Coordination of light, circadian clock with temperature: The
发布时间:2021-11-14 09:38
Rice(Oryza sativa L.) is a major staple food crop for over half of the world’s population. As a crop species originated from the subtropics, rice production is hampered by chilling stress. The genetic mechanisms of rice responses to chilling stress have attracted much attention, focusing on chilling-related gene mining and functional analyses.Plants have evolved sophisticated regulatory systems to respond to chilling stress in coordination with light signaling pathway and internal circadian cloc...
【文章来源】:Journal of Integrative Plant Biology. 2020,62(06)SCICSCD
【文章页数】:24 页
【文章目录】:
INTRODUCTION
THE INFLUENCE OF CHILLING STRESS ON RICE
DISCOVERY OF GENES FOR CHILLING TOLERANCE IN RICE
CHILLING STRESS SIGNAL PERCEPTION IN RICE
CHILLING SIGNAL TRANSDUCTION IN RICE
The DREB/CBF‐dependent regulon
Transcription factors in rice chilling signal transduction
Kinases and ligases in rice chilling signal transduction
Other rice chilling tolerance related genes
CROSS‐TALK BETWEEN LIGHT SIGNALING AND CHILLING TOLERANCE REGULATION PATHWAYS
Brief summary of light signaling pathways
Dual roles of photoreceptors in light and temperature signaling
Convergence at the downstream integrators
INTERPLAY OF CIRCADIAN RHYTHMS WITH COLD RESPONSE
Arabidopsis circadian rhythms
Cold response regulated by circadian clock in Arabidopsis
Circadian clock elements regulated by low temperature in Arabidopsis
Circadian clock components in rice
FUTURE PERSPECTIVES
Further investigations needed to understand rice chilling tolerance
Potential impacts of light and circadian clock on the regulation of rice chilling tolerance
AUTHOR CONTRIBUTIONS
【参考文献】:
期刊论文
[1]光温条件对光敏感核不育水稻植株性状影响的初步分析[J]. 贺浩华,元生朝. 杂交水稻. 1989(05)
本文编号:3494400
【文章来源】:Journal of Integrative Plant Biology. 2020,62(06)SCICSCD
【文章页数】:24 页
【文章目录】:
INTRODUCTION
THE INFLUENCE OF CHILLING STRESS ON RICE
DISCOVERY OF GENES FOR CHILLING TOLERANCE IN RICE
CHILLING STRESS SIGNAL PERCEPTION IN RICE
CHILLING SIGNAL TRANSDUCTION IN RICE
The DREB/CBF‐dependent regulon
Transcription factors in rice chilling signal transduction
Kinases and ligases in rice chilling signal transduction
Other rice chilling tolerance related genes
CROSS‐TALK BETWEEN LIGHT SIGNALING AND CHILLING TOLERANCE REGULATION PATHWAYS
Brief summary of light signaling pathways
Dual roles of photoreceptors in light and temperature signaling
Convergence at the downstream integrators
INTERPLAY OF CIRCADIAN RHYTHMS WITH COLD RESPONSE
Arabidopsis circadian rhythms
Cold response regulated by circadian clock in Arabidopsis
Circadian clock elements regulated by low temperature in Arabidopsis
Circadian clock components in rice
FUTURE PERSPECTIVES
Further investigations needed to understand rice chilling tolerance
Potential impacts of light and circadian clock on the regulation of rice chilling tolerance
AUTHOR CONTRIBUTIONS
【参考文献】:
期刊论文
[1]光温条件对光敏感核不育水稻植株性状影响的初步分析[J]. 贺浩华,元生朝. 杂交水稻. 1989(05)
本文编号:3494400
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