Sequencing of allotetraploid cotton (Gossypium hirsutum L. acc. TM-1) provides a resource for fiber improvement

Tianzhen Zhang(Nanjing Agricultural University), Yan Hu(Nanjing Agricultural University), Wenkai Jiang(Novogene Bioinformatics Institute), Lei Fang(Nanjing Agricultural University), Xueying Guan(Nanjing Agricultural University), Jiedan Chen(Nanjing Agricultural University), Jinbo Zhang(Novogene Bioinformatics Institute), Christopher Saski(Clemson University), Brian E. Scheffler(Agricultural Research Service), David M. Stelly(Texas A&M University), Amanda M. Hulse‐Kemp(Texas A&M University), Qun Wan(Nanjing Agricultural University), Bingliang Liu(Nanjing Agricultural University), Chunxiao Liu(Nanjing Agricultural University), Sen Wang(Nanjing Agricultural University), Mengqiao Pan(Nanjing Agricultural University), Yangkun Wang(Nanjing Agricultural University), Dawei Wang(Novogene Bioinformatics Institute), Wenxue Ye(Nanjing Agricultural University), Lijing Chang(Nanjing Agricultural University), Wenpan Zhang(Nanjing Agricultural University), Qingxin Song(The University of Texas at Austin), Ryan C. Kirkbride(The University of Texas at Austin), Xiao‐Ya Chen(Chinese Academy of Sciences), Elizabeth S. Dennis(Commonwealth Scientific and Industrial Research Organisation), Danny Llewellyn(Commonwealth Scientific and Industrial Research Organisation), Daniel G. Peterson(Mississippi State University), P. M. Thaxton(Mississippi Delta Community College), Don C. Jones(Cotton (United States)), Qiong Wang(Nanjing Agricultural University), Xiaoyang Xu(Nanjing Agricultural University), Hua Zhang(Nanjing Agricultural University), Huaitong Wu(Nanjing Agricultural University), Lei Zhou(Nanjing Agricultural University), Gaofu Mei(Nanjing Agricultural University), Shuqi Chen(Nanjing Agricultural University), Yue Tian(Nanjing Agricultural University), Dan Xiang(Nanjing Agricultural University), Xinghe Li(Nanjing Agricultural University), Jian Ding(Nanjing Agricultural University), Qiyang Zuo(Novogene Bioinformatics Institute), Linna Tao(Novogene Bioinformatics Institute), Yunchao Liu(Novogene Bioinformatics Institute), Ji Li(Novogene Bioinformatics Institute), Yu Lin(Novogene Bioinformatics Institute), Yuanyuan Hui(Novogene Bioinformatics Institute), Zhisheng Cao(Novogene Bioinformatics Institute), Caiping Cai(Nanjing Agricultural University), Xiefei Zhu(Nanjing Agricultural University), Zhi Jiang(Novogene Bioinformatics Institute), Baoliang Zhou(Nanjing Agricultural University), Wangzhen Guo(Nanjing Agricultural University), Ruiqiang Li(Novogene Bioinformatics Institute), Z. Jeffrey Chen(Nanjing Agricultural University)
Nature Biotechnology
April 20, 2015
10.1038/nbt.3207
Cited by 1,896Open Access
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Abstract

Two draft sequences of Gossypium hirsutum, the most widely cultivated cotton species, provide insights into genome structure, genome rearrangement, gene evolution and cotton fiber biology. Upland cotton is a model for polyploid crop domestication and transgenic improvement. Here we sequenced the allotetraploid Gossypium hirsutum L. acc. TM-1 genome by integrating whole-genome shotgun reads, bacterial artificial chromosome (BAC)-end sequences and genotype-by-sequencing genetic maps. We assembled and annotated 32,032 A-subgenome genes and 34,402 D-subgenome genes. Structural rearrangements, gene loss, disrupted genes and sequence divergence were more common in the A subgenome than in the D subgenome, suggesting asymmetric evolution. However, no genome-wide expression dominance was found between the subgenomes. Genomic signatures of selection and domestication are associated with positively selected genes (PSGs) for fiber improvement in the A subgenome and for stress tolerance in the D subgenome. This draft genome sequence provides a resource for engineering superior cotton lines.

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