Jiaming Yin
Southwest University
17 Papers
40 Citations
Jiaming Yin is an academic researcher from Southwest University. The author has contributed to research in topics: Gene & Brassica. The author has an hindex of 6, co-authored 11 publications.
Chat about Author
Papers
TRANSPARENT TESTA 12 genes from Brassica napus and parental species: cloning, evolution, and differential involvement in yellow seed trait.
TL;DR: The molecular basis for the yellow seed trait, in Brassica, and the theoretical and practical implications of the highly variable intron 1 of these TT12 genes are discussed.
82
Characterization and evolution of 5′ and 3′ untranslated regions in eukaryotes
Honglei Liu,Jiaming Yin,Meili Xiao,Caihua Gao,Annaliese S. Mason,Zunkang Zhao,Yingchun Liu,Jiana Li,Donghui Fu +8 more
TL;DR: Comparison of 5' and 3' untranslated regions of different species suggested that evolution of species complexity from lower organisms to higher organisms is accompanied by an increase in the regulatory complexity of UTRs, mediated by increasing UTR length, increasing G+C content of 5', and insertion and expansion of repetitive sequences.
31
Development of an efficient marker‐free soybean transformation method using the novel bacterium Ochrobactrum haywardense H1
Hyeon-Je Cho,York Moy,Theodore M. Klein,Jiaming Yin,J. Bolar,Carol A. Hendrick,Mary Beatty,Leandro Castaneda,Anthony J. Kinney,Todd J. Jones,N. Doane Chilcoat +10 more
TL;DR: It is demonstrated that Oh H1‐8, combined with spectinomycin selection, is an efficient, rapid, marker‐free and yield‐neutral transformation system for elite soybean.
24
Characterization and comparison of gene-based simple sequence repeats across Brassica species
TL;DR: The successful development of 123 pairs of SSR primers for Brassica PUTs showed that SSR-PUTs could be exploited as gene-based SSR functional markers for application in Brassica breeding, and indicate that long SSRs might become shorter to enable the plant to adapt to environmental and artificial selection.
22
Comparative genomic analyses reveal the genetic basis of the yellow-seed trait in Brassica napus
Cunmin Qu,Meichen Zhu,Ran Hu,Yongchao Niu,Si Chen,Huiyan Zhao,Chengxiang Li,Zhen Wang,Nengwen Yin,Fujun Sun,Zhiyou Chen,Shulin Shen,Guoxia Shang,Yan Zhou,Xingying Yan,Lijuan Wei,Liezhao Liu,Bin Yi,Jinmin Lian,Jiang Chuan Li,Zhanglin Tang,Ying Liang,Xinfu Xu,Rui Wang,Jiaming Yin,Huafang Wan,Hai Du,Wei Qian,Yourong Chai,Qingyuan Zhou,Yajun He,Silin Zhong,Xiao Qiu,Hao Yu,Hon-Ming Lam,Kun Lu,Fuyou Fu,Jiana Li +37 more
TL;DR: Combining in-depth fine mapping of a quantitative trait locus for seed color with other omics data reveal BnA09MYB47a, encoding an R2R3-MYB-type transcription factor, as the causal gene of a major QTL controlling the yellow-seed trait.
14