Draft genome sequence of the mulberry tree Morus notabilis

Human utilization of the mulberry–silkworm interaction started at least 5,000 years ago and greatly influenced world history through the Silk Road. Complementing the silkworm genome sequence, here we describe the genome of a mulberry species Morus notabilis. In the 330-Mb genome assembly, we identif...

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Autores principales: He, Ningjia, Zhang, Chi, Qi, Xiwu, Zhao, Shancen, Tao, Yong, Yang, Guojun, Lee, Tae-Ho, Wang, Xiyin, Cai, Qingle, Li, Dong, Lu, Mengzhu, Liao, Sentai, Luo, Guoqing, He, Rongjun, Tan, Xu, Xu, Yunmin, Li, Tian, Zhao, Aichun, Jia, Ling, Fu, Qiang, Zeng, Qiwei, Gao, Chuan, Ma, Bi, Liang, Jiubo, Wang, Xiling, Shang, Jingzhe, Song, Penghua, Wu, Haiyang, Fan, Li, Wang, Qing, Shuai, Qin, Zhu, Juanjuan, Wei, Congjin, Zhu-Salzman, Keyan, Jin, Dianchuan, Wang, Jinpeng, Liu, Tao, Yu, Maode, Tang, Cuiming, Wang, Zhenjiang, Dai, Fanwei, Chen, Jiafei, Liu, Yan, Zhao, Shutang, Lin, Tianbao, Zhang, Shougong, Wang, Junyi, Wang, Jian, Yang, Huanming, Yang, Guangwei, Wang, Jun, Paterson, Andrew H., Xia, Qingyou, Ji, Dongfeng, Xiang, Zhonghuai
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Pub. Group 2013
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3791463/
https://www.ncbi.nlm.nih.gov/pubmed/24048436
http://dx.doi.org/10.1038/ncomms3445
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author He, Ningjia
Zhang, Chi
Qi, Xiwu
Zhao, Shancen
Tao, Yong
Yang, Guojun
Lee, Tae-Ho
Wang, Xiyin
Cai, Qingle
Li, Dong
Lu, Mengzhu
Liao, Sentai
Luo, Guoqing
He, Rongjun
Tan, Xu
Xu, Yunmin
Li, Tian
Zhao, Aichun
Jia, Ling
Fu, Qiang
Zeng, Qiwei
Gao, Chuan
Ma, Bi
Liang, Jiubo
Wang, Xiling
Shang, Jingzhe
Song, Penghua
Wu, Haiyang
Fan, Li
Wang, Qing
Shuai, Qin
Zhu, Juanjuan
Wei, Congjin
Zhu-Salzman, Keyan
Jin, Dianchuan
Wang, Jinpeng
Liu, Tao
Yu, Maode
Tang, Cuiming
Wang, Zhenjiang
Dai, Fanwei
Chen, Jiafei
Liu, Yan
Zhao, Shutang
Lin, Tianbao
Zhang, Shougong
Wang, Junyi
Wang, Jian
Yang, Huanming
Yang, Guangwei
Wang, Jun
Paterson, Andrew H.
Xia, Qingyou
Ji, Dongfeng
Xiang, Zhonghuai
author_facet He, Ningjia
Zhang, Chi
Qi, Xiwu
Zhao, Shancen
Tao, Yong
Yang, Guojun
Lee, Tae-Ho
Wang, Xiyin
Cai, Qingle
Li, Dong
Lu, Mengzhu
Liao, Sentai
Luo, Guoqing
He, Rongjun
Tan, Xu
Xu, Yunmin
Li, Tian
Zhao, Aichun
Jia, Ling
Fu, Qiang
Zeng, Qiwei
Gao, Chuan
Ma, Bi
Liang, Jiubo
Wang, Xiling
Shang, Jingzhe
Song, Penghua
Wu, Haiyang
Fan, Li
Wang, Qing
Shuai, Qin
Zhu, Juanjuan
Wei, Congjin
Zhu-Salzman, Keyan
Jin, Dianchuan
Wang, Jinpeng
Liu, Tao
Yu, Maode
Tang, Cuiming
Wang, Zhenjiang
Dai, Fanwei
Chen, Jiafei
Liu, Yan
Zhao, Shutang
Lin, Tianbao
Zhang, Shougong
Wang, Junyi
Wang, Jian
Yang, Huanming
Yang, Guangwei
Wang, Jun
Paterson, Andrew H.
Xia, Qingyou
Ji, Dongfeng
Xiang, Zhonghuai
author_sort He, Ningjia
collection PubMed
description Human utilization of the mulberry–silkworm interaction started at least 5,000 years ago and greatly influenced world history through the Silk Road. Complementing the silkworm genome sequence, here we describe the genome of a mulberry species Morus notabilis. In the 330-Mb genome assembly, we identify 128 Mb of repetitive sequences and 29,338 genes, 60.8% of which are supported by transcriptome sequencing. Mulberry gene sequences appear to evolve ~3 times faster than other Rosales, perhaps facilitating the species’ spread worldwide. The mulberry tree is among a few eudicots but several Rosales that have not preserved genome duplications in more than 100 million years; however, a neopolyploid series found in the mulberry tree and several others suggest that new duplications may confer benefits. Five predicted mulberry miRNAs are found in the haemolymph and silk glands of the silkworm, suggesting interactions at molecular levels in the plant–herbivore relationship. The identification and analyses of mulberry genes involved in diversifying selection, resistance and protease inhibitor expressed in the laticifers will accelerate the improvement of mulberry plants.
