Assemblathon 1: A competitive assessment of de novo short read assembly methods

Dent Earl; Keith Bradnam; John St. John; Aaron Darling; Dawei Lin; Joseph Fass; Hung On Ken Yu; Vince Buffalo; Daniel R. Zerbino; Mark Diekhans; Ngan Nguyen; Pramila Nuwantha Ariyaratne; Wing Kin Sung; Zemin Ning; Matthias Haimel; Jared T. Simpson; Nuno A. Fonseca; Inanç Birol; T. Roderick Docking; Isaac Y. Ho; Daniel S. Rokhsar; Rayan Chikhi; Dominique Lavenier; Guillaume Chapuis; Delphine Naquin; Nicolas Maillet; Michael C. Schatz; David R. Kelley; Adam M. Phillippy; Sergey Koren; Shiaw Pyng Yang; Wei Wu; Wen Chi Chou; Anuj Srivastava; Timothy I. Shaw; J. Graham Ruby; Peter Skewes-Cox; Miguel Betegon; Michelle T. Dimon; Victor Solovyev; Igor Seledtsov; Petr Kosarev; Denis Vorobyev; Ricardo Ramirez-Gonzalez; Richard Leggett; Dan MacLean; Fangfang Xia; Ruibang Luo; Zhenyu Li; Yinlong Xie; Binghang Liu; Sante Gnerre; Iain MacCallum; Dariusz Przybylski; Filipe J. Ribeiro; Ted Sharpe; Giles Hall; Paul J. Kersey; Richard Durbin; Shaun D. Jackman; Jarrod A. Chapman; Xiaoqiu Huang; Joseph L. DeRisi; Mario Caccamo; Yingrui Li; David B. Jaffe; Richard E. Green; David Haussler; Ian Korf; Benedict Paten

doi:10.1101/gr.126599.111

Assemblathon 1: A competitive assessment of de novo short read assembly methods

Dent Earl, Keith Bradnam, John St. John, Aaron Darling, Dawei Lin, Joseph Fass, Hung On Ken Yu, Vince Buffalo, Daniel R. Zerbino, Mark Diekhans, Ngan Nguyen, Pramila Nuwantha Ariyaratne, Wing Kin Sung, Zemin Ning, Matthias Haimel, Jared T. Simpson, Nuno A. Fonseca, Inanç Birol, T. Roderick Docking, Isaac Y. HoDaniel S. Rokhsar, Rayan Chikhi, Dominique Lavenier, Guillaume Chapuis, Delphine Naquin, Nicolas Maillet, Michael C. Schatz, David R. Kelley, Adam M. Phillippy, Sergey Koren, Shiaw Pyng Yang, Wei Wu, Wen Chi Chou, Anuj Srivastava, Timothy I. Shaw, J. Graham Ruby, Peter Skewes-Cox, Miguel Betegon, Michelle T. Dimon, Victor Solovyev, Igor Seledtsov, Petr Kosarev, Denis Vorobyev, Ricardo Ramirez-Gonzalez, Richard Leggett, Dan MacLean, Fangfang Xia, Ruibang Luo, Zhenyu Li, Yinlong Xie, Binghang Liu, Sante Gnerre, Iain MacCallum, Dariusz Przybylski, Filipe J. Ribeiro, Ted Sharpe, Giles Hall, Paul J. Kersey, Richard Durbin, Shaun D. Jackman, Jarrod A. Chapman, Xiaoqiu Huang, Joseph L. DeRisi, Mario Caccamo, Yingrui Li, David B. Jaffe, Richard E. Green, David Haussler, Ian Korf, Benedict Paten

Research output: Contribution to journal › Review article › peer-review

Abstract

Low-cost short read sequencing technology has revolutionized genomics, though it is only just becoming practical for the high-quality de novo assembly of a novel large genome. We describe the Assemblathon 1 competition, which aimed to comprehensively assess the state of the art in de novo assembly methods when applied to current sequencing technologies. In a collaborative effort, teams were asked to assemble a simulated Illumina HiSeq data set of an unknown, simulated diploid genome. A total of 41 assemblies from 17 different groups were received. Novel haplotype aware assessments of coverage, contiguity, structure, base calling, and copy number were made. We establish that within this benchmark: (1) It is possible to assemble the genome to a high level of coverage and accuracy, and that (2) large differences exist between the assemblies, suggesting room for further improvements in current methods. The simulated benchmark, including the correct answer, the assemblies, and the code that was used to evaluate the assemblies is now public and freely available from http://www.assemblathon.org/.

