Y
Yang Dong
Researcher at Yunnan Agricultural University
Publications - 95
Citations - 5709
Yang Dong is an academic researcher from Yunnan Agricultural University. The author has contributed to research in topics: Genome & Gene. The author has an hindex of 27, co-authored 87 publications receiving 4349 citations. Previous affiliations of Yang Dong include Kunming Institute of Zoology & Kunming University of Science and Technology.
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Journal ArticleDOI
Resequencing 50 accessions of cultivated and wild rice yields markers for identifying agronomically important genes
Xun Xu,Xin Liu,Song Ge,Jeffrey D. Jensen,Fengyi Hu,Xin Li,Yang Dong,Ryan N. Gutenkunst,Lin Fang,Lei Huang,Jingxiang Li,Weiming He,Weiming He,Guojie Zhang,Guojie Zhang,Guojie Zhang,Xiaoming Zheng,Fu-Min Zhang,Yingrui Li,Chang Yu,Karsten Kristiansen,Karsten Kristiansen,Xiuqing Zhang,Jian Wang,Mark G. Wright,Susan R. McCouch,Rasmus Nielsen,Rasmus Nielsen,Rasmus Nielsen,Jun Wang,Jun Wang,Wen Wang +31 more
TL;DR: Thousands of genes with significantly lower diversity in cultivated but not wild rice are identified, which represent candidate regions selected during domestication and should be valuable for breeding and for identifying agronomically important genes in rice.
Journal ArticleDOI
Resequencing 302 wild and cultivated accessions identifies genes related to domestication and improvement in soybean
Zhengkui Zhou,Yu Jiang,Zheng Wang,Zhiheng Gou,Jun Lyu,Weiyu Li,Yanjun Yu,Liping Shu,Yingjun Zhao,Yingjun Zhao,Yanming Ma,Chao Fang,Yanting Shen,Tengfei Liu,Congcong Li,Qing Li,Mian Wu,Min Wang,Yunshuai Wu,Yang Dong,Wenting Wan,Xiao Wang,Xiao Wang,Zhaoli Ding,Yuedong Gao,Hui Xiang,Baoge Zhu,Suk-Ha Lee,Wen Wang,Zhixi Tian +29 more
TL;DR: Resequencing of 302 soybean accessions and GWAS provide a comprehensive resource for soybean geneticists and breeders.
Journal ArticleDOI
Sequencing and automated whole-genome optical mapping of the genome of a domestic goat (Capra hircus)
Yang Dong,Yang Dong,Min Xie,Yu Jiang,Yu Jiang,Nianqing Xiao,Xiaoyong Du,Wenguang Zhang,Wenguang Zhang,Gwenola Tosser-Klopp,Jinhuan Wang,Shuang Yang,Jie Liang,Wenbin Chen,Jing Chen,Peng Zeng,Yong Hou,Chao Bian,Shengkai Pan,Yuxiang Li,Xin Liu,Wenliang Wang,Bertrand Servin,B.L. Sayre,Bin Zhu,Deacon John Sweeney,Rich Moore,Wenhui Nie,Yongyi Shen,Yongyi Shen,Ruoping Zhao,Guojie Zhang,Jinquan Li,Thomas Faraut,James E. Womack,Ya-Ping Zhang,James Kijas,Noelle E. Cockett,Xun Xu,Xun Xu,Shuhong Zhao,Jun Wang,Wen Wang +42 more
TL;DR: This study shows that whole-genome mapping technology can be used for the de novo assembly of large genomes and compares transcriptomic analysis of the primary and secondary follicles of a cashmere goat to reveal 51 genes that are differentially expressed between the two types of hair follicles.
Journal ArticleDOI
The sheep genome illuminates biology of the rumen and lipid metabolism
Yu Jiang,Yu Jiang,Yu Jiang,Min Xie,Wenbin Chen,Richard Talbot,Jillian F. Maddox,Thomas Faraut,Chunhua Wu,Donna M. Muzny,Yuxiang Li,Wenguang Zhang,Wenguang Zhang,Jo-Ann L. Stanton,Rudiger Brauning,W. Barris,Thibaut Hourlier,Thibaut Hourlier,Bronwen Aken,Bronwen Aken,Stephen M. J. Searle,David L. Adelson,Chao Bian,Graham R. Cam,Yulin Chen,Shifeng Cheng,Udaya DeSilva,Karen Dixen,Yang Dong,Guangyi Fan,I.R. Franklin,Shaoyin Fu,Pablo Fuentes-Utrilla,Rui Guan,Margaret A. Highland,Margaret A. Highland,Michael Holder,Guodong Huang,Aaron Ingham,Shalini N. Jhangiani,Divya Kalra,Christie Kovar,Sandra L. Lee,Weiqing Liu,Xin Liu,Changxin Lu,Tian Lv,Tittu Mathew,Sean McWilliam,Moira Menzies,Shengkai Pan,David Robelin,Bertrand Servin,David Townley,Wenliang Wang,Bin Wei,Stephen N. White,Stephen N. White,Xinhua Yang,Chen Ye,Yaojing Yue,Peng Zeng,Qing Zhou,Jacob B. Hansen,Karsten Kristiansen,Richard A. Gibbs,Paul Flicek,Christopher C. Warkup,Huw E. Jones,V. Hutton Oddy,Frank W. Nicholas,John C. McEwan,James Kijas,Jun Wang,Kim C. Worley,Alan Archibald,Noelle E. Cockett,Xun Xu,Wen Wang,Brian P. Dalrymple +79 more
TL;DR: A genome for ewe and ewe Sheep-specific genetic changes underlie differences in lipid metabolism between sheep and other mammals, and may have contributed to the production of wool.
Journal ArticleDOI
Single base-resolution methylome of the silkworm reveals a sparse epigenomic map
Hui Xiang,Jingde Zhu,Jingde Zhu,Quan Chen,Fangyin Dai,Xin Li,Muwang Li,Hongyu Zhang,Guojie Zhang,Dong Li,Yang Dong,Li Zhao,Ying Lin,Daojun Cheng,Jian Yu,Jinfeng Sun,Xiaoyu Zhou,Kelong Ma,Yinghua He,Yangxing Zhao,Shicheng Guo,Mingzhi Ye,Guangwu Guo,Yingrui Li,Ruiqiang Li,Xiuqing Zhang,Lijia Ma,Karsten Kristiansen,Qiuhong Guo,Jianhao Jiang,Stephan Beck,Qingyou Xia,Wen Wang,Jun Wang +33 more
TL;DR: The methylome of a model insect, the silkworm Bombyx mori, is surveyed at single-base resolution using Illumina high-throughput bisulfite sequencing (MethylC-Seq), finding that transposable elements, promoters and ribosomal DNAs are hypomethylated, but in contrast, genomic loci matching small RNAs in gene bodies are densely methylated.