/en/p/24-si-for-tagmented-libraries">single indexes</a> and <a href="https://www.diagenode.com/en/p/24-unique-dual-indexes-for-tagmented-libraries-set1">UDI</a></li>
</ul>',
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		'info1' => '<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">A.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K4me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-a.png" width="800" height="374" /></center><br /> B.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K9me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-b.png" width="800" height="374" /></center><br /> C.<br /><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-c.png" width="800" height="374" /></center></div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">
<p><strong>Figure 1.</strong> Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (A), <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">H3K9me3</a> (B) and <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (C) data obtained using Diagenode pA-Tn5 fusion protein (C01070001) and CUT&amp;Tag protocol (Kaya-Okur, H.S., Nat Commun 10, 1930 (2019)) at selected loci. CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), H3K27me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>) and H3K9me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">C15410193</a>).</p>
</div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-a.png" /></center></div>
<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K4me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-b.png" /></center></div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">
<p><strong>Figure 2.</strong> CUT&amp;Tag profiles show typical enrichments specific for a given histone mark. Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (red) and <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (green) are shown at selected loci. H3K27me3, which marks inactive regions (red), does not show enrichment over open chromatin regions, marked by H3K4me3 (green). CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), and H3K27me3 polyclonal ChIP-seq grade (Cat. No.<a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>).</p>
</div>
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	'id' => '3239',
	'antibody_id' => null,
	'name' => 'pA-Tn5 Transposase - loaded',
	'description' => '<div class="row">
<div class="small-12 medium-8 large-8 columns"><br />
<p><strong>pA-Tn5 transposase</strong> is a fusion protein of hyperactive Tn5 transposase and protein A developed for the <strong>CUT&amp;Tag assay</strong>. For convenience, the fusion protein is pre-loaded with sequencing adapters. Diagenode pA-Tn5 transposase is compatible with CUT&amp;Tag and other antibody-tethered Tn5 based methods, like ACT-seq and CoBATCH.</p>
</div>
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<p><strong>pA-Tn5 Transposase</strong></p>
<ul style="list-style-type: circle;">
<li>High enrichment and specificity of the signal around the TSS</li>
<li>No contamination<span style="font-weight: 400;"> with </span><i><span style="font-weight: 400;">E. coli</span></i><span style="font-weight: 400;"> DNA</span></li>
<li><span style="font-weight: 400;">Flexible versions: loaded or <a href="https://www.diagenode.com/en/p/pa-tn5-transposase-unloaded">unloaded</a><br /></span></li>
<li><span style="font-weight: 400;">Excellent for CUT&amp;Tag </span></li>
</ul>
<p>As it is crucial to target only the protein of interest, a highly specific antibody is critical for the success of the CUT&amp;Tag assay. All Diagenode ChIP-seq grade antibodies are validated for specificity using strict validation criteria to assure <a href="https://www.diagenode.com/en/pages/cut-and-tag" target="_blank">high performance in CUT&amp;Tag</a>.</p>
<p class="lead"><strong>Check out all products recommended for CUT&amp;Tag assay</strong>:</p>
<ul class="nobullet" style="list-style-type: circle;">
<li><a href="https://www.diagenode.com/en/p/ideal-cut-and-tag-kit-for-histones-24">iDeal CUT&amp;Tag kit for Histones</a>&nbsp;- compatible with histome marks and some transcription factors</li>
<li>pA/Tn5 Transposase (loaded or <a href="https://www.diagenode.com/en/products/view/3065" target="_blank">unloaded</a>)</li>
<li><a href="https://www.diagenode.com/en/applications/cut-and-tag">CUT&amp;Tag grade</a> and <a href="https://www.diagenode.com/en/categories/chip-seq-grade-antibodies">ChIP-seq grade</a> antibodies</li>
<li>Negative &amp; positive CUT&amp;Tag controls:&nbsp;<span>Antibody Package for CUT&amp;Tag: <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antirabbit-24">anti-rabbit</a> and <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antimouse-24">anti-mouse</a></span></li>
<li>DNA purification: <a href="https://www.diagenode.com/en/p/ipure-kit-v2-x24">IPure kit v2</a> or <a href="https://www.diagenode.com/en/p/microchip-diapure-columns-50-rxns">MicroChIP DiaPure columns</a></li>
<li>Sequencing indexes: <a href="https://www.diagenode.com/en/p/24-si-for-tagmented-libraries">single indexes</a> and <a href="https://www.diagenode.com/en/p/24-unique-dual-indexes-for-tagmented-libraries-set1">UDI</a></li>
</ul>',
	'label1' => 'Validation Data',
	'info1' => '<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">A.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K4me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-a.png" width="800" height="374" /></center><br /> B.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K9me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-b.png" width="800" height="374" /></center><br /> C.<br /><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-c.png" width="800" height="374" /></center></div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">
<p><strong>Figure 1.</strong> Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (A), <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">H3K9me3</a> (B) and <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (C) data obtained using Diagenode pA-Tn5 fusion protein (C01070001) and CUT&amp;Tag protocol (Kaya-Okur, H.S., Nat Commun 10, 1930 (2019)) at selected loci. CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), H3K27me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>) and H3K9me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">C15410193</a>).</p>
</div>
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<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K4me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-b.png" /></center></div>
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<p><strong>Figure 2.</strong> CUT&amp;Tag profiles show typical enrichments specific for a given histone mark. Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (red) and <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (green) are shown at selected loci. H3K27me3, which marks inactive regions (red), does not show enrichment over open chromatin regions, marked by H3K4me3 (green). CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), and H3K27me3 polyclonal ChIP-seq grade (Cat. No.<a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>).</p>
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<div class="small-12 medium-8 large-8 columns"><br />
<p><strong>pA-Tn5 transposase</strong> is a fusion protein of hyperactive Tn5 transposase and protein A developed for the <strong>CUT&amp;Tag assay</strong>. For convenience, the fusion protein is pre-loaded with sequencing adapters. Diagenode pA-Tn5 transposase is compatible with CUT&amp;Tag and other antibody-tethered Tn5 based methods, like ACT-seq and CoBATCH.</p>
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<p><strong>pA-Tn5 Transposase</strong></p>
<ul style="list-style-type: circle;">
<li>High enrichment and specificity of the signal around the TSS</li>
<li>No contamination<span style="font-weight: 400;"> with </span><i><span style="font-weight: 400;">E. coli</span></i><span style="font-weight: 400;"> DNA</span></li>
<li><span style="font-weight: 400;">Flexible versions: loaded or <a href="https://www.diagenode.com/en/p/pa-tn5-transposase-unloaded">unloaded</a><br /></span></li>
<li><span style="font-weight: 400;">Excellent for CUT&amp;Tag </span></li>
</ul>
<p>As it is crucial to target only the protein of interest, a highly specific antibody is critical for the success of the CUT&amp;Tag assay. All Diagenode ChIP-seq grade antibodies are validated for specificity using strict validation criteria to assure <a href="https://www.diagenode.com/en/pages/cut-and-tag" target="_blank">high performance in CUT&amp;Tag</a>.</p>
<p class="lead"><strong>Check out all products recommended for CUT&amp;Tag assay</strong>:</p>
<ul class="nobullet" style="list-style-type: circle;">
<li><a href="https://www.diagenode.com/en/p/ideal-cut-and-tag-kit-for-histones-24">iDeal CUT&amp;Tag kit for Histones</a>&nbsp;- compatible with histome marks and some transcription factors</li>
<li>pA/Tn5 Transposase (loaded or <a href="https://www.diagenode.com/en/products/view/3065" target="_blank">unloaded</a>)</li>
<li><a href="https://www.diagenode.com/en/applications/cut-and-tag">CUT&amp;Tag grade</a> and <a href="https://www.diagenode.com/en/categories/chip-seq-grade-antibodies">ChIP-seq grade</a> antibodies</li>