Original language	English (US)
Pages (from-to)	2224-2241
Number of pages	18
Journal	Genome research
Volume	21
Issue number	12
DOIs	https://doi.org/10.1101/gr.126599.111
State	Published - Dec 2011
Externally published	Yes

ASJC Scopus subject areas

Genetics
Genetics(clinical)

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Earl, D., Bradnam, K., St. John, J., Darling, A., Lin, D., Fass, J., Yu, H. O. K., Buffalo, V., Zerbino, D. R., Diekhans, M., Nguyen, N., Ariyaratne, P. N., Sung, W. K., Ning, Z., Haimel, M., Simpson, J. T., Fonseca, N. A., Birol, I., Docking, T. R., ... Paten, B. (2011). Assemblathon 1: A competitive assessment of de novo short read assembly methods. Genome research, 21(12), 2224-2241. https://doi.org/10.1101/gr.126599.111

Earl, D, Bradnam, K, St. John, J, Darling, A, Lin, D, Fass, J, Yu, HOK, Buffalo, V, Zerbino, DR, Diekhans, M, Nguyen, N, Ariyaratne, PN, Sung, WK, Ning, Z, Haimel, M, Simpson, JT, Fonseca, NA, Birol, I, Docking, TR, Ho, IY, Rokhsar, DS, Chikhi, R, Lavenier, D, Chapuis, G, Naquin, D, Maillet, N, Schatz, MC, Kelley, DR, Phillippy, AM, Koren, S, Yang, SP, Wu, W, Chou, WC, Srivastava, A, Shaw, TI, Ruby, JG, Skewes-Cox, P, Betegon, M, Dimon, MT, Solovyev, V, Seledtsov, I, Kosarev, P, Vorobyev, D, Ramirez-Gonzalez, R, Leggett, R, MacLean, D, Xia, F, Luo, R, Li, Z, Xie, Y, Liu, B, Gnerre, S, MacCallum, I, Przybylski, D, Ribeiro, FJ, Sharpe, T, Hall, G, Kersey, PJ, Durbin, R, Jackman, SD, Chapman, JA, Huang, X, DeRisi, JL, Caccamo, M, Li, Y, Jaffe, DB, Green, RE, Haussler, D, Korf, I & Paten, B 2011, 'Assemblathon 1: A competitive assessment of de novo short read assembly methods', Genome research, vol. 21, no. 12, pp. 2224-2241. https://doi.org/10.1101/gr.126599.111

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title = "Assemblathon 1: A competitive assessment of de novo short read assembly methods",

abstract = "Low-cost short read sequencing technology has revolutionized genomics, though it is only just becoming practical for the high-quality de novo assembly of a novel large genome. We describe the Assemblathon 1 competition, which aimed to comprehensively assess the state of the art in de novo assembly methods when applied to current sequencing technologies. In a collaborative effort, teams were asked to assemble a simulated Illumina HiSeq data set of an unknown, simulated diploid genome. A total of 41 assemblies from 17 different groups were received. Novel haplotype aware assessments of coverage, contiguity, structure, base calling, and copy number were made. We establish that within this benchmark: (1) It is possible to assemble the genome to a high level of coverage and accuracy, and that (2) large differences exist between the assemblies, suggesting room for further improvements in current methods. The simulated benchmark, including the correct answer, the assemblies, and the code that was used to evaluate the assemblies is now public and freely available from http://www.assemblathon.org/.",

author = "Dent Earl and Keith Bradnam and {St. John}, John and Aaron Darling and Dawei Lin and Joseph Fass and Yu, {Hung On Ken} and Vince Buffalo and Zerbino, {Daniel R.} and Mark Diekhans and Ngan Nguyen and Ariyaratne, {Pramila Nuwantha} and Sung, {Wing Kin} and Zemin Ning and Matthias Haimel and Simpson, {Jared T.} and Fonseca, {Nuno A.} and Inan{\c c} Birol and Docking, {T. Roderick} and Ho, {Isaac Y.} and Rokhsar, {Daniel S.} and Rayan Chikhi and Dominique Lavenier and Guillaume Chapuis and Delphine Naquin and Nicolas Maillet and Schatz, {Michael C.} and Kelley, {David R.} and Phillippy, {Adam M.} and Sergey Koren and Yang, {Shiaw Pyng} and Wei Wu and Chou, {Wen Chi} and Anuj Srivastava and Shaw, {Timothy I.} and Ruby, {J. Graham} and Peter Skewes-Cox and Miguel Betegon and Dimon, {Michelle T.} and Victor Solovyev and Igor Seledtsov and Petr Kosarev and Denis Vorobyev and Ricardo Ramirez-Gonzalez and Richard Leggett and Dan MacLean and Fangfang Xia and Ruibang Luo and Zhenyu Li and Yinlong Xie and Binghang Liu and Sante Gnerre and Iain MacCallum and Dariusz Przybylski and Ribeiro, {Filipe J.} and Ted Sharpe and Giles Hall and Kersey, {Paul J.} and Richard Durbin and Jackman, {Shaun D.} and Chapman, {Jarrod A.} and Xiaoqiu Huang and DeRisi, {Joseph L.} and Mario Caccamo and Yingrui Li and Jaffe, {David B.} and Green, {Richard E.} and David Haussler and Ian Korf and Benedict Paten",

