Xiaoming Wang
Northwest A&F University
19 Papers
1 Citations
Xiaoming Wang is an academic researcher from Northwest A&F University. The author has contributed to research in topics: Biology & Gene. The author has an hindex of 7, co-authored 11 publications.
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Papers
Global profiling of alternative splicing landscape responsive to drought, heat and their combination in wheat (Triticum aestivum L.)
Zhenshan Liu,Jinxia Qin,Xuejun Tian,Shengbao Xu,Yu Wang,Hongxia Li,Xiaoming Wang,Huiru Peng,Yingyin Yao,Zhaorong Hu,Zhongfu Ni,Mingming Xin,Qixin Sun +12 more
TL;DR: It is proposed that transcriptional regulation may play a major role in response to DS, which coordinates with AS regulation to contribute to HS and HD tolerance in wheat.
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Metabolic adaptation of wheat grain contributes to a stable filling rate under heat stress.
Xiaoming Wang,Lijiang Hou,Yunze Lu,Bingjin Wu,Xue Gong,Manshuang Liu,Jun Wang,Qixin Sun,Qixin Sun,Elizabeth Vierling,Shengbao Xu +10 more
TL;DR: When wheat is subjected to heat stress during grain filling, metabolic adaptation reallocates resources to deposition of reserves and prioritizes a stable filling rate.
Hybrid sequencing reveals insight into heat sensing and signaling of bread wheat.
Xiaoming Wang,Siyuan Chen,Xue Shi,Danni Liu,Peng Zhao,Yunze Lu,Yanbing Cheng,Zhenshan Liu,Xiaojun Nie,Weining Song,Qixin Sun,Qixin Sun,Shengbao Xu,Chuang Ma +13 more
TL;DR: Large-scale analysis revealed a global landscape of heat adaptations, uncovering unexpected rapid heat sensing and signaling, significant changes of more than half of HS-responsive genes within 30 min, heat shock factor-dependent and -independent heat signaling, and metabolic alterations in early HS-responses.
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Evolutionary Origin, Gradual Accumulation and Functional Divergence of Heat Shock Factor Gene Family with Plant Evolution.
TL;DR: A comprehensive evolution analysis on the HSF gene family was performed in 51 representative plant species and demonstrated that the HSFB group which lacks a typical AHA activation domain, was the most ancient, and is under stronger purifying selection pressure in the subsequent evolutionary processes.
Comparative Proteomic Analysis of Flag Leaves Reveals New Insight into Wheat Heat Adaptation.
Yunze Lu,Ruiqiong Li,Ruochen Wang,Xiaoming Wang,Weijun Zheng,Qixin Sun,Qixin Sun,Shaoming Tong,Shaojun Dai,Shengbao Xu +9 more
TL;DR: New insight is provided into wheat heat adaption and new perspectives on thermotolerance improvement are provided and the significantly accumulation of GSTs and Trxs in response to heat suggested their important roles in redox regulation, and they could be the promising candidates for improving wheat thermot tolerance.