Real-time DNA Sequencing from Single Polymerase Molecules

Overview

Journal Science

Specialty Science

Date 2008 Nov 22

PMID 19023044

Citations 1495

Authors

John Eid

Adrian Fehr

Jeremy Gray

Khai Luong

John Lyle

Geoff Otto

Paul Peluso

David Rank

Primo Baybayan

Brad Bettman

Arkadiusz Bibillo

Keith Bjornson

Bidhan Chaudhuri

Frederick Christians

Ronald Cicero

Sonya Clark

Ravindra Dalal

Alex Dewinter

John Dixon

Mathieu Foquet

Alfred Gaertner

Paul Hardenbol

Cheryl Heiner

Kevin Hester

David Holden

Gregory Kearns

Xiangxu Kong

Ronald Kuse

Yves Lacroix

Steven Lin

Paul Lundquist

Congcong Ma

Patrick Marks

Mark Maxham

Devon Murphy

InSil Park

Thang Pham

Michael Phillips

Joy Roy

Robert Sebra

Gene Shen

Jon Sorenson

Austin Tomaney

Kevin Travers

Mark Trulson

John Vieceli

Jeffrey Wegener

Dawn Wu

Alicia Yang

Denis Zaccarin

Peter Zhao

Frank Zhong

Jonas Korlach

Stephen Turner

Affiliations

Soon will be listed here.

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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