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Sequencing by avidity enables high accuracy with low reagent consumption

Authors :
Sinan Arslan
Francisco J. Garcia
Minghao Guo
Matthew W. Kellinger
Semyon Kruglyak
Jake A. LeVieux
Adeline H. Mah
Haosen Wang
Junhua Zhao
Chunhong Zhou
Andrew Altomare
John Bailey
Matthew B. Byrne
Chiting Chang
Steve X. Chen
Byungrae Cho
Claudia N. Dennler
Vivian T. Dien
Derek Fuller
Ryan Kelley
Omid Khandan
Michael G. Klein
Michael Kim
Bryan R. Lajoie
Bill Lin
Yu Liu
Tyler Lopez
Peter T. Mains
Andrew D. Price
Samantha R. Robertson
Hermes Taylor-Weiner
Ramreddy Tippana
Austin B. Tomaney
Su Zhang
Minna Abtahi
Mark R. Ambroso
Rosita Bajari
Ava M. Bellizzi
Chris B. Benitez
Daniel R. Berard
Lorenzo Berti
Kelly N. Blease
Angela P. Blum
Andrew M. Boddicker
Leo Bondar
Chris Brown
Chris A. Bui
Juan Calleja-Aguirre
Kevin Cappa
Joshua Chan
Victor W. Chang
Katherine Charov
Xiyi Chen
Rodger M. Constandse
Weston Damron
Mariam Dawood
Nicole DeBuono
John D. Dimalanta
Laure Edoli
Keerthana Elango
Nikka Faustino
Chao Feng
Matthew Ferrari
Keith Frankie
Adam Fries
Anne Galloway
Vlad Gavrila
Gregory J. Gemmen
James Ghadiali
Arash Ghorbani
Logan A. Goddard
Adriana Roginski Guetter
Garren L. Hendricks
Jendrik Hentschel
Daniel J. Honigfort
Yun-Ting Hsieh
Yu-Hsien Hwang Fu
Scott K. Im
Chaoyi Jin
Shradha Kabu
Daniel E. Kincade
Shawn Levy
Yu Li
Vincent K. Liang
William H. Light
Jonathan B. Lipsher
Tsung-li Liu
Grace Long
Rui Ma
John M. Mailloux
Kyle A. Mandla
Anyssa R. Martinez
Max Mass
Daniel T. McKean
Michael Meron
Edmund A. Miller
Celyne S. Moh
Rachel K. Moore
Juan Moreno
Jordan M. Neysmith
Cassandra S. Niman
Jesus M. Nunez
Micah T. Ojeda
Sara Espinosa Ortiz
Jenna Owens
Geoffrey Piland
Daniel J. Proctor
Josua B. Purba
Michael Ray
Daisong Rong
Virginia M. Saade
Sanchari Saha
Gustav Santo Tomas
Nicholas Scheidler
Luqmanal H. Sirajudeen
Samantha Snow
Gudrun Stengel
Ryan Stinson
Michael J. Stone
Keoni J. Sundseth
Eileen Thai
Connor J. Thompson
Marco Tjioe
Christy L. Trejo
Greg Trieger
Diane Ni Truong
Ben Tse
Benjamin Voiles
Henry Vuong
Jennifer C. Wong
Chiung-Ting Wu
Hua Yu
Yingxian Yu
Ming Yu
Xi Zhang
Da Zhao
Genhua Zheng
Molly He
Michael Previte
Source :
Nature Biotechnology.
Publication Year :
2023
Publisher :
Springer Science and Business Media LLC, 2023.

Abstract

We present avidity sequencing, a sequencing chemistry that separately optimizes the processes of stepping along a DNA template and that of identifying each nucleotide within the template. Nucleotide identification uses multivalent nucleotide ligands on dye-labeled cores to form polymerase–polymer–nucleotide complexes bound to clonal copies of DNA targets. These polymer–nucleotide substrates, termed avidites, decrease the required concentration of reporting nucleotides from micromolar to nanomolar and yield negligible dissociation rates. Avidity sequencing achieves high accuracy, with 96.2% and 85.4% of base calls having an average of one error per 1,000 and 10,000 base pairs, respectively. We show that the average error rate of avidity sequencing remained stable following a long homopolymer.

Subjects

Subjects :
Biomedical Engineering
Molecular Medicine
Bioengineering
Applied Microbiology and Biotechnology
Biotechnology

Details

ISSN :
15461696 and 10870156
Database :
OpenAIRE
Journal :
Nature Biotechnology
Accession number :
edsair.doi...........134ecc28f29d15d85c9ac30057097e39

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