典型文献
Autocatalytic biosynthesis of abscisic acid and its synergistic action with auxin to regulate strawberry fruit ripening
文献摘要:
Abscisic acid(ABA)plays a major role in the regulation of strawberry fruit ripening;however,the origin of the ABA signal is largely unknown.Here,we report an autocatalytic mechanism for ABA biosynthesis and its synergistic interaction with auxin to regulate strawberry fruit ripening.We demonstrate that ABA biosynthesis is self-induced in the achenes but not in the receptacle,resulting in its substantial accumulation during ripening.ABA was found to regulate both IAA transport and biosynthesis,thereby modulating IAA content during both early fruit growth and later fruit ripening.Taken together,these results reveal the origins of the ABA signal and demonstrate the importance of its coordinated action with IAA in the regulation of strawberry fruit development and ripening.
文献关键词:
中图分类号:
作者姓名:
Tianyu Li;Zhengrong Dai;Baozhen Zeng;Jie Li;Jinyao Ouyang;Li Kang;Wei Wang;Wensuo Jia
作者机构:
College of Horticulture,China Agricultural University,Beijing 100193,China
文献出处:
引用格式:
[1]Tianyu Li;Zhengrong Dai;Baozhen Zeng;Jie Li;Jinyao Ouyang;Li Kang;Wei Wang;Wensuo Jia-.Autocatalytic biosynthesis of abscisic acid and its synergistic action with auxin to regulate strawberry fruit ripening)[J].园艺研究(英文),2022(01):325-335
A类:
Autocatalytic
B类:
biosynthesis,abscisic,acid,its,synergistic,auxin,regulate,strawberry,fruit,ripening,Abscisic,ABA,plays,major,role,regulation,however,signal,largely,unknown,Here,report,autocatalytic,mechanism,interaction,We,demonstrate,that,self,induced,achenes,but,not,receptacle,resulting,substantial,accumulation,during,was,found,both,IAA,transport,thereby,modulating,content,early,growth,later,Taken,together,these,results,reveal,origins,importance,coordinated,development
AB值:
0.48092
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