<li>Negative &amp; positive CUT&amp;Tag controls:&nbsp;<span>Antibody Package for CUT&amp;Tag: <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antirabbit-24">anti-rabbit</a> and <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antimouse-24">anti-mouse</a></span></li>
<li>DNA purification: <a href="https://www.diagenode.com/en/p/ipure-kit-v2-x24">IPure kit v2</a> or <a href="https://www.diagenode.com/en/p/microchip-diapure-columns-50-rxns">MicroChIP DiaPure columns</a></li>
<li>Sequencing indexes: <a href="https://www.diagenode.com/en/p/24-si-for-tagmented-libraries">single indexes</a> and <a href="https://www.diagenode.com/en/p/24-unique-dual-indexes-for-tagmented-libraries-set1">UDI</a></li>
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<div class="small-12 medium-12 large-12 columns">A.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K4me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-a.png" width="800" height="374" /></center><br /> B.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K9me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-b.png" width="800" height="374" /></center><br /> C.<br /><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-c.png" width="800" height="374" /></center></div>
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<div class="row extra-spaced">
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<p><strong>Figure 1.</strong> Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (A), <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">H3K9me3</a> (B) and <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (C) data obtained using Diagenode pA-Tn5 fusion protein (C01070001) and CUT&amp;Tag protocol (Kaya-Okur, H.S., Nat Commun 10, 1930 (2019)) at selected loci. CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), H3K27me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>) and H3K9me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">C15410193</a>).</p>
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<div class="row extra-spaced">
<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-a.png" /></center></div>
<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K4me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-b.png" /></center></div>
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<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">
<p><strong>Figure 2.</strong> CUT&amp;Tag profiles show typical enrichments specific for a given histone mark. Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (red) and <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (green) are shown at selected loci. H3K27me3, which marks inactive regions (red), does not show enrichment over open chromatin regions, marked by H3K4me3 (green). CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), and H3K27me3 polyclonal ChIP-seq grade (Cat. No.<a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>).</p>
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<p><strong>pA-Tn5 transposase</strong> is a fusion protein of hyperactive Tn5 transposase and protein A developed for the <strong>CUT&amp;Tag assay</strong>. For convenience, the fusion protein is pre-loaded with sequencing adapters. Diagenode pA-Tn5 transposase is compatible with CUT&amp;Tag and other antibody-tethered Tn5 based methods, like ACT-seq and CoBATCH.</p>
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<p><strong>pA-Tn5 Transposase</strong></p>
<ul style="list-style-type: circle;">
<li>High enrichment and specificity of the signal around the TSS</li>
<li>No contamination<span style="font-weight: 400;"> with </span><i><span style="font-weight: 400;">E. coli</span></i><span style="font-weight: 400;"> DNA</span></li>
<li><span style="font-weight: 400;">Flexible versions: loaded or <a href="https://www.diagenode.com/en/p/pa-tn5-transposase-unloaded">unloaded</a><br /></span></li>
<li><span style="font-weight: 400;">Excellent for CUT&amp;Tag </span></li>
</ul>
<p>As it is crucial to target only the protein of interest, a highly specific antibody is critical for the success of the CUT&amp;Tag assay. All Diagenode ChIP-seq grade antibodies are validated for specificity using strict validation criteria to assure <a href="https://www.diagenode.com/en/pages/cut-and-tag" target="_blank">high performance in CUT&amp;Tag</a>.</p>
<p class="lead"><strong>Check out all products recommended for CUT&amp;Tag assay</strong>:</p>
<ul class="nobullet" style="list-style-type: circle;">
<li><a href="https://www.diagenode.com/en/p/ideal-cut-and-tag-kit-for-histones-24">iDeal CUT&amp;Tag kit for Histones</a>&nbsp;- compatible with histome marks and some transcription factors</li>
<li>pA/Tn5 Transposase (loaded or <a href="https://www.diagenode.com/en/products/view/3065" target="_blank">unloaded</a>)</li>
<li><a href="https://www.diagenode.com/en/applications/cut-and-tag">CUT&amp;Tag grade</a> and <a href="https://www.diagenode.com/en/categories/chip-seq-grade-antibodies">ChIP-seq grade</a> antibodies</li>
<li>Negative &amp; positive CUT&amp;Tag controls:&nbsp;<span>Antibody Package for CUT&amp;Tag: <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antirabbit-24">anti-rabbit</a> and <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antimouse-24">anti-mouse</a></span></li>
<li>DNA purification: <a href="https://www.diagenode.com/en/p/ipure-kit-v2-x24">IPure kit v2</a> or <a href="https://www.diagenode.com/en/p/microchip-diapure-columns-50-rxns">MicroChIP DiaPure columns</a></li>
<li>Sequencing indexes: <a href="https://www.diagenode.com/en/p/24-si-for-tagmented-libraries">single indexes</a> and <a href="https://www.diagenode.com/en/p/24-unique-dual-indexes-for-tagmented-libraries-set1">UDI</a></li>
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<div class="small-12 medium-12 large-12 columns">A.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K4me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-a.png" width="800" height="374" /></center><br /> B.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K9me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-b.png" width="800" height="374" /></center><br /> C.<br /><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-c.png" width="800" height="374" /></center></div>
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<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">
<p><strong>Figure 1.</strong> Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (A), <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">H3K9me3</a> (B) and <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (C) data obtained using Diagenode pA-Tn5 fusion protein (C01070001) and CUT&amp;Tag protocol (Kaya-Okur, H.S., Nat Commun 10, 1930 (2019)) at selected loci. CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), H3K27me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>) and H3K9me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">C15410193</a>).</p>
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<div class="row extra-spaced">
<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-a.png" /></center></div>
<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K4me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-b.png" /></center></div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">
<p><strong>Figure 2.</strong> CUT&amp;Tag profiles show typical enrichments specific for a given histone mark. Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (red) and <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (green) are shown at selected loci. H3K27me3, which marks inactive regions (red), does not show enrichment over open chromatin regions, marked by H3K4me3 (green). CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), and H3K27me3 polyclonal ChIP-seq grade (Cat. No.<a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>).</p>
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<p><strong>pA-Tn5 transposase</strong> is a fusion protein of hyperactive Tn5 transposase and protein A developed for the <strong>CUT&amp;Tag assay</strong>. For convenience, the fusion protein is pre-loaded with sequencing adapters. Diagenode pA-Tn5 transposase is compatible with CUT&amp;Tag and other antibody-tethered Tn5 based methods, like ACT-seq and CoBATCH.</p>
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<p><strong>pA-Tn5 Transposase</strong></p>
<ul style="list-style-type: circle;">
<li>High enrichment and specificity of the signal around the TSS</li>
<li>No contamination<span style="font-weight: 400;"> with </span><i><span style="font-weight: 400;">E. coli</span></i><span style="font-weight: 400;"> DNA</span></li>
<li><span style="font-weight: 400;">Flexible versions: loaded or <a href="https://www.diagenode.com/en/p/pa-tn5-transposase-unloaded">unloaded</a><br /></span></li>
<li><span style="font-weight: 400;">Excellent for CUT&amp;Tag </span></li>
</ul>
<p>As it is crucial to target only the protein of interest, a highly specific antibody is critical for the success of the CUT&amp;Tag assay. All Diagenode ChIP-seq grade antibodies are validated for specificity using strict validation criteria to assure <a href="https://www.diagenode.com/en/pages/cut-and-tag" target="_blank">high performance in CUT&amp;Tag</a>.</p>
