Literature DB >> 27247390

Draft genome of the peanut A-genome progenitor (Arachis duranensis) provides insights into geocarpy, oil biosynthesis, and allergens.

Xiaoping Chen1, Hongjie Li2, Manish K Pandey3, Qingli Yang4, Xiyin Wang5, Vanika Garg3, Haifen Li1, Xiaoyuan Chi6, Dadakhalandar Doddamani3, Yanbin Hong1, Hari Upadhyaya3, Hui Guo5, Aamir W Khan3, Fanghe Zhu1, Xiaoyan Zhang2, Lijuan Pan6, Gary J Pierce5, Guiyuan Zhou1, Katta A V S Krishnamohan3, Mingna Chen6, Ni Zhong1, Gaurav Agarwal3, Shuanzhu Li2, Annapurna Chitikineni3, Guo-Qiang Zhang7, Shivali Sharma3, Na Chen6, Haiyan Liu1, Pasupuleti Janila3, Shaoxiong Li1, Min Wang2, Tong Wang6, Jie Sun6, Xingyu Li1, Chunyan Li2, Mian Wang6, Lina Yu6, Shijie Wen1, Sube Singh3, Zhen Yang6, Jinming Zhao2, Chushu Zhang6, Yue Yu8, Jie Bi6, Xiaojun Zhang9, Zhong-Jian Liu10, Andrew H Paterson11, Shuping Wang12, Xuanqiang Liang13, Rajeev K Varshney14, Shanlin Yu15.   

Abstract

Peanut or groundnut (Arachis hypogaea L.), a legume of South American origin, has high seed oil content (45-56%) and is a staple crop in semiarid tropical and subtropical regions, partially because of drought tolerance conferred by its geocarpic reproductive strategy. We present a draft genome of the peanut A-genome progenitor, Arachis duranensis, and 50,324 protein-coding gene models. Patterns of gene duplication suggest the peanut lineage has been affected by at least three polyploidizations since the origin of eudicots. Resequencing of synthetic Arachis tetraploids reveals extensive gene conversion in only three seed-to-seed generations since their formation by human hands, indicating that this process begins virtually immediately following polyploid formation. Expansion of some specific gene families suggests roles in the unusual subterranean fructification of Arachis For example, the S1Fa-like transcription factor family has 126 Arachis members, in contrast to no more than five members in other examined plant species, and is more highly expressed in roots and etiolated seedlings than green leaves. The A. duranensis genome provides a major source of candidate genes for fructification, oil biosynthesis, and allergens, expanding knowledge of understudied areas of plant biology and human health impacts of plants, informing peanut genetic improvement and aiding deeper sequencing of Arachis diversity.

Entities:  

Keywords:  Arachis duranensis; gene duplication; gene models; genome sequence; polyploidizations

Mesh:

Substances:

Year:  2016        PMID: 27247390      PMCID: PMC4914189          DOI: 10.1073/pnas.1600899113

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


  30 in total

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2.  Adenosine kinase modulates root gravitropism and cap morphogenesis in Arabidopsis.

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Journal:  Plant Physiol       Date:  2006-08-04       Impact factor: 8.340

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Authors:  E M Temsch; J Greilhuber
Journal:  Genome       Date:  2000-06       Impact factor: 2.166

4.  Draft genome sequence of chickpea (Cicer arietinum) provides a resource for trait improvement.

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Journal:  Nat Biotechnol       Date:  2013-01-27       Impact factor: 54.908

Review 5.  Update on food allergy.

Authors:  Hugh A Sampson
Journal:  J Allergy Clin Immunol       Date:  2004-05       Impact factor: 10.793

6.  Arabidopsis AUX1 gene: a permease-like regulator of root gravitropism.

Authors:  M J Bennett; A Marchant; H G Green; S T May; S P Ward; P A Millner; A R Walker; B Schulz; K A Feldmann
Journal:  Science       Date:  1996-08-16       Impact factor: 47.728

7.  OrthoMCL: identification of ortholog groups for eukaryotic genomes.

Authors:  Li Li; Christian J Stoeckert; David S Roos
Journal:  Genome Res       Date:  2003-09       Impact factor: 9.043

8.  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
Journal:  Science       Date:  2014-08-21       Impact factor: 47.728

