Literature DB >> 28325848

Hierarchically Aligning 10 Legume Genomes Establishes a Family-Level Genomics Platform.

Jinpeng Wang1,2,3, Pengchuan Sun1,2,3, Yuxian Li1,2,3, Yinzhe Liu1,2,3, Jigao Yu1,2,3, Xuelian Ma1,2,3, Sangrong Sun1,2,3, Nanshan Yang1,2,3, Ruiyan Xia1,2,3, Tianyu Lei1,2,3, Xiaojian Liu1,2,3, Beibei Jiao1,2,3, Yue Xing1,2,3, Weina Ge1,2,3, Li Wang1,2,3, Zhenyi Wang1,2,3, Xiaoming Song1,2,3, Min Yuan1,2,3, Di Guo1,2,3, Lan Zhang1,2,3, Jiaqi Zhang1,2,3, Dianchuan Jin1,2,3, Wei Chen1,2,3, Yuxin Pan1,2,3, Tao Liu1,2,3, Ling Jin1,2,3, Jinshuai Sun1,2,3, Jiaxiang Yu1,2,3, Rui Cheng1,2,3, Xueqian Duan1,2,3, Shaoqi Shen1,2,3, Jun Qin1,2,3, Meng-Chen Zhang1,2,3, Andrew H Paterson1,2,3, Xiyin Wang1,2,3.   

Abstract

Mainly due to their economic importance, genomes of 10 legumes, including soybean (Glycine max), wild peanut (Arachis duranensis and Arachis ipaensis), and barrel medic (Medicago truncatula), have been sequenced. However, a family-level comparative genomics analysis has been unavailable. With grape (Vitis vinifera) and selected legume genomes as outgroups, we managed to perform a hierarchical and event-related alignment of these genomes and deconvoluted layers of homologous regions produced by ancestral polyploidizations or speciations. Consequently, we illustrated genomic fractionation characterized by widespread gene losses after the polyploidizations. Notably, high similarity in gene retention between recently duplicated chromosomes in soybean supported the likely autopolyploidy nature of its tetraploid ancestor. Moreover, although most gene losses were nearly random, largely but not fully described by geometric distribution, we showed that polyploidization contributed divergently to the copy number variation of important gene families. Besides, we showed significantly divergent evolutionary levels among legumes and, by performing synonymous nucleotide substitutions at synonymous sites correction, redated major evolutionary events during their expansion. This effort laid a solid foundation for further genomics exploration in the legume research community and beyond. We describe only a tiny fraction of legume comparative genomics analysis that we performed; more information was stored in the newly constructed Legume Comparative Genomics Research Platform (www.legumegrp.org).
© 2017 American Society of Plant Biologists. All Rights Reserved.

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Year:  2017        PMID: 28325848      PMCID: PMC5411148          DOI: 10.1104/pp.16.01981

Source DB:  PubMed          Journal:  Plant Physiol        ISSN: 0032-0889            Impact factor:   8.340


  48 in total

1.  Two evolutionarily distinct classes of paleopolyploidy.

Authors:  Olivier Garsmeur; James C Schnable; Ana Almeida; Cyril Jourda; Angélique D'Hont; Michael Freeling
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Review 3.  Genomic asymmetry in allopolyploid plants: wheat as a model.

Authors:  Moshe Feldman; Avraham A Levy; Tzion Fahima; Abraham Korol
Journal:  J Exp Bot       Date:  2012-08-01       Impact factor: 6.992

4.  Spreading Winge and flying high: The evolutionary importance of polyploidy after a century of study.

Authors:  Michael S Barker; Brian C Husband; J Chris Pires
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5.  Differential chromosome pairing affinities at meiosis in polyploid sugarcane revealed by molecular markers.

