Identification of potential nitric oxide-sensing proteins using the H-NOX motif  

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作  者:Aloysius Wong Xuechen Tian Yixin Yang Christoph Gehring 

机构地区:[1]Department of Biology,College of Science and Technology,Wenzhou-Kean University,88 Daxue Road,Ouhai,Wenzhou,Zhejiang Province 325060,China [2]Department of Chemistry,Biology&Biotechnology,University of Perugia,06121 Perugia,Italy

出  处:《Molecular Plant》2021年第2期195-197,共3页分子植物(英文版)

基  金:Work in the authors'laboratory was supported by the National Natural Science Foundation of China(31850410470);the Zhejiang Provincial Natural Science Foundation of China(LQ19C130001)awarded to A.W.

摘  要:NO Sensing Is Universal and Ancient During the anoxic stages of the early Earth,nitric oxide(NO)served as a major nitrogen source for prokaryotes,which,against a backdrop of an increasingly oxygen-rich atmosphere,evolved NO signaling mechanisms for processes including the regulation of communal behavior(Plate and Marietta,2012).In humans,NO lowers blood pressure,acts as neurotransmitter,and activates macrophages during immune responses(Farah et al.,2018).Animal NO-sensing proteins share structural similarity with those of early prokaryotes,as exemplified by the activation of soluble guanylate cyclases(sGCs),in which a heme-containing domain enables NO sensing by the heme NO/oxygen(H-NOX),thus indicating ancient evolutionary origin.In plants,NO signals for defense,growth,and developmental processes(Durner et al.,1998;Domingos et al.,2015)appeared to occur mainly through protein S-nitrosation,where the redox changes of sensing proteins could directly modulate enzymatic activities thereby causing the release of reactive oxygen intermediates,or by alteration of methylation patterns of defense genes that,in turn,affect programmed cell death during stress responses(Tada et al.,2008;Yun et al.,2011;Hu et al.,2017).

关 键 词:Marie NITRIC thereby 

分 类 号:Q94[生物学—植物学]

 

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