Real-Time DNA Sequencing from Single Polymerase Molecules

John Eid; Adrian Fehr; Jeremy Gray; Khai Luong; John Lyle; Geoff Otto; Paul Peluso; David R. Rank; Primo Baybayan; Brad Bettman; Arkadiusz Bibiłło; Keith P. Bjornson; Bidhan Chaudhuri; Fred C. Christians; Ronald L. Cicero; Sonya Clark; Ravindra V. Dalal; Alex D. deWinter; John W. Dixon; Mathieu Foquet; Alfred Gaertner; Paul Hardenbol; Cheryl Heiner; Kevin Hester; David W. Holden; Gregory L. Kearns; Xiangxu Kong; Ronald Kuse; Y. Lacroix; Steven Lin; P. M. Lundquist; Congcong Ma; Patrick Marks; Mark Maxham; Devon Murphy; Insil Park; Thang Pham; Michael Phillips; Joy Roy; Robert Sebra; Gene Shen; Jon M. Sorenson; Austin B. Tomaney; Kevin Travers; Mark O. Trulson; John Vieceli; Jeffrey Wegener; Dawn Wu; Alicia Yang; D. Zaccarin; Peter Y. Zhao; Frank Zhong; Jonas Korlach; Stephen Turner

doi:10.1126/science.1162986

Real-Time DNA Sequencing from Single Polymerase Molecules

John Eid(Pacific Biosciences (United States)), Adrian Fehr(Pacific Biosciences (United States)), Jeremy Gray(Pacific Biosciences (United States)), Khai Luong(Pacific Biosciences (United States)), John Lyle(Pacific Biosciences (United States)), Geoff Otto(Pacific Biosciences (United States)), Paul Peluso(Pacific Biosciences (United States)), David R. Rank(Pacific Biosciences (United States)), Primo Baybayan(Pacific Biosciences (United States)), Brad Bettman(Pacific Biosciences (United States)), Arkadiusz Bibiłło(Pacific Biosciences (United States)), Keith P. Bjornson(Pacific Biosciences (United States)), Bidhan Chaudhuri(Pacific Biosciences (United States)), Fred C. Christians(Pacific Biosciences (United States)), Ronald L. Cicero(Pacific Biosciences (United States)), Sonya Clark(Pacific Biosciences (United States)), Ravindra V. Dalal(Pacific Biosciences (United States)), Alex D. deWinter(Pacific Biosciences (United States)), John W. Dixon(Pacific Biosciences (United States)), Mathieu Foquet(Pacific Biosciences (United States)), Alfred Gaertner(Pacific Biosciences (United States)), Paul Hardenbol(Pacific Biosciences (United States)), Cheryl Heiner(Pacific Biosciences (United States)), Kevin Hester(Pacific Biosciences (United States)), David W. Holden(Pacific Biosciences (United States)), Gregory L. Kearns(Pacific Biosciences (United States)), Xiangxu Kong(Pacific Biosciences (United States)), Ronald Kuse(Pacific Biosciences (United States)), Y. Lacroix(Pacific Biosciences (United States)), Steven Lin(Pacific Biosciences (United States)), P. M. Lundquist(Pacific Biosciences (United States)), Congcong Ma(Pacific Biosciences (United States)), Patrick Marks(Pacific Biosciences (United States)), Mark Maxham(Pacific Biosciences (United States)), Devon Murphy(Pacific Biosciences (United States)), Insil Park(Pacific Biosciences (United States)), Thang Pham(Pacific Biosciences (United States)), Michael Phillips(Pacific Biosciences (United States)), Joy Roy(Pacific Biosciences (United States)), Robert Sebra(Pacific Biosciences (United States)), Gene Shen(Pacific Biosciences (United States)), Jon M. Sorenson(Pacific Biosciences (United States)), Austin B. Tomaney(Pacific Biosciences (United States)), Kevin Travers(Pacific Biosciences (United States)), Mark O. Trulson(Pacific Biosciences (United States)), John Vieceli(Pacific Biosciences (United States)), Jeffrey Wegener(Pacific Biosciences (United States)), Dawn Wu(Pacific Biosciences (United States)), Alicia Yang(Pacific Biosciences (United States)), D. Zaccarin(Pacific Biosciences (United States)), Peter Y. Zhao(Pacific Biosciences (United States)), Frank Zhong(Pacific Biosciences (United States)), Jonas Korlach(Pacific Biosciences (United States)), Stephen Turner(Pacific Biosciences (United States))

Science

November 20, 2008

10.1126/science.1162986

Cited by 3,809

Abstract

We present single-molecule, real-time sequencing data obtained from a DNA polymerase performing uninterrupted template-directed synthesis using four distinguishable fluorescently labeled deoxyribonucleoside triphosphates (dNTPs). We detected the temporal order of their enzymatic incorporation into a growing DNA strand with zero-mode waveguide nanostructure arrays, which provide optical observation volume confinement and enable parallel, simultaneous detection of thousands of single-molecule sequencing reactions. Conjugation of fluorophores to the terminal phosphate moiety of the dNTPs allows continuous observation of DNA synthesis over thousands of bases without steric hindrance. The data report directly on polymerase dynamics, revealing distinct polymerization states and pause sites corresponding to DNA secondary structure. Sequence data were aligned with the known reference sequence to assay biophysical parameters of polymerization for each template position. Consensus sequences were generated from the single-molecule reads at 15-fold coverage, showing a median accuracy of 99.3%, with no systematic error beyond fluorophore-dependent error rates.

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