Gossypium barbadense genome sequence provides insight into the evolution of extra-long staple fiber and specialized metabolites

Of the two cultivated species of allopolyploid cotton, Gossypium barbadense produces extra-long fibers for the production of superior textiles. We sequenced its genome (AD)(2) and performed a comparative analysis. We identified three bursts of retrotransposons from 20 million years ago (Mya) and a g...

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Autores principales: Liu, Xia, Zhao, Bo, Zheng, Hua-Jun, Hu, Yan, Lu, Gang, Yang, Chang-Qing, Chen, Jie-Dan, Chen, Jun-Jian, Chen, Dian-Yang, Zhang, Liang, Zhou, Yan, Wang, Ling-Jian, Guo, Wang-Zhen, Bai, Yu-Lin, Ruan, Ju-Xin, Shangguan, Xiao-Xia, Mao, Ying-Bo, Shan, Chun-Min, Jiang, Jian-Ping, Zhu, Yong-Qiang, Jin, Lei, Kang, Hui, Chen, Shu-Ting, He, Xu-Lin, Wang, Rui, Wang, Yue-Zhu, Chen, Jie, Wang, Li-Jun, Yu, Shu-Ting, Wang, Bi-Yun, Wei, Jia, Song, Si-Chao, Lu, Xin-Yan, Gao, Zheng-Chao, Gu, Wen-Yi, Deng, Xiao, Ma, Dan, Wang, Sen, Liang, Wen-Hua, Fang, Lei, Cai, Cai-Ping, Zhu, Xie-Fei, Zhou, Bao-Liang, Jeffrey Chen, Z., Xu, Shu-Hua, Zhang, Yu-Gao, Wang, Sheng-Yue, Zhang, Tian-Zhen, Zhao, Guo-Ping, Chen, Xiao-Ya
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group 2015
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4588572/
https://www.ncbi.nlm.nih.gov/pubmed/26420475
http://dx.doi.org/10.1038/srep14139
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author Liu, Xia
Zhao, Bo
Zheng, Hua-Jun
Hu, Yan
Lu, Gang
Yang, Chang-Qing
Chen, Jie-Dan
Chen, Jun-Jian
Chen, Dian-Yang
Zhang, Liang
Zhou, Yan
Wang, Ling-Jian
Guo, Wang-Zhen
Bai, Yu-Lin
Ruan, Ju-Xin
Shangguan, Xiao-Xia
Mao, Ying-Bo
Shan, Chun-Min
Jiang, Jian-Ping
Zhu, Yong-Qiang
Jin, Lei
Kang, Hui
Chen, Shu-Ting
He, Xu-Lin
Wang, Rui
Wang, Yue-Zhu
Chen, Jie
Wang, Li-Jun
Yu, Shu-Ting
Wang, Bi-Yun
Wei, Jia
Song, Si-Chao
Lu, Xin-Yan
Gao, Zheng-Chao
Gu, Wen-Yi
Deng, Xiao
Ma, Dan
Wang, Sen
Liang, Wen-Hua
Fang, Lei
Cai, Cai-Ping
Zhu, Xie-Fei
Zhou, Bao-Liang
Jeffrey Chen, Z.
Xu, Shu-Hua
Zhang, Yu-Gao
Wang, Sheng-Yue
Zhang, Tian-Zhen
Zhao, Guo-Ping
Chen, Xiao-Ya
author_facet Liu, Xia
Zhao, Bo
Zheng, Hua-Jun
Hu, Yan
Lu, Gang
Yang, Chang-Qing
Chen, Jie-Dan
Chen, Jun-Jian
Chen, Dian-Yang
Zhang, Liang
Zhou, Yan
Wang, Ling-Jian
Guo, Wang-Zhen
Bai, Yu-Lin
Ruan, Ju-Xin
Shangguan, Xiao-Xia
Mao, Ying-Bo
Shan, Chun-Min
Jiang, Jian-Ping
Zhu, Yong-Qiang
Jin, Lei
Kang, Hui
Chen, Shu-Ting
He, Xu-Lin
Wang, Rui
Wang, Yue-Zhu
Chen, Jie
Wang, Li-Jun
Yu, Shu-Ting
Wang, Bi-Yun
Wei, Jia
Song, Si-Chao
Lu, Xin-Yan
Gao, Zheng-Chao
Gu, Wen-Yi
Deng, Xiao
Ma, Dan
Wang, Sen
Liang, Wen-Hua
Fang, Lei
Cai, Cai-Ping
Zhu, Xie-Fei
Zhou, Bao-Liang
Jeffrey Chen, Z.