<p class="lead"><strong>Check out all products recommended for CUT&amp;Tag assay</strong>:</p>
<ul class="nobullet" style="list-style-type: circle;">
<li><a href="https://www.diagenode.com/en/p/ideal-cut-and-tag-kit-for-histones-24">iDeal CUT&amp;Tag kit for Histones</a>&nbsp;- compatible with histome marks and some transcription factors</li>
<li>pA/Tn5 Transposase (loaded or <a href="https://www.diagenode.com/en/products/view/3065" target="_blank">unloaded</a>)</li>
<li><a href="https://www.diagenode.com/en/applications/cut-and-tag">CUT&amp;Tag grade</a> and <a href="https://www.diagenode.com/en/categories/chip-seq-grade-antibodies">ChIP-seq grade</a> antibodies</li>
<li>Negative &amp; positive CUT&amp;Tag controls:&nbsp;<span>Antibody Package for CUT&amp;Tag: <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antirabbit-24">anti-rabbit</a> and <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antimouse-24">anti-mouse</a></span></li>
<li>DNA purification: <a href="https://www.diagenode.com/en/p/ipure-kit-v2-x24">IPure kit v2</a> or <a href="https://www.diagenode.com/en/p/microchip-diapure-columns-50-rxns">MicroChIP DiaPure columns</a></li>
<li>Sequencing indexes: <a href="https://www.diagenode.com/en/p/24-si-for-tagmented-libraries">single indexes</a> and <a href="https://www.diagenode.com/en/p/24-unique-dual-indexes-for-tagmented-libraries-set1">UDI</a></li>
</ul>',
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<div class="small-12 medium-12 large-12 columns">A.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K4me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-a.png" width="800" height="374" /></center><br /> B.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K9me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-b.png" width="800" height="374" /></center><br /> C.<br /><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-c.png" width="800" height="374" /></center></div>
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<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">
<p><strong>Figure 1.</strong> Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (A), <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">H3K9me3</a> (B) and <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (C) data obtained using Diagenode pA-Tn5 fusion protein (C01070001) and CUT&amp;Tag protocol (Kaya-Okur, H.S., Nat Commun 10, 1930 (2019)) at selected loci. CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), H3K27me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>) and H3K9me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">C15410193</a>).</p>
</div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-a.png" /></center></div>
<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K4me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-b.png" /></center></div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">
<p><strong>Figure 2.</strong> CUT&amp;Tag profiles show typical enrichments specific for a given histone mark. Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (red) and <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (green) are shown at selected loci. H3K27me3, which marks inactive regions (red), does not show enrichment over open chromatin regions, marked by H3K4me3 (green). CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), and H3K27me3 polyclonal ChIP-seq grade (Cat. No.<a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>).</p>
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<p><strong>CUT&amp;Tag</strong>-sequencing (<strong>C</strong>leavage <strong>U</strong>nder <strong>T</strong>argets and <strong>Tag</strong>mentation) is a new alternative method to ChIP-seq combining antibody-targeted controlled cleavage by a protein A-Tn5 fusion with massively parallel DNA sequencing to identify the binding sites of DNA-associated proteins. At Diagenode we offer a complete solution for CUT&amp;Tag &ndash; our iDeal CUT&amp;Tag for Histones (developped for histone marks and some non-histone proteins), but also stand-alone fusion protein &ndash; pA-Tn5 Transposase. Moreover, we have validated our <a href="https://www.diagenode.com/en/categories/chip-seq-grade-antibodies">ChIP-seq grade antibodies</a> in <a href="https://www.diagenode.com/en/categories/cut-and-tag-antibodies">CUT&amp;Tag</a> proving their high performance in this assay.</p>
<br /> <a href="https://www.diagenode.com/files/application_notes/AN-iDealCUTandTag.pdf"><img src="https://www.diagenode.com/img/banners/cutandtag-appnote.png" /></a><br /><br /></div>
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<li class="accordion-navigation"><a href="#v5" style="color: #13b29c;"><i class="fa fa-caret-right"></i> How does it work?</a>
<div id="v5" class="content">
<p>The iDeal CUT&amp;Tag protocol involves the binding of cells on a solid phase ConA magnetic beads, allowing magnetic handling of the cells for the major steps of the protocol. Bead-bound cells are permeabilized, incubated with primary antibody against a target of interest and secondary antibody. Then, Diagenode&rsquo;s protein pA-Tn5 Transposase - loaded is bound to the complex. Protein A guides Tn5 transposase on chromatin to the antibody attached to its target. Tn5 transposase is activated by Mg+2 ions to insert the sequencing adaptors into genomic regions of interest. DNA is then purified and the tagmented genomic regions of interest are amplified by PCR using Diagenode&rsquo;s Primer Indexes for tagmented libraries.</p>
<img src="https://www.diagenode.com/img/product/kits/workflow-cutandtag.jpg" /></div>
<h2>Products for CUT&amp;Tag assay</h2>
<h3 class="diacol">Complete solutions</h3>
<ul class="nobullet">
<li><i class="fa fa-arrow-circle-right"></i> <a href="https://www.diagenode.com/en/p/ideal-cut-and-tag-kit-for-histones-24" target="_blank">iDeal CUT&amp;Tag kit for Histones</a></li>
<li><i class="fa fa-arrow-circle-right"></i> <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antirabbit-24" target="_blank">Antibody package for CUT&amp;Tag (anti-rabbit)</a></li>
<li><i class="fa fa-arrow-circle-right"></i> <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antimouse-24" target="_blank">Antibody package for CUT&amp;Tag (anti-mouse)</a></li>
</ul>
<h3 class="diacol">Fusion protein</h3>
<ul class="nobullet">
<li><i class="fa fa-arrow-circle-right"></i> <a href="https://www.diagenode.com/en/products/view/3064" target="_blank">pA/Tn5 Transposase (loaded)</a></li>
<li><i class="fa fa-arrow-circle-right"></i> <a href="https://www.diagenode.com/en/products/view/3065" target="_blank">pA/Tn5 Transposase (unloaded)</a></li>
</ul>
<h3 class="diacol">CUT&amp;Tag grade antibodies</h3>
<ul class="nobullet">
<li>Antibodies <a href="https://www.diagenode.com/en/applications/cut-and-tag">validated in CUT&amp;Tag</a></li>
<li>Check out our list of <a href="https://www.diagenode.com/en/categories/chip-seq-grade-antibodies" target="_blank">ChIP-seq grade antibodies</a></li>
<li>Read more about the performance of Diagenode antibodies in <a href="https://www.diagenode.com/en/pages/cut-and-tag" target="_blank">CUT&amp;Tag</a></li>
</ul>
<h3 class="diacol">Positive &amp; Negative CUT&amp;Tag control</h3>
<ul class="nobullet">
<li><i class="fa fa-arrow-circle-right"></i> <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antirabbit-24" target="_blank">Antibody package for CUT&amp;Tag (anti-rabbit)</a></li>
<li><i class="fa fa-arrow-circle-right"></i> <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antimouse-24" target="_blank">Antibody package for CUT&amp;Tag (anti-mouse)</a></li>
</ul>
<h3 class="diacol">DNA purification</h3>
<p style="padding-left: 30px;"><a href="https://www.diagenode.com/en/p/ipure-kit-v2-x24">IPure kit v2<br /></a><a href="https://www.diagenode.com/en/p/microchip-diapure-columns-50-rxns">MicroChIP DiaPure columns</a></p>
<h3 class="diacol">Sequencing indexes</h3>
<ul class="nobullet">
<li><i class="fa fa-arrow-circle-right"></i> <a href="https://www.diagenode.com/en/categories/primer-indexes-for-tagmented-libraries" target="_blank">Primer indexes for tagmented libraries</a></li>
</ul>
</li>
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			'meta_description' => 'Rapid chromatin profiling assay, optimized protocol, all reagents provided. Easy sample handling due to ConA magnetic beads. Highly specific CUT&Tag grade antibodies available. ',
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			'id' => '1078',
			'name' => 'pA-TN5 transposase (loaded) datasheet',
			'description' => '<p>pA-Tn5 Transposase is a fusion protein of hyperactive Tn5 transposase and protein A developed for the CUT&amp;Tag assay. For ease of use, the fusion protein is pre-loaded with sequencing adapters suitable for single or dual indexing in single or paired-end Illumina platforms. The adaptors contain 19-mer Tn5 mosaic ends and the sequences for PCR amplification with barcoded i7/i5.</p>',
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		(int) 0 => array(
			'id' => '5045',
			'name' => 'Accelerated epigenetic aging in Huntington’s disease involves polycomb repressive complex 1',
			'authors' => 'Baptiste Brulé et al.',
