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Efficient DNA fluorescence labeling via base excision trapping

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Listed:
  • Yong Woong Jun

    (Stanford University)

  • Emily M. Harcourt

    (Le Moyne College)

  • Lu Xiao

    (Stanford University)

  • David L. Wilson

    (Stanford University)

  • Eric T. Kool

    (Stanford University)

Abstract

Fluorescence labeling of DNAs is broadly useful, but methods for labeling are expensive and labor-intensive. Here we describe a general method for fluorescence labeling of oligonucleotides readily and cost-efficiently via base excision trapping (BETr), employing deaminated DNA bases to mark label positions, which are excised by base excision repair enzymes generating AP sites. Specially designed aminooxy-substituted rotor dyes trap the AP sites, yielding high emission intensities. BETr is orthogonal to DNA synthesis by polymerases, enabling multi-uracil incorporation into an amplicon and in situ BETr labeling without washing. BETr also enables labeling of dsDNA such as genomic DNA at a high labeling density in a single tube by use of nick translation. Use of two different deaminated bases facilitates two-color site-specific labeling. Use of a multi-labeled DNA construct as a bright fluorescence tag is demonstrated through the conjugation to an antibody for imaging proteins. Finally, double-strand selectivity of a repair enzyme is harnessed in sensitive reporting on the presence of a target DNA or RNA in a mixture with isothermal turnover and single nucleotide specificity. Overall, the results document a convenient and versatile method for general fluorescence labeling of DNAs.

Suggested Citation

  • Yong Woong Jun & Emily M. Harcourt & Lu Xiao & David L. Wilson & Eric T. Kool, 2022. "Efficient DNA fluorescence labeling via base excision trapping," Nature Communications, Nature, vol. 13(1), pages 1-10, December.
  • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-32494-8
    DOI: 10.1038/s41467-022-32494-8
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    References listed on IDEAS

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    1. Nayun Kim & Sue Jinks-Robertson, 2009. "dUTP incorporation into genomic DNA is linked to transcription in yeast," Nature, Nature, vol. 459(7250), pages 1150-1153, June.
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