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spelling pubmed-37914632013-10-09 Draft genome sequence of the mulberry tree Morus notabilis He, Ningjia Zhang, Chi Qi, Xiwu Zhao, Shancen Tao, Yong Yang, Guojun Lee, Tae-Ho Wang, Xiyin Cai, Qingle Li, Dong Lu, Mengzhu Liao, Sentai Luo, Guoqing He, Rongjun Tan, Xu Xu, Yunmin Li, Tian Zhao, Aichun Jia, Ling Fu, Qiang Zeng, Qiwei Gao, Chuan Ma, Bi Liang, Jiubo Wang, Xiling Shang, Jingzhe Song, Penghua Wu, Haiyang Fan, Li Wang, Qing Shuai, Qin Zhu, Juanjuan Wei, Congjin Zhu-Salzman, Keyan Jin, Dianchuan Wang, Jinpeng Liu, Tao Yu, Maode Tang, Cuiming Wang, Zhenjiang Dai, Fanwei Chen, Jiafei Liu, Yan Zhao, Shutang Lin, Tianbao Zhang, Shougong Wang, Junyi Wang, Jian Yang, Huanming Yang, Guangwei Wang, Jun Paterson, Andrew H. Xia, Qingyou Ji, Dongfeng Xiang, Zhonghuai Nat Commun Article Human utilization of the mulberry–silkworm interaction started at least 5,000 years ago and greatly influenced world history through the Silk Road. Complementing the silkworm genome sequence, here we describe the genome of a mulberry species Morus notabilis. In the 330-Mb genome assembly, we identify 128 Mb of repetitive sequences and 29,338 genes, 60.8% of which are supported by transcriptome sequencing. Mulberry gene sequences appear to evolve ~3 times faster than other Rosales, perhaps facilitating the species’ spread worldwide. The mulberry tree is among a few eudicots but several Rosales that have not preserved genome duplications in more than 100 million years; however, a neopolyploid series found in the mulberry tree and several others suggest that new duplications may confer benefits. Five predicted mulberry miRNAs are found in the haemolymph and silk glands of the silkworm, suggesting interactions at molecular levels in the plant–herbivore relationship. The identification and analyses of mulberry genes involved in diversifying selection, resistance and protease inhibitor expressed in the laticifers will accelerate the improvement of mulberry plants. Nature Pub. Group 2013-09-19 /pmc/articles/PMC3791463/ /pubmed/24048436 http://dx.doi.org/10.1038/ncomms3445 Text en Copyright © 2013, Nature Publishing Group, a division of Macmillan Publishers Limited. All Rights Reserved. http://creativecommons.org/licenses/by-nc-sa/3.0/ This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 3.0 Unported License. To view a copy of this license, visit http://creativecommons.org/licenses/by-nc-sa/3.0/
spellingShingle Article
He, Ningjia
Zhang, Chi
Qi, Xiwu
Zhao, Shancen
Tao, Yong
Yang, Guojun
Lee, Tae-Ho
Wang, Xiyin
Cai, Qingle
Li, Dong
Lu, Mengzhu
Liao, Sentai
Luo, Guoqing
He, Rongjun
Tan, Xu
Xu, Yunmin
Li, Tian
Zhao, Aichun
Jia, Ling
Fu, Qiang
Zeng, Qiwei
Gao, Chuan
Ma, Bi
Liang, Jiubo
Wang, Xiling
Shang, Jingzhe
Song, Penghua
Wu, Haiyang
Fan, Li
Wang, Qing
Shuai, Qin
Zhu, Juanjuan
Wei, Congjin
Zhu-Salzman, Keyan
Jin, Dianchuan
Wang, Jinpeng
Liu, Tao
Yu, Maode
Tang, Cuiming
Wang, Zhenjiang
Dai, Fanwei
Chen, Jiafei
Liu, Yan
Zhao, Shutang
Lin, Tianbao
Zhang, Shougong
Wang, Junyi
Wang, Jian
Yang, Huanming
Yang, Guangwei
Wang, Jun
Paterson, Andrew H.
Xia, Qingyou
Ji, Dongfeng
Xiang, Zhonghuai
Draft genome sequence of the mulberry tree Morus notabilis
title Draft genome sequence of the mulberry tree Morus notabilis
title_full Draft genome sequence of the mulberry tree Morus notabilis
title_fullStr Draft genome sequence of the mulberry tree Morus notabilis
title_full_unstemmed Draft genome sequence of the mulberry tree Morus notabilis
title_short Draft genome sequence of the mulberry tree Morus notabilis
title_sort draft genome sequence of the mulberry tree morus notabilis
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3791463/
https://www.ncbi.nlm.nih.gov/pubmed/24048436
http://dx.doi.org/10.1038/ncomms3445
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