			'description' => '<p><span>Loss of epigenetic information during physiological aging compromises cellular identity, leading to de-repression of developmental genes. Here, we assessed the epigenomic landscape of vulnerable neurons in two reference mouse models of Huntington neurodegenerative disease (HD), using cell-type-specific multi-omics, including temporal analysis at three disease stages via FANS-CUT&amp;Tag. We show accelerated de-repression of developmental genes in HD striatal neurons, involving histone re-acetylation and depletion of H2AK119 ubiquitination and H3K27 trimethylation marks, which are catalyzed by polycomb repressive complexes 1 and 2 (PRC1 and PRC2), respectively. We further identify a PRC1-dependent subcluster of bivalent developmental transcription factors that is re-activated in HD striatal neurons. This mechanism likely involves progressive paralog switching between PRC1-CBX genes, which promotes the upregulation of normally low-expressed PRC1-CBX2/4/8 isoforms in striatal neurons, alongside the down-regulation of predominant PRC1-CBX isoforms in these cells (e.g., CBX6/7). Collectively, our data provide evidence for PRC1-dependent accelerated epigenetic aging in HD vulnerable neurons.</span></p>',
			'date' => '2025-02-11',
			'pmid' => 'https://www.nature.com/articles/s41467-025-56722-z',
			'doi' => ' https://doi.org/10.1038/s41467-025-56722-z',
			'modified' => '2025-02-14 13:43:16',
			'created' => '2025-02-14 13:43:16',
			'ProductsPublication' => array(
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		(int) 1 => array(
			'id' => '5040',
			'name' => 'HDAC1 and HDAC2 are bidirectional enzymes that catalyze histone sorbylation to induce epigenetic alterations',
			'authors' => 'Akihiro Ito et al.',
			'description' => '<p><span>Reversible histone acylation is crucial for epigenetic gene expression regulation. Histone acylation is typically mediated by lysine acyltransferases (KATs), which use acyl-CoAs as acyl donors. Here, we revealed the novel role of the histone deacetylases HDAC1 and HDAC2 in histone acylation catalysis. Notably, we show that HDAC1 and HDAC2 directly catalyze sorbylation using sorbic acid, a common food preservative, in addition to facilitating desorbylation. This newly discovered HDAC1/2-driven histone sorbylation function is a distinctive active epigenetic mark that leads to widespread changes in the expression of genes, particularly those involved in cholesterol biosynthesis. Our findings reveal that HDAC1/2 are unique enzymes capable of catalyzing not only the removal but also formation of histone modifications in response to exogenous carboxylic acids such as sorbic acid and benzoic acid. Our results highlight the impact of carboxylic acids found in the environment, such as food additives, on gene expression changes that occur via histone lysine modification regulated by HDAC1 and HDAC2.</span></p>',
			'date' => '2025-01-30',
			'pmid' => 'https://www.researchsquare.com/article/rs-5847857/v1',
			'doi' => 'https://doi.org/10.21203/rs.3.rs-5847857/v1',
			'modified' => '2025-02-04 09:27:45',
			'created' => '2025-02-04 09:27:45',
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		),
		(int) 2 => array(
			'id' => '4998',
			'name' => 'The molecular consequences of FOXF1 missense mutations associated with alveolar capillary dysplasia with misalignment of pulmonary veins',
			'authors' => 'G. G. Edel et al.',
			'description' => '<h3 class="c-article__sub-heading" data-test="abstract-sub-heading">Background</h3>
<p>Alveolar capillary dysplasia with misalignment of pulmonary veins (ACD/MPV) is a fatal congenital lung disorder strongly associated with genomic alterations in the Forkhead box F1 (FOXF1) gene and its regulatory region. However, little is known about how FOXF1 genomic alterations cause ACD/MPV and what molecular mechanisms are affected by these mutations. Therefore, the effect of ACD/MPV patient-specific mutations in the<span>&nbsp;</span><i>FOXF1</i><span>&nbsp;</span>gene on the molecular function of FOXF1 was studied.</p>
<h3 class="c-article__sub-heading" data-test="abstract-sub-heading">Methods</h3>
<p>Epitope-tagged FOXF1 constructs containing one of the ACD/MPV-associated mutations were expressed in mammalian cell lines to study the effect of FOXF1 mutations on protein function. EMSA binding assays and luciferase assays were performed to study the effect on target gene binding and activation. Immunoprecipitation followed by SDS‒PAGE and western blotting were used to study protein‒protein interactions. Protein phosphorylation was studied using phos-tag western blotting.</p>
<h3 class="c-article__sub-heading" data-test="abstract-sub-heading">Results</h3>
<p>An overview of the localization of ACD/MPV-associated FOXF1 mutations revealed that the G91-S101 region was frequently mutated. A three-dimensional model of the forkhead DNA-binding domain of FOXF1 showed that the G91-S101 region consists of an &alpha;-helix and is predicted to be important for DNA binding. We showed that FOXF1 missense mutations in this region differentially affect the DNA binding of the FOXF1 protein and influence the transcriptional regulation of target genes depending on the location of the mutation. Furthermore, we showed that some of these mutations can affect the FOXF1 protein at the posttranscriptional level, as shown by altered phosphorylation by MST1 and MST2 kinases.</p>
<h3 class="c-article__sub-heading" data-test="abstract-sub-heading">Conclusion</h3>
<p>Missense mutations in the coding region of the<span>&nbsp;</span><i>FOXF1</i><span>&nbsp;</span>gene alter the molecular function of the FOXF1 protein at multiple levels, such as phosphorylation, DNA binding and target gene activation. These results indicate that FOXF1 molecular pathways may be differentially affected in ACD/MPV patients carrying missense mutations in the DNA-binding domain and may explain the phenotypic heterogeneity of ACD/MPV.</p>',
			'date' => '2024-11-04',
			'pmid' => 'https://link.springer.com/article/10.1186/s12929-024-01088-5',
			'doi' => 'https://doi.org/10.1186/s12929-024-01088-5',
			'modified' => '2024-11-07 11:27:34',
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			'id' => '4972',
			'name' => 'Two-factor authentication underpins the precision of the piRNA pathway',
			'authors' => 'Dias Mirandela M. et al.',
			'description' => '<p><span>The PIWI-interacting RNA (piRNA) pathway guides the DNA methylation of young, active transposons during germline development in male mice</span><span>. piRNAs tether the PIWI protein MIWI2 (PIWIL4) to the nascent transposon transcript, resulting in DNA methylation through SPOCD1</span><span>. Transposon methylation requires great precision: every copy needs to be methylated but off-target methylation must be avoided. However, the underlying mechanisms that ensure this precision remain unknown. Here, we show that SPOCD1 interacts directly with SPIN1 (SPINDLIN1), a chromatin reader that primarily binds to H3K4me3-K9me3</span><span>. The prevailing assumption is that all the molecular events required for piRNA-directed DNA methylation occur after the engagement of MIWI2. We find that SPIN1 expression precedes that of both SPOCD1 and MIWI2. Furthermore, we demonstrate that young LINE1 copies, but not old ones, are marked by H3K4me3, H3K9me3 and SPIN1 before the initiation of piRNA-directed DNA methylation. We generated a<span>&nbsp;</span></span><i>Spocd1</i><span><span>&nbsp;</span>separation-of-function allele in the mouse that encodes a SPOCD1 variant that no longer interacts with SPIN1. We found that the interaction between SPOCD1 and SPIN1 is essential for spermatogenesis and piRNA-directed DNA methylation of young LINE1 elements. We propose that piRNA-directed LINE1 DNA methylation requires a developmentally timed two-factor authentication process. The first authentication is the recruitment of SPIN1&ndash;SPOCD1 to the young LINE1 promoter, and the second is MIWI2 engagement with the nascent transcript. In summary, independent authentication events underpin the precision of piRNA-directed LINE1 DNA methylation.</span></p>',
			'date' => '2024-09-18',
			'pmid' => 'https://www.nature.com/articles/s41586-024-07963-3',
			'doi' => 'https://doi.org/10.1038/s41586-024-07963-3',
			'modified' => '2024-09-23 10:02:22',
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		(int) 4 => array(
			'id' => '4827',
			'name' => 'Transcription factor EGR2 controls homing and pathogenicity of T17cells in the central nervous system.',
			'authors' => 'Gao  Y. et al.',
			'description' => '<p>CD4 T helper 17 (T17) cells protect barrier tissues but also trigger autoimmunity. The mechanisms behind these opposing processes remain unclear. Here, we found that the transcription factor EGR2 controlled the transcriptional program of pathogenic T17 cells in the central nervous system (CNS) but not that of protective T17 cells at barrier sites. EGR2 was significantly elevated in myelin-reactive CD4 T cells from patients with multiple sclerosis and mice with autoimmune neuroinflammation. The EGR2 transcriptional program was intricately woven within the T17 cell transcriptional regulatory network and showed high interconnectivity with core T17 cell-specific transcription factors. Mechanistically, EGR2 enhanced T17 cell differentiation and myeloid cell recruitment to the CNS by upregulating pathogenesis-associated genes and myelomonocytic chemokines. T cell-specific deletion of Egr2 attenuated neuroinflammation without compromising the host's ability to control infections. Our study shows that EGR2 regulates tissue-specific and disease-specific functions in pathogenic T17 cells in the CNS.</p>',
