Single-molecule detection of deoxyribonucleoside triphosphates in microdroplets
Author(s) -
Boris Breiner,
Kerr Johnson,
Magdalena Stolarek,
Ana-Luisa Silva,
Aurel Negrea,
Neil M. Bell,
Tom H Isaac,
Mark Dethlefsen,
J. K. Chana,
Lindsey A Ibbotson,
Rebecca N Palmer,
James Bush,
Alexander J Dunning,
David M. Love,
Olympia Pachoumi,
Douglas J. Kelly,
Aya Shibahara,
Mei Wu,
Maciej Sosna,
Paul H. Dear,
Fabian Tölle,
Edoardo Petrini,
Michele Amasio,
Leigh R Shelford,
Monica Saavedra,
Eoin Sheridan,
Jekaterina Kuleshova,
Gareth J Podd,
Barnaby W Balmforth,
Cameron A Frayling
Publication year - 2019
Publication title -
nucleic acids research
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 9.008
H-Index - 537
eISSN - 1362-4954
pISSN - 0305-1048
DOI - 10.1093/nar/gkz611
Subject(s) - deoxyribonucleoside , biology , dna , nucleotide , polymerase , fluorescence , computational biology , biochemistry , gene , quantum mechanics , physics
A new approach to single-molecule DNA sequencing in which dNTPs, released by pyrophosphorolysis from the strand to be sequenced, are captured in microdroplets and read directly could have substantial advantages over current sequence-by-synthesis methods; however, there is no existing method sensitive enough to detect a single nucleotide in a microdroplet. We have developed a method for dNTP detection based on an enzymatic two-stage reaction which produces a robust fluorescent signal that is easy to detect and process. By taking advantage of the inherent specificity of DNA polymerases and ligases, coupled with volume restriction in microdroplets, this method allows us to simultaneously detect the presence of and distinguish between, the four natural dNTPs at the single-molecule level, with negligible cross-talk.
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