Ping Yu
Rice University
30 Papers
47 Citations
Ping Yu is an academic researcher from Rice University. The author has contributed to research in topics: Mutant & Gene. The author has an hindex of 10, co-authored 27 publications.
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Papers
OsMS1 functions as a transcriptional activator to regulate programmed tapetum development and pollen exine formation in rice.
Zhengfu Yang,Ling Liu,Lianping Sun,Ping Yu,Peipei Zhang,Peipei Zhang,Adil Abbas,Xiaojiao Xiang,Xiaojiao Xiang,Weixun Wu,Yingxin Zhang,Liyong Cao,Shihua Cheng +12 more
TL;DR: OsMS1 functions as a transcriptional activator and interacts with known tapetal regulatory factors through its plant homeodomain (PHD) regulatingTapetal programmed cell death (PCD) and pollen exine formation in rice.
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The Rice AAA-ATPase OsFIGNL1 Is Essential for Male Meiosis.
Peipei Zhang,Peipei Zhang,Yingxin Zhang,Lianping Sun,Sittipun Sinumporn,Zhengfu Yang,Bin Sun,Dandan Xuan,Zihe Li,Ping Yu,Weixun Wu,Kejian Wang,Liyong Cao,Shihua Cheng +13 more
TL;DR: The results suggest that OsFIGNL1 plays an important role in regulation of male meiosis and anther development, and that the recessive mutation of this gene causes male sterility in rice.
TDR INTERACTING PROTEIN 3, encoding a PHD-finger transcription factor, regulates Ubisch bodies and pollen wall formation in rice.
Zhengfu Yang,Zhengfu Yang,Lianping Sun,Peipei Zhang,Peipei Zhang,Yingxin Zhang,Ping Yu,Ling Liu,Adil Abbas,Xiaojiao Xiang,Xiaojiao Xiang,Weixun Wu,Xiaodeng Zhan,Liyong Cao,Shihua Cheng +14 more
TL;DR: An unprecedented role for TIP3 is revealed in regulating Ubisch bodies and pollen exine formation, and presents a potential tool to manipulate male fertility for hybrid rice breeding.
52
The MYB transcription factor Baymax1 plays a critical role in rice male fertility
Xiaojiao Xiang,Xiaojiao Xiang,Xiaojiao Xiang,Lianping Sun,Ping Yu,Zhengfu Yang,Zhengfu Yang,Peipei Zhang,Yingxin Zhang,Weixun Wu,Daibo Chen,Xiaodeng Zhan,Riaz-Muhammad Khan,Adil Abbas,Shihua Cheng,Liyong Cao +15 more
TL;DR: Rice male fertility gene Baymax1, isolated through map-based cloning, encodes a MYB transcription factor and is essential for rice tapetum and microspore development and may serve as a potential target for rice male-sterile line breeding and hybrid seed production.
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Exploiting Genic Male Sterility in Rice: From Molecular Dissection to Breeding Applications.
TL;DR: In this article, a review of the recent evolution, exploration, and exploitation of genic male sterility to the improvement of rice crop production is presented, with a focus on state-of-the-art developments in the engineering of male sterilities to overcome issues associated with male sterality-mediated rice breeding to address the current challenges.