Diagenode

D-Plex Unique Dual Indexes for Illumina - Set A

Catalog Number
Format
Price
C05030021
24 rxns
$360.00

D-Plex Unique Dual Indexes Module - Set A includes primer pairs with 24 unique dual barcodes (unique i5 and i7 indexes) for library multiplexing with the D-Plex Small RNA-seq Kit

The use of UDI is highly recommended to mitigate errors introduced by read misassignment, including index hopping frequently observed with patterned flow cells such as Illumina’s NovaSeq system.

Four sets are available separately: 

Each set can be used for library multiplexing up to 24. Set A, B, C and D can be used simultaneously for library multiplexing up to 96.

Read more about the D-Plex technology. 

  • Characteristics
  • Multiplexing

    D-Plex RNA-seq UDI library constructs bear the TruSeq (Illumina) HT adapters. In case of a multiplexing scenario, it is therefore recommended to submit the D-Plex libraries as TruSeq HT libraries to your sequencing provider. Further details are provided in the D-Plex Unique Dual Indexes Module manual.

  •  Documents
  •  Safety sheets
    D-Plex Unique Dual Indexes for Illumina - Set A SDS GB en Download
    D-Plex Unique Dual Indexes for Illumina - Set A SDS US en Download
    D-Plex Unique Dual Indexes for Illumina - Set A SDS DE de Download
    D-Plex Unique Dual Indexes for Illumina - Set A SDS JP ja Download
    D-Plex Unique Dual Indexes for Illumina - Set A SDS BE nl Download
    D-Plex Unique Dual Indexes for Illumina - Set A SDS BE fr Download
    D-Plex Unique Dual Indexes for Illumina - Set A SDS FR fr Download
    D-Plex Unique Dual Indexes for Illumina - Set A SDS ES es Download
  •  Publications

    How to properly cite this product in your work

    Diagenode strongly recommends using this: D-Plex Unique Dual Indexes for Illumina - Set A (Diagenode Cat# C05030021). Click here to copy to clipboard.

    Using our products in your publication? Let us know!

    Pervasive translation of Xrn1-sensitive unstable long non-coding RNAs in yeast
    Andjus S. et al.
    Despite being predicted to lack coding potential, cytoplasmic long non-coding (lnc)RNAs can associate with ribosomes. However, the landscape and biological relevance of lncRNAs translation remains poorly studied. In yeast, cytoplasmic Xrn1-sensitive lncRNAs (XUTs) are targeted by the Nonsense-Mediated mRNA Decay (NM...

    Towards a human brain EV atlas: Characteristics of EVs from different brain regions, including small RNA and protein profiles.
    Huang Y. et al.
    Extracellular vesicles (EVs) are released from different cell types in the central nervous system (CNS) and play roles in regulating physiological and pathological functions. Although brain-derived EVs (bdEVs) have been successfully collected from brain tissue, there is not yet a "bdEV atlas" of EVs from different b...

    Translation is a key determinant controlling the fate of cytoplasmic long non-coding RNAs
    Andjus Sara et al.
    Despite predicted to lack coding potential, cytoplasmic long non-coding (lnc)RNAs can associate with ribosomes, resulting in some cases into the production of functional peptides. However, the biological and mechanistic relevance of this pervasive lncRNAs translation remains poorly studied. In yeast, cytoplasmic Xrn...

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