9.  Gene conversion in angiosperm genomes with an emphasis on genes duplicated by polyploidization.

Authors:  Xi-Yin Wang; Andrew H Paterson
Journal:  Genes (Basel)       Date:  2011-01-10       Impact factor: 4.096

10.  Structure-function analysis of the presumptive Arabidopsis auxin permease AUX1.

Authors:  Ranjan Swarup; Joanna Kargul; Alan Marchant; Daniel Zadik; Abidur Rahman; Rebecca Mills; Anthony Yemm; Sean May; Lorraine Williams; Paul Millner; Seiji Tsurumi; Ian Moore; Richard Napier; Ian D Kerr; Malcolm J Bennett
Journal:  Plant Cell       Date:  2004-10-14       Impact factor: 11.277
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  76 in total

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Journal:  3 Biotech       Date:  2020-06-01       Impact factor: 2.406

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Authors:  Pawan Khera; Manish K Pandey; Nalini Mallikarjuna; Manda Sriswathi; Manish Roorkiwal; Pasupuleti Janila; Shivali Sharma; Krishna Shilpa; Harikishan Sudini; Baozhu Guo; Rajeev K Varshney
Journal:  Mol Genet Genomics       Date:  2018-11-22       Impact factor: 3.291

3.  agriGO v2.0: a GO analysis toolkit for the agricultural community, 2017 update.

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Journal:  Nucleic Acids Res       Date:  2017-07-03       Impact factor: 16.971

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

Authors:  Jinpeng Wang; Pengchuan Sun; Yuxian Li; Yinzhe Liu; Jigao Yu; Xuelian Ma; Sangrong Sun; Nanshan Yang; Ruiyan Xia; Tianyu Lei; Xiaojian Liu; Beibei Jiao; Yue Xing; Weina Ge; Li Wang; Zhenyi Wang; Xiaoming Song; Min Yuan; Di Guo; Lan Zhang; Jiaqi Zhang; Dianchuan Jin; Wei Chen; Yuxin Pan; Tao Liu; Ling Jin; Jinshuai Sun; Jiaxiang Yu; Rui Cheng; Xueqian Duan; Shaoqi Shen; Jun Qin; Meng-Chen Zhang; Andrew H Paterson; Xiyin Wang
Journal:  Plant Physiol       Date:  2017-03-21       Impact factor: 8.340

5.  SNP genotyping reveals major QTLs for plant architectural traits between A-genome peanut wild species.

Authors:  Ratan Chopra; Charles E Simpson; Andrew Hillhouse; Paxton Payton; Jyotsna Sharma; Mark D Burow
Journal:  Mol Genet Genomics       Date:  2018-08-01       Impact factor: 3.291

6.  Genotyping-by-sequencing based genetic mapping reveals large number of epistatic interactions for stem rot resistance in groundnut.

Authors:  Sneha M Dodia; Binal Joshi; Sunil S Gangurde; Polavakkalipalayam P Thirumalaisamy; Gyan P Mishra; Dayama Narandrakumar; Pooja Soni; Arulthambi L Rathnakumar; Jentilal R Dobaria; Chandramohan Sangh; Annapurna Chitikineni; Sumitra V Chanda; Manish K Pandey; Rajeev K Varshney; Radhakrishnan Thankappan
Journal:  Theor Appl Genet       Date:  2018-12-11       Impact factor: 5.699

7.  Comparative Transcriptome Analysis Identified Candidate Genes for Late Leaf Spot Resistance and Cause of Defoliation in Groundnut.

Authors:  Sunil S Gangurde; Spurthi N Nayak; Pushpesh Joshi; Shilp Purohit; Hari K Sudini; Annapurna Chitikineni; Yanbin Hong; Baozhu Guo; Xiaoping Chen; Manish K Pandey; Rajeev K Varshney
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8.  Heterochromatin evolution in Arachis investigated through genome-wide analysis of repetitive DNA.

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9.  Mapping of a dominant rust resistance gene revealed two R genes around the major Rust_QTL in cultivated peanut (Arachis hypogaea L.).

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10.  Dissection of the Genetic Basis of Yield-Related Traits in the Chinese Peanut Mini-Core Collection Through Genome-Wide Association Studies.

Authors:  Xiaojing Zhou; Jianbin Guo; Manish K Pandey; Rajeev K Varshney; Li Huang; Huaiyong Luo; Nian Liu; Weigang Chen; Yong Lei; Boshou Liao; Huifang Jiang
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