year = "2011",

month = dec,

doi = "10.1101/gr.126599.111",

language = "English (US)",

volume = "21",

pages = "2224--2241",

journal = "Genome research",

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T2 - A competitive assessment of de novo short read assembly methods

AU - Earl, Dent

AU - Bradnam, Keith

AU - St. John, John

AU - Darling, Aaron

AU - Lin, Dawei

AU - Fass, Joseph

AU - Yu, Hung On Ken

AU - Buffalo, Vince

AU - Zerbino, Daniel R.

AU - Diekhans, Mark

AU - Nguyen, Ngan

AU - Ariyaratne, Pramila Nuwantha

AU - Sung, Wing Kin

AU - Ning, Zemin

AU - Haimel, Matthias

AU - Simpson, Jared T.

AU - Fonseca, Nuno A.

AU - Birol, Inanç

AU - Docking, T. Roderick

AU - Ho, Isaac Y.

AU - Rokhsar, Daniel S.

AU - Chikhi, Rayan

AU - Lavenier, Dominique

AU - Chapuis, Guillaume

AU - Naquin, Delphine

AU - Maillet, Nicolas

AU - Schatz, Michael C.

AU - Kelley, David R.

AU - Phillippy, Adam M.

AU - Koren, Sergey

AU - Yang, Shiaw Pyng

AU - Wu, Wei

AU - Chou, Wen Chi

AU - Srivastava, Anuj

AU - Shaw, Timothy I.

AU - Ruby, J. Graham

AU - Skewes-Cox, Peter

AU - Betegon, Miguel

AU - Dimon, Michelle T.

AU - Solovyev, Victor

AU - Seledtsov, Igor

AU - Kosarev, Petr

AU - Vorobyev, Denis

AU - Ramirez-Gonzalez, Ricardo

AU - Leggett, Richard

AU - MacLean, Dan

AU - Xia, Fangfang

AU - Luo, Ruibang

AU - Li, Zhenyu

AU - Xie, Yinlong

AU - Liu, Binghang

AU - Gnerre, Sante

AU - MacCallum, Iain

AU - Przybylski, Dariusz

AU - Ribeiro, Filipe J.

AU - Sharpe, Ted

AU - Hall, Giles

AU - Kersey, Paul J.

AU - Durbin, Richard

AU - Jackman, Shaun D.

AU - Chapman, Jarrod A.

AU - Huang, Xiaoqiu

AU - DeRisi, Joseph L.

AU - Caccamo, Mario

AU - Li, Yingrui

AU - Jaffe, David B.

AU - Green, Richard E.

AU - Haussler, David

AU - Korf, Ian

AU - Paten, Benedict

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AB - Low-cost short read sequencing technology has revolutionized genomics, though it is only just becoming practical for the high-quality de novo assembly of a novel large genome. We describe the Assemblathon 1 competition, which aimed to comprehensively assess the state of the art in de novo assembly methods when applied to current sequencing technologies. In a collaborative effort, teams were asked to assemble a simulated Illumina HiSeq data set of an unknown, simulated diploid genome. A total of 41 assemblies from 17 different groups were received. Novel haplotype aware assessments of coverage, contiguity, structure, base calling, and copy number were made. We establish that within this benchmark: (1) It is possible to assemble the genome to a high level of coverage and accuracy, and that (2) large differences exist between the assemblies, suggesting room for further improvements in current methods. The simulated benchmark, including the correct answer, the assemblies, and the code that was used to evaluate the assemblies is now public and freely available from http://www.assemblathon.org/.

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Assemblathon 1: A competitive assessment of de novo short read assembly methods

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ASJC Scopus subject areas

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