			'date' => '2023-08-01',
			'pmid' => 'https://www.ncbi.nlm.nih.gov/pubmed/37443284',
			'doi' => '10.1038/s41590-023-01553-7',
			'modified' => '2023-08-01 13:35:13',
			'created' => '2023-08-01 15:59:38',
			'ProductsPublication' => array(
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			)
		),
		(int) 5 => array(
			'id' => '4671',
			'name' => 'The Hdc GC box is critical for Hdc gene transcription andhistamine-mediated anaphylaxis.',
			'authors' => 'Li  Y. et al.',
			'description' => '<p>BACKGROUND: Histamine is a critical mediator of anaphylaxis, a neurotransmitter, and a regulator of gastric acid secretion. Histidine decarboxylase is a rate-limiting enzyme for histamine synthesis. However, in vivo regulation of Hdc, the gene that encodes histidine decarboxylase is poorly understood. OBJECTIVE: We sought to investigate how enhancers regulate Hdc gene transcription and histamine synthesis in resting conditions and in a mouse model of anaphylaxis. METHODS: H3K27 acetylation histone modification and chromatin accessibility were used to identify candidate enhancers; The enhancer activity of candidate enhancers was measured in a reporter gene assay; and the function enhancers were validated using CRISPR deletion. RESULTS: Deletion of the GC box, which binds to zinc finger transcription factors, in the proximal Hdc enhancer, reduced Hdc gene transcription and histamine synthesis in the mouse and human mast cell lines. Mast cells, basophils, brain cells, and stomach cells from GC box-deficient mice transcribed the Hdc gene much less than similar cells from wild-type mice and Hdc GC box-deficient mice failed to develop anaphylaxis. CONCLUSION: Our results demonstrate that the HDC GC box within the proximal enhancer in the mouse and human HDC gene is essential for Hdc gene transcription, histamine synthesis, and histamine-mediated anaphylaxis in vitro and in vivo.</p>',
			'date' => '2023-02-01',
			'pmid' => 'https://doi.org/10.1016%2Fj.jaci.2023.01.031',
			'doi' => '10.1016/j.jaci.2023.01.031',
			'modified' => '2023-04-11 10:29:30',
			'created' => '2023-02-28 12:19:11',
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		(int) 6 => array(
			'id' => '4873',
			'name' => 'Retrospective analysis of enhancer activity and transcriptome history.',
			'authors' => 'Boers  R. et al.',
			'description' => '<p>Cell state changes in development and disease are controlled by gene regulatory networks, the dynamics of which are difficult to track in real time. In this study, we used an inducible DCM-RNA polymerase subunit b fusion protein which labels active genes and enhancers with a bacterial methylation mark that does not affect gene transcription and is propagated in S-phase. This DCM-RNA polymerase fusion protein enables transcribed genes and active enhancers to be tagged and then examined at later stages of development or differentiation. We apply this DCM-time machine (DCM-TM) technology to study intestinal homeostasis, revealing rapid and coordinated activation of enhancers and nearby genes during enterocyte differentiation. We provide new insights in absorptive-secretory lineage decision-making in intestinal stem cell (ISC) differentiation and show that ISCs retain a unique chromatin landscape required to maintain ISC identity and delineate future expression of differentiation-associated genes. DCM-TM has wide applicability in tracking cell states, providing new insights in the regulatory networks underlying cell state changes.</p>',
			'date' => '2023-02-01',
			'pmid' => 'https://www.ncbi.nlm.nih.gov/pubmed/36823354',
			'doi' => '10.1038/s41587-023-01683-1',
			'modified' => '2023-11-10 09:13:54',
			'created' => '2023-09-01 14:23:20',
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		(int) 7 => array(
			'id' => '4627',
			'name' => 'Simultaneous profiling of histone modifications and DNA methylation viananopore sequencing.',
			'authors' => 'Yue  X. et al.',
			'description' => '<p>The interplay between histone modifications and DNA methylation drives the establishment and maintenance of the cellular epigenomic landscape, but it remains challenging to investigate the complex relationship between these epigenetic marks across the genome. Here we describe a nanopore-sequencing-based-method, nanoHiMe-seq, for interrogating the genome-wide localization of histone modifications and DNA methylation from single DNA molecules. nanoHiMe-seq leverages a nonspecific methyltransferase to exogenously label adenine bases proximal to antibody-targeted modified nucleosomes in situ. The labelled adenines and the endogenous methylated CpG sites are simultaneously detected on individual nanopore reads using a hidden Markov model, which is implemented in the nanoHiMe software package. We demonstrate the utility, robustness and sensitivity of nanoHiMe-seq by jointly profiling DNA methylation and histone modifications at low coverage depths, concurrently determining phased patterns of DNA methylation and histone modifications, and probing the intrinsic connectivity between these epigenetic marks across the genome.</p>',
			'date' => '2022-12-01',
			'pmid' => 'https://www.ncbi.nlm.nih.gov/pubmed/36566265',
			'doi' => '10.1038/s41467-022-35650-2',
			'modified' => '2023-03-28 08:59:26',
			'created' => '2023-02-21 09:59:46',
			'ProductsPublication' => array(
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		),
		(int) 8 => array(
			'id' => '4550',
			'name' => 'A SOX2-engineered epigenetic silencer factor represses the glioblastomagenetic program and restrains tumor development.',
			'authors' => 'Benedetti  V. et al.',
			'description' => '<p>Current therapies remain unsatisfactory in preventing the recurrence of glioblastoma multiforme (GBM), which leads to poor patient survival. By rational engineering of the transcription factor SOX2, a key promoter of GBM malignancy, together with the Kruppel-associated box and DNA methyltransferase3A/L catalytic domains, we generated a synthetic repressor named SOX2 epigenetic silencer (SES), which induces the transcriptional silencing of its original targets. By doing so, SES kills both glioma cell lines and patient-derived cancer stem cells in vitro and in vivo. SES expression, through local viral delivery in mouse xenografts, induces strong regression of human tumors and survival rescue. Conversely, SES is not harmful to neurons and glia, also thanks to a minimal promoter that restricts its expression in mitotically active cells, rarely present in the brain parenchyma. Collectively, SES produces a significant silencing of a large fraction of the SOX2 transcriptional network, achieving high levels of efficacy in repressing aggressive brain tumors.</p>',
			'date' => '2022-08-01',
			'pmid' => 'https://pubmed.ncbi.nlm.nih.gov/35921410/',
			'doi' => '10.1126/sciadv.abn3986',
			'modified' => '2023-09-28 11:26:02',
			'created' => '2022-11-24 08:49:52',
			'ProductsPublication' => array(
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		(int) 9 => array(
			'id' => '4836',
			'name' => 'Caffeine intake exerts dual genome-wide effects on hippocampal metabolismand learning-dependent transcription.',
			'authors' => 'Paiva  I. et al.',
			'description' => '<p>Caffeine is the most widely consumed psychoactive substance in the world. Strikingly, the molecular pathways engaged by its regular consumption remain unclear. We herein addressed the mechanisms associated with habitual (chronic) caffeine consumption in the mouse hippocampus using untargeted orthogonal omics techniques. Our results revealed that chronic caffeine exerts concerted pleiotropic effects in the hippocampus at the epigenomic, proteomic, and metabolomic levels. Caffeine lowered metabolism-related processes (e.g., at the level of metabolomics and gene expression) in bulk tissue, while it induced neuron-specific epigenetic changes at synaptic transmission/plasticity-related genes and increased experience-driven transcriptional activity. Altogether, these findings suggest that regular caffeine intake improves the signal-to-noise ratio during information encoding, in part through fine-tuning of metabolic genes, while boosting the salience of information processing during learning in neuronal circuits.</p>',
			'date' => '2022-06-01',
			'pmid' => 'https://www.ncbi.nlm.nih.gov/pubmed/35536645',
			'doi' => '10.1172/JCI149371',
			'modified' => '2023-08-01 13:52:29',
			'created' => '2023-08-01 15:59:38',
			'ProductsPublication' => array(
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		(int) 10 => array(
			'id' => '4263',
			'name' => 'ATRX regulates glial identity and the tumor microenvironment inIDH-mutant glioma',
			'authors' => 'Babikir, Husam and Wang, Lin and Shamardani, Karin andCatalan, Francisca and Sudhir, Sweta and Aghi, Manish K. andRaleigh, David R. and Phillips, Joanna J. and Diaz, AaronA.',
