A reference genome for common bean and genome-wide analysis of dual domestications

Jeremy Schmutz; Phillip E. McClean; Sujan Mamidi; Guohong Wu; Steven B. Cannon; Jane Grimwood; Jerry Jenkins; Shengqiang Shu; Qijian Song; Carolina Chavarro; Mirayda Torres-Torres; Valérie Geffroy; Samira Mafi Moghaddam; Dongying Gao; Brian Abernathy; Kerrie Barry; Matthew W. Blair; Mark A. Brick; Mansi Chovatia; Paul Gepts; David Goodstein; Michael Gonzales; Uffe Hellsten; David L. Hyten; Gaofeng Jia; James D. Kelly; Dave Kudrna; Rian Lee; Manon Richard; Phillip N. Miklas; Juan M. Osorno; Josiane Isabela da Silva Rodrigues; Vincent Thareau; Carlos A. Urrea; Mei Wang; Yeisoo Yu; Ming Zhang; Rod A. Wing; Perry B. Cregan; Daniel S. Rokhsar; Scott A. Jackson

doi:10.1038/ng.3008

A reference genome for common bean and genome-wide analysis of dual domestications

Jeremy Schmutz(Joint Genome Institute), Phillip E. McClean(North Dakota State University), Sujan Mamidi(North Dakota State University), Guohong Wu(Joint Genome Institute), Steven B. Cannon(Agricultural Research Service), Jane Grimwood(HudsonAlpha Institute for Biotechnology), Jerry Jenkins(HudsonAlpha Institute for Biotechnology), Shengqiang Shu(Joint Genome Institute), Qijian Song(United States Department of Agriculture), Carolina Chavarro(University of Georgia), Mirayda Torres-Torres(University of Georgia), Valérie Geffroy(Université Paris-Sud), Samira Mafi Moghaddam(North Dakota State University), Dongying Gao(University of Georgia), Brian Abernathy(University of Georgia), Kerrie Barry(Joint Genome Institute), Matthew W. Blair(Tennessee State University), Mark A. Brick(Colorado State University), Mansi Chovatia(Joint Genome Institute), Paul Gepts(University of California, Davis), David Goodstein(Joint Genome Institute), Michael Gonzales(University of Georgia), Uffe Hellsten(Joint Genome Institute), David L. Hyten(Agricultural Research Service), Gaofeng Jia(Agricultural Research Service), James D. Kelly(Michigan State University), Dave Kudrna(University of Arizona), Rian Lee(North Dakota State University), Manon Richard(Université Paris-Sud), Phillip N. Miklas(United States Department of Agriculture), Juan M. Osorno(North Dakota State University), Josiane Isabela da Silva Rodrigues(United States Department of Agriculture), Vincent Thareau(Université Paris-Sud), Carlos A. Urrea(Western Nebraska Community College), Mei Wang(Joint Genome Institute), Yeisoo Yu(University of Arizona), Ming Zhang(Joint Genome Institute), Rod A. Wing(University of Arizona), Perry B. Cregan(United States Department of Agriculture), Daniel S. Rokhsar(Joint Genome Institute), Scott A. Jackson(University of Georgia)

Nature Genetics

June 8, 2014

10.1038/ng.3008

Cited by 1,363Open Access

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Abstract

Scott Jackson, Jeremy Schmutz, Phillip McClean and colleagues report the genome sequence of the common bean (Phaseolus vulgaris) and resequenced wild individuals and landraces from Mesoamerican and Andean gene pools, showing that common bean underwent two independent domestications. Common bean (Phaseolus vulgaris L.) is the most important grain legume for human consumption and has a role in sustainable agriculture owing to its ability to fix atmospheric nitrogen. We assembled 473 Mb of the 587-Mb genome and genetically anchored 98% of this sequence in 11 chromosome-scale pseudomolecules. We compared the genome for the common bean against the soybean genome to find changes in soybean resulting from polyploidy. Using resequencing of 60 wild individuals and 100 landraces from the genetically differentiated Mesoamerican and Andean gene pools, we confirmed 2 independent domestications from genetic pools that diverged before human colonization. Less than 10% of the 74 Mb of sequence putatively involved in domestication was shared by the two domestication events. We identified a set of genes linked with increased leaf and seed size and combined these results with quantitative trait locus data from Mesoamerican cultivars. Genes affected by domestication may be useful for genomics-enabled crop improvement.

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