Authors:  N Jannoo; L Grivet; J David; A D'Hont; J-C Glaszmann
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Journal:  Nat Biotechnol       Date:  2013-01-27       Impact factor: 54.908

7.  Plant genetics. Early allopolyploid evolution in the post-Neolithic Brassica napus oilseed genome.

Authors:  Boulos Chalhoub; France Denoeud; Shengyi Liu; Isobel A P Parkin; Haibao Tang; Xiyin Wang; Julien Chiquet; Harry Belcram; Chaobo Tong; Birgit Samans; Margot Corréa; Corinne Da Silva; Jérémy Just; Cyril Falentin; Chu Shin Koh; Isabelle Le Clainche; Maria Bernard; Pascal Bento; Benjamin Noel; Karine Labadie; Adriana Alberti; Mathieu Charles; Dominique Arnaud; Hui Guo; Christian Daviaud; Salman Alamery; Kamel Jabbari; Meixia Zhao; Patrick P Edger; Houda Chelaifa; David Tack; Gilles Lassalle; Imen Mestiri; Nicolas Schnel; Marie-Christine Le Paslier; Guangyi Fan; Victor Renault; Philippe E Bayer; Agnieszka A Golicz; Sahana Manoli; Tae-Ho Lee; Vinh Ha Dinh Thi; Smahane Chalabi; Qiong Hu; Chuchuan Fan; Reece Tollenaere; Yunhai Lu; Christophe Battail; Jinxiong Shen; Christine H D Sidebottom; Xinfa Wang; Aurélie Canaguier; Aurélie Chauveau; Aurélie Bérard; Gwenaëlle Deniot; Mei Guan; Zhongsong Liu; Fengming Sun; Yong Pyo Lim; Eric Lyons; Christopher D Town; Ian Bancroft; Xiaowu Wang; Jinling Meng; Jianxin Ma; J Chris Pires; Graham J King; Dominique Brunel; Régine Delourme; Michel Renard; Jean-Marc Aury; Keith L Adams; Jacqueline Batley; Rod J Snowdon; Jorg Tost; David Edwards; Yongming Zhou; Wei Hua; Andrew G Sharpe; Andrew H Paterson; Chunyun Guan; Patrick Wincker
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10.  Draft genome sequence of the mulberry tree Morus notabilis.

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  38 in total

1.  Patterns and Consequences of Subgenome Differentiation Provide Insights into the Nature of Paleopolyploidy in Plants.

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Journal:  Plant Cell       Date:  2017-11-27       Impact factor: 11.277

2.  Preferential gene retention increases the robustness of cold regulation in Brassicaceae and other plants after polyploidization.

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Journal:  Hortic Res       Date:  2020-02-21       Impact factor: 6.793

3.  Non-Additive Transcriptomic Responses to Inoculation with Rhizobia in a Young Allopolyploid Compared with Its Diploid Progenitors.

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4.  Comparative cytogenomics reveals genome reshuffling and centromere repositioning in the legume tribe Phaseoleae.

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5.  Conversion between duplicated genes generated by polyploidization contributes to the divergence of poplar and willow.

Authors:  Jianyu Wang; Lan Zhang; Jiaqi Wang; Yanan Hao; Qimeng Xiao; Jia Teng; Shaoqi Shen; Yan Zhang; Yishan Feng; Shoutong Bao; Yu Li; Zimo Yan; Chendan Wei; Li Wang; Jinpeng Wang
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6.  Recursive Paleohexaploidization Shaped the Durian Genome.

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8.  PolyReco: A Method to Automatically Label Collinear Regions and Recognize Polyploidy Events Based on the K S Dotplot.

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9.  Conversion between 100-million-year-old duplicated genes contributes to rice subspecies divergence.

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Journal:  BMC Genomics       Date:  2021-06-19       Impact factor: 3.969

Review 10.  Oil body biogenesis and biotechnology in legume seeds.

Authors:  Youhong Song; Xin-Ding Wang; Ray J Rose
Journal:  Plant Cell Rep       Date:  2017-09-02       Impact factor: 4.570
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