			'description' => '<p>Background Recent single-cell transcriptomic studies report that IDH-mutant gliomas share a common hierarchy of cellular phenotypes, independent of genetic subtype. However, the genetic differences between IDH-mutant glioma subtypes are prognostic, predictive of response to chemotherapy, and correlate with distinct tumor microenvironments. Results To reconcile these findings, we profile 22 human IDH-mutant gliomas using scATAC-seq and scRNA-seq. We determine the cell-type-specific differences in transcription factor expression and associated regulatory grammars between IDH-mutant glioma subtypes. We find that while IDH-mutant gliomas do share a common distribution of cell types, there are significant differences in the expression and targeting of transcription factors that regulate glial identity and cytokine elaboration. We knock out the chromatin remodeler ATRX, which suffers loss-of-function alterations in most IDH-mutant astrocytomas, in an IDH-mutant immunocompetent intracranial murine model. We find that both human ATRX-mutant gliomas and murine ATRX-knockout gliomas are more heavily infiltrated by immunosuppressive monocytic-lineage cells derived from circulation than ATRX-intact gliomas, in an IDH-mutant background. ATRX knockout in murine glioma recapitulates gene expression and open chromatin signatures that are specific to human ATRX-mutant astrocytomas, including drivers of astrocytic lineage and immune-cell chemotaxis. Through single-cell cleavage under targets and tagmentation assays and meta-analysis of public data, we show that ATRX loss leads to a global depletion in CCCTC-binding factor association with DNA, gene dysregulation along associated chromatin loops, and protection from therapy-induced senescence. Conclusions These studies explain how IDH-mutant gliomas from different subtypes maintain distinct phenotypes and tumor microenvironments despite a common lineage hierarchy. Supplementary Information The online version contains supplementary material available at 10.1186/s13059-021-02535-4.</p>',
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			'description' => '<p>The molecular mechanisms governing orderly shutdown and retraction of CD4+ T helper (Th)1 responses remain poorly understood. Here, we show that complement triggers contraction of Th1 responses by inducing intrinsic expression of the vitamin D (VitD) receptor (VDR) and the VitD-activating enzyme CYP27B1, permitting T cells to both activate and respond to VitD. VitD then initiated transition from pro-inflammatory IFN-&gamma; + Th1 cells to suppressive IL-10+ cells. This process was primed by dynamic changes in the epigenetic landscape of CD4+ T cells, generating super-enhancers and recruiting several transcription factors, notably c-JUN, STAT3 and BACH2, which together with VDR shaped the transcriptional response to VitD. Accordingly, VitD did not induce IL-10 in cells with dysfunctional BACH2 or STAT3. Bronchoalveolar lavage fluid CD4+ T cells of COVID-19 patients were Th1-skewed and showed de-repression of genes down-regulated by VitD, either from lack of substrate (VitD deficiency) and/or abnormal regulation of this system.</p>',
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<p><strong>pA-Tn5 transposase</strong> is a fusion protein of hyperactive Tn5 transposase and protein A developed for the <strong>CUT&amp;Tag assay</strong>. For convenience, the fusion protein is pre-loaded with sequencing adapters. Diagenode pA-Tn5 transposase is compatible with CUT&amp;Tag and other antibody-tethered Tn5 based methods, like ACT-seq and CoBATCH.</p>
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<p><strong>pA-Tn5 Transposase</strong></p>
<ul style="list-style-type: circle;">
<li>High enrichment and specificity of the signal around the TSS</li>
<li>No contamination<span style="font-weight: 400;"> with </span><i><span style="font-weight: 400;">E. coli</span></i><span style="font-weight: 400;"> DNA</span></li>
<li><span style="font-weight: 400;">Flexible versions: loaded or <a href="https://www.diagenode.com/en/p/pa-tn5-transposase-unloaded">unloaded</a><br /></span></li>
<li><span style="font-weight: 400;">Excellent for CUT&amp;Tag </span></li>
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<p>As it is crucial to target only the protein of interest, a highly specific antibody is critical for the success of the CUT&amp;Tag assay. All Diagenode ChIP-seq grade antibodies are validated for specificity using strict validation criteria to assure <a href="https://www.diagenode.com/en/pages/cut-and-tag" target="_blank">high performance in CUT&amp;Tag</a>.</p>
<p class="lead"><strong>Check out all products recommended for CUT&amp;Tag assay</strong>:</p>
<ul class="nobullet" style="list-style-type: circle;">
<li><a href="https://www.diagenode.com/en/p/ideal-cut-and-tag-kit-for-histones-24">iDeal CUT&amp;Tag kit for Histones</a>&nbsp;- compatible with histome marks and some transcription factors</li>
<li>pA/Tn5 Transposase (loaded or <a href="https://www.diagenode.com/en/products/view/3065" target="_blank">unloaded</a>)</li>
<li><a href="https://www.diagenode.com/en/applications/cut-and-tag">CUT&amp;Tag grade</a> and <a href="https://www.diagenode.com/en/categories/chip-seq-grade-antibodies">ChIP-seq grade</a> antibodies</li>
<li>Negative &amp; positive CUT&amp;Tag controls:&nbsp;<span>Antibody Package for CUT&amp;Tag: <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antirabbit-24">anti-rabbit</a> and <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antimouse-24">anti-mouse</a></span></li>
<li>DNA purification: <a href="https://www.diagenode.com/en/p/ipure-kit-v2-x24">IPure kit v2</a> or <a href="https://www.diagenode.com/en/p/microchip-diapure-columns-50-rxns">MicroChIP DiaPure columns</a></li>
<li>Sequencing indexes: <a href="https://www.diagenode.com/en/p/24-si-for-tagmented-libraries">single indexes</a> and <a href="https://www.diagenode.com/en/p/24-unique-dual-indexes-for-tagmented-libraries-set1">UDI</a></li>
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<div class="small-12 medium-12 large-12 columns">A.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K4me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-a.png" width="800" height="374" /></center><br /> B.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K9me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-b.png" width="800" height="374" /></center><br /> C.<br /><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-c.png" width="800" height="374" /></center></div>
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<p><strong>Figure 1.</strong> Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (A), <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">H3K9me3</a> (B) and <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (C) data obtained using Diagenode pA-Tn5 fusion protein (C01070001) and CUT&amp;Tag protocol (Kaya-Okur, H.S., Nat Commun 10, 1930 (2019)) at selected loci. CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), H3K27me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>) and H3K9me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">C15410193</a>).</p>
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<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-a.png" /></center></div>
<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K4me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-b.png" /></center></div>
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<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">
<p><strong>Figure 2.</strong> CUT&amp;Tag profiles show typical enrichments specific for a given histone mark. Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (red) and <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (green) are shown at selected loci. H3K27me3, which marks inactive regions (red), does not show enrichment over open chromatin regions, marked by H3K4me3 (green). CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), and H3K27me3 polyclonal ChIP-seq grade (Cat. No.<a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>).</p>
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<p><strong>pA-Tn5 transposase</strong> is a fusion protein of hyperactive Tn5 transposase and protein A developed for the <strong>CUT&amp;Tag assay</strong>. For convenience, the fusion protein is pre-loaded with sequencing adapters. Diagenode pA-Tn5 transposase is compatible with CUT&amp;Tag and other antibody-tethered Tn5 based methods, like ACT-seq and CoBATCH.</p>
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<p><strong>pA-Tn5 Transposase</strong></p>
<ul style="list-style-type: circle;">
<li>High enrichment and specificity of the signal around the TSS</li>
<li>No contamination<span style="font-weight: 400;"> with </span><i><span style="font-weight: 400;">E. coli</span></i><span style="font-weight: 400;"> DNA</span></li>
<li><span style="font-weight: 400;">Flexible versions: loaded or <a href="https://www.diagenode.com/en/p/pa-tn5-transposase-unloaded">unloaded</a><br /></span></li>
<li><span style="font-weight: 400;">Excellent for CUT&amp;Tag </span></li>
</ul>
<p>As it is crucial to target only the protein of interest, a highly specific antibody is critical for the success of the CUT&amp;Tag assay. All Diagenode ChIP-seq grade antibodies are validated for specificity using strict validation criteria to assure <a href="https://www.diagenode.com/en/pages/cut-and-tag" target="_blank">high performance in CUT&amp;Tag</a>.</p>