Xu, Shu-Hua
Zhang, Yu-Gao
Wang, Sheng-Yue
Zhang, Tian-Zhen
Zhao, Guo-Ping
Chen, Xiao-Ya
author_sort Liu, Xia
collection PubMed
description Of the two cultivated species of allopolyploid cotton, Gossypium barbadense produces extra-long fibers for the production of superior textiles. We sequenced its genome (AD)(2) and performed a comparative analysis. We identified three bursts of retrotransposons from 20 million years ago (Mya) and a genome-wide uneven pseudogenization peak at 11–20 Mya, which likely contributed to genomic divergences. Among the 2,483 genes preferentially expressed in fiber, a cell elongation regulator, PRE1, is strikingly A(t) biased and fiber specific, echoing the A-genome origin of spinnable fiber. The expansion of the PRE members implies a genetic factor that underlies fiber elongation. Mature cotton fiber consists of nearly pure cellulose. G. barbadense and G. hirsutum contain 29 and 30 cellulose synthase (CesA) genes, respectively; whereas most of these genes (>25) are expressed in fiber, genes for secondary cell wall biosynthesis exhibited a delayed and higher degree of up-regulation in G. barbadense compared with G. hirsutum, conferring an extended elongation stage and highly active secondary wall deposition during extra-long fiber development. The rapid diversification of sesquiterpene synthase genes in the gossypol pathway exemplifies the chemical diversity of lineage-specific secondary metabolites. The G. barbadense genome advances our understanding of allopolyploidy, which will help improve cotton fiber quality.
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spelling pubmed-45885722015-10-13 Gossypium barbadense genome sequence provides insight into the evolution of extra-long staple fiber and specialized metabolites Liu, Xia Zhao, Bo Zheng, Hua-Jun Hu, Yan Lu, Gang Yang, Chang-Qing Chen, Jie-Dan Chen, Jun-Jian Chen, Dian-Yang Zhang, Liang Zhou, Yan Wang, Ling-Jian Guo, Wang-Zhen Bai, Yu-Lin Ruan, Ju-Xin Shangguan, Xiao-Xia Mao, Ying-Bo Shan, Chun-Min Jiang, Jian-Ping Zhu, Yong-Qiang Jin, Lei Kang, Hui Chen, Shu-Ting He, Xu-Lin Wang, Rui Wang, Yue-Zhu Chen, Jie Wang, Li-Jun Yu, Shu-Ting Wang, Bi-Yun Wei, Jia Song, Si-Chao Lu, Xin-Yan Gao, Zheng-Chao Gu, Wen-Yi Deng, Xiao Ma, Dan Wang, Sen Liang, Wen-Hua Fang, Lei Cai, Cai-Ping Zhu, Xie-Fei Zhou, Bao-Liang Jeffrey Chen, Z. Xu, Shu-Hua Zhang, Yu-Gao Wang, Sheng-Yue Zhang, Tian-Zhen Zhao, Guo-Ping Chen, Xiao-Ya Sci Rep Article Of the two cultivated species of allopolyploid cotton, Gossypium barbadense produces extra-long fibers for the production of superior textiles. We sequenced its genome (AD)(2) and performed a comparative analysis. We identified three bursts of retrotransposons from 20 million years ago (Mya) and a genome-wide uneven pseudogenization peak at 11–20 Mya, which likely contributed to genomic divergences. Among the 2,483 genes preferentially expressed in fiber, a cell elongation regulator, PRE1, is strikingly A(t) biased and fiber specific, echoing the A-genome origin of spinnable fiber. The expansion of the PRE members implies a genetic factor that underlies fiber elongation. Mature cotton fiber