aBIOTECH | 最新上线『非生物胁迫』主题精选

本期精选 aBIOTECH 最新上线的『非生物胁迫』相关文章，点击文章题目可以下载全文，欢迎学者们阅读、转发。

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Strategies for adaptation to high light in plants

aBIOTECH | 王宏斌/靳红磊团队综述植物适应强光的策略和机制

Man Zhang, Yu Ming, Hong-Bin Wang & Hong-Lei Jin 

Fig. 1 Photoprotection mechanisms in plants

2

OsbHLH062 regulates iron homeostasis by inhibiting iron deficiency responses in rice

aBIOTECH | 郑录庆团队发现水稻铁稳态新的负调控机制

Wujian Wang, Fengyu He, Hui Zhang, Yue Yang, Xiaojuan Wang, Yue Fu, Huixia Shou & Luqing Zheng

Fig. 1 OsbHLH062 is a transcriptional repressor

3

Emerging strategies to improve heat stress tolerance in crops

aBIOTECH | 钦鹏/李仕贵团队综述作物耐高温研究进展并提出创新策略

Jiawei Xiong, Hao Wang, Zhaohui Zhong, Shigui Li & Peng Qin

Fig. 1 Trends in global temperature change

4

Natural GmACO1 allelic variations confer drought tolerance and influence nodule formation in soybean

aBIOTECH | 田志喜团队发现大豆正调控抗旱新基因GmACO1

Zhifang Zhang, Junkui Ma, Xia Yang, Shan Liang, Yucheng Liu, Yaqin Yuan, Qianjin Liang, Yanting Shen, Guoan Zhou, Min Zhang, Zhixi Tian & Shulin Liu

Fig. 1 GmACO1 improves drought tolerance in soybean

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Mining salt stress-related genes in Spartina alterniflora via analyzing co-evolution signal across 365 plant species using phylogenetic profiling

aBIOTECH | 李慧慧团队利用大规模进化信息和机器学习算法成功预测植物盐胁迫相关基因

Shang Gao, Shoukun Chen, Maogeng Yang, Jinran Wu, Shihua Chen & Huihui Li

Fig. 2 Salt stress-related genes are predictable across species by machine learning using evolutionary information

6

Breeding and molecular characterization of a new salt-tolerant wheat variety

aBIOTECH | 中国农业科学院作物科学研究所/河南科技大学创制耐盐小麦新品系

Wanqing Bai, Ziyi Yang, Shuxian Huang, Anqi Li, Liming Wang, Yunwei Zhang & Jiaqiang Sun

Fig. 1 Breeding and molecular characterization of a new salttolerant wheat variety

7

A high-throughput protocol for testing heat-stress tolerance in pollen

aBIOTECH | 周美学团队开发花粉耐热筛选新技术助力小麦耐热品种培育

Chenchen Zhao, Abu Bakar Siddique, Ce Guo, Sergey Shabala, Chengdao Li, Zhonghua Chen, Rajeev Varshney & Meixue Zhou

Fig. 4 Representative pollen sampling time points and pollen performance under variable temperature conditions

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SnRK1 and TOR: central regulators of autophagy in plant energy stress responses

aBIOTECH | 华南师范大学高彩吉课题组综述植物自噬研究进展

Lei Feng, Xibao Li, Xuan-Ang Zheng, Zhao Zheng, Qing-Ren Liu, Chuanliang Liu, Qian-Lin Zhu, Wenjin Shen, Chao Yang, Hongbo Li, Xiaorong Wan, Yixiong Zheng, Jun Zhou & Caiji Gao

Fig. 3 SnRK1 and TORC1 antagonistically regulate autophagy in plants

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Impact of acute heat stress on mitochondrial function, ultrastructure and cardiolipin distribution in  Arabidopsis

aBIOTECH | 潘荣辉/Jianping Hu 揭示植物线粒体和心磷脂在高温胁迫响应中的变化规律

Yukang Wang, Ronghui Pan & Jianping Hu

Fig. 1 Impact of acute heat stress on mitochondrial function, ultrastructure and cardiolipin distribution

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Removal of the C4-domain preserves the drought tolerance enhanced by CsMYB4a and eliminates the negative impact of this transcription factor on plant growth

Mingzhuo Li, Guoliang Ma, Xiu Li, Lili Guo, Yanzhi Li, Yajun Liu, Wenzhao Wang, Xiaolan Jiang, De-Yu Xie, Liping Gao & Tao Xia

Fig. 1

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Heterologous expression of the maize transcription factor ZmbHLH36 enhances abiotic stress tolerance in Arabidopsis

Zhenggang Dai, Keyong Zhao, Dengyu Zheng, Siyu Guo, Huawen Zou, Zhongyi Wu & Chun Zhang

Fig. 5 Phenotypic analysis of transgenic Arabidopsis under drought treatment in soil