<p class="lead"><strong>Check out all products recommended for CUT&amp;Tag assay</strong>:</p>
<ul class="nobullet" style="list-style-type: circle;">
<li><a href="https://www.diagenode.com/en/p/ideal-cut-and-tag-kit-for-histones-24">iDeal CUT&amp;Tag kit for Histones</a>&nbsp;- compatible with histome marks and some transcription factors</li>
<li>pA/Tn5 Transposase (loaded or <a href="https://www.diagenode.com/en/products/view/3065" target="_blank">unloaded</a>)</li>
<li><a href="https://www.diagenode.com/en/applications/cut-and-tag">CUT&amp;Tag grade</a> and <a href="https://www.diagenode.com/en/categories/chip-seq-grade-antibodies">ChIP-seq grade</a> antibodies</li>
<li>Negative &amp; positive CUT&amp;Tag controls:&nbsp;<span>Antibody Package for CUT&amp;Tag: <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antirabbit-24">anti-rabbit</a> and <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antimouse-24">anti-mouse</a></span></li>
<li>DNA purification: <a href="https://www.diagenode.com/en/p/ipure-kit-v2-x24">IPure kit v2</a> or <a href="https://www.diagenode.com/en/p/microchip-diapure-columns-50-rxns">MicroChIP DiaPure columns</a></li>
<li>Sequencing indexes: <a href="https://www.diagenode.com/en/p/24-si-for-tagmented-libraries">single indexes</a> and <a href="https://www.diagenode.com/en/p/24-unique-dual-indexes-for-tagmented-libraries-set1">UDI</a></li>
</ul>',
		'label1' => 'Validation Data',
		'info1' => '<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">A.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K4me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-a.png" width="800" height="374" /></center><br /> B.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K9me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-b.png" width="800" height="374" /></center><br /> C.<br /><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-c.png" width="800" height="374" /></center></div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">
<p><strong>Figure 1.</strong> Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (A), <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">H3K9me3</a> (B) and <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (C) data obtained using Diagenode pA-Tn5 fusion protein (C01070001) and CUT&amp;Tag protocol (Kaya-Okur, H.S., Nat Commun 10, 1930 (2019)) at selected loci. CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), H3K27me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>) and H3K9me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">C15410193</a>).</p>
</div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-a.png" /></center></div>
<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K4me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-b.png" /></center></div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">
<p><strong>Figure 2.</strong> CUT&amp;Tag profiles show typical enrichments specific for a given histone mark. Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (red) and <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (green) are shown at selected loci. H3K27me3, which marks inactive regions (red), does not show enrichment over open chromatin regions, marked by H3K4me3 (green). CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), and H3K27me3 polyclonal ChIP-seq grade (Cat. No.<a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>).</p>
</div>
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	'name' => 'pA-Tn5 Transposase - loaded',
	'description' => '<div class="row">
<div class="small-12 medium-8 large-8 columns"><br />
<p><strong>pA-Tn5 transposase</strong> is a fusion protein of hyperactive Tn5 transposase and protein A developed for the <strong>CUT&amp;Tag assay</strong>. For convenience, the fusion protein is pre-loaded with sequencing adapters. Diagenode pA-Tn5 transposase is compatible with CUT&amp;Tag and other antibody-tethered Tn5 based methods, like ACT-seq and CoBATCH.</p>
</div>
<div class="small-12 medium-4 large-4 columns"><center>
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<p><strong>pA-Tn5 Transposase</strong></p>
<ul style="list-style-type: circle;">
<li>High enrichment and specificity of the signal around the TSS</li>
<li>No contamination<span style="font-weight: 400;"> with </span><i><span style="font-weight: 400;">E. coli</span></i><span style="font-weight: 400;"> DNA</span></li>
<li><span style="font-weight: 400;">Flexible versions: loaded or <a href="https://www.diagenode.com/en/p/pa-tn5-transposase-unloaded">unloaded</a><br /></span></li>
<li><span style="font-weight: 400;">Excellent for CUT&amp;Tag </span></li>
</ul>
<p>As it is crucial to target only the protein of interest, a highly specific antibody is critical for the success of the CUT&amp;Tag assay. All Diagenode ChIP-seq grade antibodies are validated for specificity using strict validation criteria to assure <a href="https://www.diagenode.com/en/pages/cut-and-tag" target="_blank">high performance in CUT&amp;Tag</a>.</p>
<p class="lead"><strong>Check out all products recommended for CUT&amp;Tag assay</strong>:</p>
<ul class="nobullet" style="list-style-type: circle;">
<li><a href="https://www.diagenode.com/en/p/ideal-cut-and-tag-kit-for-histones-24">iDeal CUT&amp;Tag kit for Histones</a>&nbsp;- compatible with histome marks and some transcription factors</li>
<li>pA/Tn5 Transposase (loaded or <a href="https://www.diagenode.com/en/products/view/3065" target="_blank">unloaded</a>)</li>
<li><a href="https://www.diagenode.com/en/applications/cut-and-tag">CUT&amp;Tag grade</a> and <a href="https://www.diagenode.com/en/categories/chip-seq-grade-antibodies">ChIP-seq grade</a> antibodies</li>
<li>Negative &amp; positive CUT&amp;Tag controls:&nbsp;<span>Antibody Package for CUT&amp;Tag: <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antirabbit-24">anti-rabbit</a> and <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antimouse-24">anti-mouse</a></span></li>
<li>DNA purification: <a href="https://www.diagenode.com/en/p/ipure-kit-v2-x24">IPure kit v2</a> or <a href="https://www.diagenode.com/en/p/microchip-diapure-columns-50-rxns">MicroChIP DiaPure columns</a></li>
<li>Sequencing indexes: <a href="https://www.diagenode.com/en/p/24-si-for-tagmented-libraries">single indexes</a> and <a href="https://www.diagenode.com/en/p/24-unique-dual-indexes-for-tagmented-libraries-set1">UDI</a></li>
</ul>',
	'label1' => 'Validation Data',
	'info1' => '<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">A.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K4me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-a.png" width="800" height="374" /></center><br /> B.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K9me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-b.png" width="800" height="374" /></center><br /> C.<br /><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-c.png" width="800" height="374" /></center></div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">
<p><strong>Figure 1.</strong> Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (A), <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">H3K9me3</a> (B) and <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (C) data obtained using Diagenode pA-Tn5 fusion protein (C01070001) and CUT&amp;Tag protocol (Kaya-Okur, H.S., Nat Commun 10, 1930 (2019)) at selected loci. CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), H3K27me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>) and H3K9me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">C15410193</a>).</p>
</div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-a.png" /></center></div>
<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K4me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-b.png" /></center></div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">
<p><strong>Figure 2.</strong> CUT&amp;Tag profiles show typical enrichments specific for a given histone mark. Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (red) and <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (green) are shown at selected loci. H3K27me3, which marks inactive regions (red), does not show enrichment over open chromatin regions, marked by H3K4me3 (green). CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), and H3K27me3 polyclonal ChIP-seq grade (Cat. No.<a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>).</p>
</div>
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	'description' => '<p>We are really happy to use the loaded pA-Tn5 for CUT&amp;Tag. Easy to use and reproductible for samples with a starting low number of cells. Besides, Diagenode has a great customer service and technical support which are really responsive.</p>',
	'author' => 'Cathy NGUYEN, CNRGH, Evry-Courcouronnes, France.',
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	'description' => '<div class="row">
<div class="small-12 medium-8 large-8 columns"><br />
<p><strong>pA-Tn5 transposase</strong> is a fusion protein of hyperactive Tn5 transposase and protein A developed for the <strong>CUT&amp;Tag assay</strong>. For convenience, the fusion protein is pre-loaded with sequencing adapters. Diagenode pA-Tn5 transposase is compatible with CUT&amp;Tag and other antibody-tethered Tn5 based methods, like ACT-seq and CoBATCH.</p>
