Z
Zhenying Dong
Researcher at University of Science and Technology Beijing
Publications - 12
Citations - 476
Zhenying Dong is an academic researcher from University of Science and Technology Beijing. The author has contributed to research in topics: Sterility & Mutant. The author has an hindex of 8, co-authored 12 publications receiving 238 citations.
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Journal ArticleDOI
Construction of a multicontrol sterility system for a maize male-sterile line and hybrid seed production based on the ZmMs7 gene encoding a PHD-finger transcription factor.
Zhang Danfeng,Zhang Danfeng,Suowei Wu,An Xueli,Ke Xie,Zhenying Dong,Yan Zhou,Liwen Xu,Fang Wen,Liu Shensi,Shuangshuang Liu,Taotao Zhu,Jinping Li,Li-qun Rao,Jiuran Zhao,Xiangyuan Wan,Xiangyuan Wan +16 more
TL;DR: A multicontrol sterility (MCS) system based on the maize male sterility 7 (ms7) mutant and its wild‐type Zea mays Male sterility7 (ZmMs7) gene via a transgenic strategy, leading to the utilization of GMS in hybrid seed production.
Journal ArticleDOI
Maize Genic Male-Sterility Genes and Their Applications in Hybrid Breeding: Progress and Perspectives.
TL;DR: The continuous exploration of GMS genes and BMS systems will enhance the understanding of molecular regulatory networks controlling male fertility and greatly facilitate hybrid vigor utilization in breeding and field production of maize and other crops.
Journal ArticleDOI
ZmMs30 Encoding a Novel GDSL Lipase Is Essential for Male Fertility and Valuable for Hybrid Breeding in Maize.
An Xueli,Zhenying Dong,Tian Youhui,Ke Xie,Suowei Wu,Taotao Zhu,Zhang Danfeng,Yan Zhou,Canfang Niu,Biao Ma,Quancan Hou,Bao Jianxi,Zhang Simiao,Ziwen Li,Wang Yanbo,Tingwei Yan,Xiaojing Sun,Yuwen Zhang,Jinping Li,Xiangyuan Wan +19 more
TL;DR: A maize GMS gene is reported, ZmMs30, which encodes a novel type of GDSL lipase with diverged catalytic residues, which is crucial for the aliphatic metabolic pathway required for pollen exine formation and anther cuticle development and provides a valuable male-sterility system for hybrid breeding maize.
Journal ArticleDOI
Map-based cloning and characterization of Zea mays male sterility33 (ZmMs33) gene, encoding a glycerol-3-phosphate acyltransferase.
Ke Xie,Suowei Wu,Ziwen Li,Yan Zhou,Zhang Danfeng,Zhenying Dong,An Xueli,Taotao Zhu,Zhang Simiao,Shuangshuang Liu,Jinping Li,Xiangyuan Wan +11 more
TL;DR: It is revealed that the monocot-specific GPAT3 protein plays an important role in male fertility in maize, and ZmMs33 and mutants in this gene may have value in maize male-sterile line breeding and hybrid seed production.
Journal ArticleDOI
Molecular regulation of ZmMs7 required for maize male fertility and development of a dominant male-sterility system in multiple species.
An Xueli,Biao Ma,Meijuan Duan,Zhenying Dong,Ruogu Liu,Yuan Dingyang,Quancan Hou,Suowei Wu,Zhang Danfeng,Dongcheng Liu,Dong Yu,Yuwen Zhang,Ke Xie,Taotao Zhu,Ziwen Li,Zhang Simiao,Tian Youhui,Chang Liu,Jinping Li,Longping Yuan,Xiangyuan Wan +20 more
TL;DR: A dominant male-sterility system that was proved to be effective in maize, rice, and Arabidopsis and has potential advantages in utilization of a single transgene cassette, high stability of male sterility under different genetic backgrounds, and producing fluorescent transgenic and normal color nontransgenic F1 hybrid seeds.