consists of nearly pure cellulose. G. barbadense and G. hirsutum contain 29 and 30 cellulose synthase (CesA) genes, respectively; whereas most of these genes (>25) are expressed in fiber, genes for secondary cell wall biosynthesis exhibited a delayed and higher degree of up-regulation in G. barbadense compared with G. hirsutum, conferring an extended elongation stage and highly active secondary wall deposition during extra-long fiber development. The rapid diversification of sesquiterpene synthase genes in the gossypol pathway exemplifies the chemical diversity of lineage-specific secondary metabolites. The G. barbadense genome advances our understanding of allopolyploidy, which will help improve cotton fiber quality. Nature Publishing Group 2015-09-30 /pmc/articles/PMC4588572/ /pubmed/26420475 http://dx.doi.org/10.1038/srep14139 Text en Copyright © 2015, Macmillan Publishers Limited http://creativecommons.org/licenses/by/4.0/ This work is licensed under a Creative Commons Attribution 4.0 International License. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in the credit line; if the material is not included under the Creative Commons license, users will need to obtain permission from the license holder to reproduce the material. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/
spellingShingle Article
Liu, Xia
Zhao, Bo
Zheng, Hua-Jun
Hu, Yan
Lu, Gang
Yang, Chang-Qing
Chen, Jie-Dan
Chen, Jun-Jian
Chen, Dian-Yang
Zhang, Liang
Zhou, Yan
Wang, Ling-Jian
Guo, Wang-Zhen
Bai, Yu-Lin
Ruan, Ju-Xin
Shangguan, Xiao-Xia
Mao, Ying-Bo
Shan, Chun-Min
Jiang, Jian-Ping
Zhu, Yong-Qiang
Jin, Lei
Kang, Hui
Chen, Shu-Ting
He, Xu-Lin
Wang, Rui
Wang, Yue-Zhu
Chen, Jie
Wang, Li-Jun
Yu, Shu-Ting
Wang, Bi-Yun
Wei, Jia
Song, Si-Chao
Lu, Xin-Yan
Gao, Zheng-Chao
Gu, Wen-Yi
Deng, Xiao
Ma, Dan
Wang, Sen
Liang, Wen-Hua
Fang, Lei
Cai, Cai-Ping
Zhu, Xie-Fei
Zhou, Bao-Liang
Jeffrey Chen, Z.
Xu, Shu-Hua
Zhang, Yu-Gao
Wang, Sheng-Yue
Zhang, Tian-Zhen
Zhao, Guo-Ping
Chen, Xiao-Ya
Gossypium barbadense genome sequence provides insight into the evolution of extra-long staple fiber and specialized metabolites
title Gossypium barbadense genome sequence provides insight into the evolution of extra-long staple fiber and specialized metabolites
title_full Gossypium barbadense genome sequence provides insight into the evolution of extra-long staple fiber and specialized metabolites
title_fullStr Gossypium barbadense genome sequence provides insight into the evolution of extra-long staple fiber and specialized metabolites
title_full_unstemmed Gossypium barbadense genome sequence provides insight into the evolution of extra-long staple fiber and specialized metabolites
title_short Gossypium barbadense genome sequence provides insight into the evolution of extra-long staple fiber and specialized metabolites
title_sort gossypium barbadense genome sequence provides insight into the evolution of extra-long staple fiber and specialized metabolites
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4588572/
https://www.ncbi.nlm.nih.gov/pubmed/26420475
http://dx.doi.org/10.1038/srep14139
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