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<script>// <![CDATA[
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<p><strong>pA-Tn5 Transposase</strong></p>
<ul style="list-style-type: circle;">
<li>High enrichment and specificity of the signal around the TSS</li>
<li>No contamination<span style="font-weight: 400;"> with </span><i><span style="font-weight: 400;">E. coli</span></i><span style="font-weight: 400;"> DNA</span></li>
<li><span style="font-weight: 400;">Flexible versions: loaded or <a href="https://www.diagenode.com/en/p/pa-tn5-transposase-unloaded">unloaded</a><br /></span></li>
<li><span style="font-weight: 400;">Excellent for CUT&amp;Tag </span></li>
</ul>
<p>As it is crucial to target only the protein of interest, a highly specific antibody is critical for the success of the CUT&amp;Tag assay. All Diagenode ChIP-seq grade antibodies are validated for specificity using strict validation criteria to assure <a href="https://www.diagenode.com/en/pages/cut-and-tag" target="_blank">high performance in CUT&amp;Tag</a>.</p>
<p class="lead"><strong>Check out all products recommended for CUT&amp;Tag assay</strong>:</p>
<ul class="nobullet" style="list-style-type: circle;">
<li><a href="https://www.diagenode.com/en/p/ideal-cut-and-tag-kit-for-histones-24">iDeal CUT&amp;Tag kit for Histones</a>&nbsp;- compatible with histome marks and some transcription factors</li>
<li>pA/Tn5 Transposase (loaded or <a href="https://www.diagenode.com/en/products/view/3065" target="_blank">unloaded</a>)</li>
<li><a href="https://www.diagenode.com/en/applications/cut-and-tag">CUT&amp;Tag grade</a> and <a href="https://www.diagenode.com/en/categories/chip-seq-grade-antibodies">ChIP-seq grade</a> antibodies</li>
<li>Negative &amp; positive CUT&amp;Tag controls:&nbsp;<span>Antibody Package for CUT&amp;Tag: <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antirabbit-24">anti-rabbit</a> and <a href="https://www.diagenode.com/en/p/antibody-package-cut-and-tag-antimouse-24">anti-mouse</a></span></li>
<li>DNA purification: <a href="https://www.diagenode.com/en/p/ipure-kit-v2-x24">IPure kit v2</a> or <a href="https://www.diagenode.com/en/p/microchip-diapure-columns-50-rxns">MicroChIP DiaPure columns</a></li>
<li>Sequencing indexes: <a href="https://www.diagenode.com/en/p/24-si-for-tagmented-libraries">single indexes</a> and <a href="https://www.diagenode.com/en/p/24-unique-dual-indexes-for-tagmented-libraries-set1">UDI</a></li>
</ul>',
	'label1' => 'Validation Data',
	'info1' => '<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">A.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K4me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-a.png" width="800" height="374" /></center><br /> B.<br /><center><img alt="pA-Tn5 Transposase loaded  H3K9me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-b.png" width="800" height="374" /></center><br /> C.<br /><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation" src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-1-c.png" width="800" height="374" /></center></div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">
<p><strong>Figure 1.</strong> Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (A), <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">H3K9me3</a> (B) and <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (C) data obtained using Diagenode pA-Tn5 fusion protein (C01070001) and CUT&amp;Tag protocol (Kaya-Okur, H.S., Nat Commun 10, 1930 (2019)) at selected loci. CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), H3K27me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>) and H3K9me3 polyclonal ChIP-seq grade antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k9me3-polyclonal-antibody-premium-50-mg">C15410193</a>).</p>
</div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K27me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-a.png" /></center></div>
<div class="small-12 medium-6 large-6 columns"><center><img alt="pA-Tn5 Transposase loaded H3K4me3 Validation " src="https://www.diagenode.com/img/product/cutandtag/pa-tn5-loaded-fig-2-b.png" /></center></div>
</div>
<div class="row extra-spaced">
<div class="small-12 medium-12 large-12 columns">
<p><strong>Figure 2.</strong> CUT&amp;Tag profiles show typical enrichments specific for a given histone mark. Representative screenshots for <a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">H3K27me3</a> (red) and <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">H3K4me3</a> (green) are shown at selected loci. H3K27me3, which marks inactive regions (red), does not show enrichment over open chromatin regions, marked by H3K4me3 (green). CUT&amp;Tag was performed using 50,000 of K562 cells and Diagenode H3K4me3 polyclonal ChIP-seq antibody (Cat. No. <a href="https://www.diagenode.com/en/p/h3k4me3-polyclonal-antibody-premium-50-ug-50-ul">C15410003</a>), and H3K27me3 polyclonal ChIP-seq grade (Cat. No.<a href="https://www.diagenode.com/en/p/h3k27me3-polyclonal-antibody-premium-50-mg-27-ml">C15410195</a>).</p>
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	'slug' => 'pa-tn5-transposase-loaded-100',
	'meta_title' => 'pA-Tn5 Transposase (loaded) developed for the CUT&Tag assay | Diagenode.com',
	'meta_keywords' => '',
	'meta_description' => 'Diagenode pA-Tn5 Transposase (loaded) is a fusion protein of hyperactive Tn5 transposase and protein A developed for the CUT&Tag assay. For convenience, the fusion protein is pre-loaded with sequencing adapters.',
	'modified' => '2024-08-29 10:35:51',
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$document = array(
	'id' => '1078',
	'name' => 'pA-TN5 transposase (loaded) datasheet',
	'description' => '<p>pA-Tn5 Transposase is a fusion protein of hyperactive Tn5 transposase and protein A developed for the CUT&amp;Tag assay. For ease of use, the fusion protein is pre-loaded with sequencing adapters suitable for single or dual indexing in single or paired-end Illumina platforms. The adaptors contain 19-mer Tn5 mosaic ends and the sequences for PCR amplification with barcoded i7/i5.</p>',
	'image_id' => null,
	'type' => 'Datasheet',
	'url' => 'files/products/cutandtag/C01070001-pa-tn5-transposase-loaded.pdf',
	'slug' => 'c01070001-pa-tn5-transposase-loaded-tds',
	'meta_keywords' => '',
	'meta_description' => '',
	'modified' => '2020-04-28 16:49:59',
	'created' => '2020-04-28 16:43:37',
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$sds = array(
	'id' => '207',
	'name' => 'pA-Tn5 Transposase - loaded SDS JP ja',
	'language' => 'ja',
	'url' => 'files/SDS/pA-Tn5_Transposase/SDS-C01070001-pA-Tn5_Transposase_-_loaded-JP-ja-GHS_2_0.pdf',
	'countries' => 'JP',
	'modified' => '2020-06-08 16:05:33',
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	'name' => 'Autocrine Vitamin D-signaling switches off pro-inflammatory programsof Th1 cells',
	'authors' => 'Chauss D.et al.',
	'description' => '<p>The molecular mechanisms governing orderly shutdown and retraction of CD4+ T helper (Th)1 responses remain poorly understood. Here, we show that complement triggers contraction of Th1 responses by inducing intrinsic expression of the vitamin D (VitD) receptor (VDR) and the VitD-activating enzyme CYP27B1, permitting T cells to both activate and respond to VitD. VitD then initiated transition from pro-inflammatory IFN-&gamma; + Th1 cells to suppressive IL-10+ cells. This process was primed by dynamic changes in the epigenetic landscape of CD4+ T cells, generating super-enhancers and recruiting several transcription factors, notably c-JUN, STAT3 and BACH2, which together with VDR shaped the transcriptional response to VitD. Accordingly, VitD did not induce IL-10 in cells with dysfunctional BACH2 or STAT3. Bronchoalveolar lavage fluid CD4+ T cells of COVID-19 patients were Th1-skewed and showed de-repression of genes down-regulated by VitD, either from lack of substrate (VitD deficiency) and/or abnormal regulation of this system.</p>',
	'date' => '2021-10-01',
	'pmid' => 'https://www.ncbi.nlm.nih.gov/pubmed/34764490',
	'doi' => '10.1038/s41590-021-01080-3',
	'modified' => '2022-05-19 16:57:27',
	'created' => '2022-05-19 10:41:50',
	'ProductsPublication' => array(
		'id' => '5630',
		'product_id' => '3066',
		'publication_id' => '4233'
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)
$externalLink = ' <a href="https://www.ncbi.nlm.nih.gov/pubmed/34764490" target="_blank"><i class="fa fa-external-link"></i></a>'
include - APP/View/Products/view.ctp, line 755
View::_evaluate() - CORE/Cake/View/View.php, line 971
View::_render() - CORE/Cake/View/View.php, line 933
View::render() - CORE/Cake/View/View.php, line 473
Controller::render() - CORE/Cake/Controller/Controller.php, line 963
ProductsController::slug() - APP/Controller/ProductsController.php, line 1052
ReflectionMethod::invokeArgs() - [internal], line ??
Controller::invokeAction() - CORE/Cake/Controller/Controller.php, line 491
Dispatcher::_invoke() - CORE/Cake/Routing/Dispatcher.php, line 193
Dispatcher::dispatch() - CORE/Cake/Routing/Dispatcher.php, line 167
[main] - APP/webroot/index.php, line 118

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