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The osmoreactive betaine carrier BetP from Corynebacterium glutamicum is a sensor for cytoplasmic K+.来自谷氨酸棒杆菌的渗透活性甜菜碱载体BetP是一种细胞质钾离子传感器。
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腺苷酸环化酶G由一种分子内渗透压感受器激活。

Adenylyl cyclase G is activated by an intramolecular osmosensor.

作者信息

Saran Shweta, Schaap Pauline

机构信息

School of Life Sciences, University of Dundee, Dundee DD1 5EH, United Kingdom.

出版信息

Mol Biol Cell. 2004 Mar;15(3):1479-86. doi: 10.1091/mbc.e03-08-0622. Epub 2004 Jan 12.

DOI:10.1091/mbc.e03-08-0622
PMID:14718564
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC363170/
Abstract

Adenylyl cyclase G (ACG) is activated by high osmolality and mediates inhibition of spore germination by this stress factor. The catalytic domains of all eukaryote cyclases are active as dimers and dimerization often mediates activation. To investigate the role of dimerization in ACG activation, we coexpressed ACG with an ACG construct that lacked the catalytic domain (ACGDeltacat) and was driven by a UV-inducible promoter. After UV induction of ACGDeltacat, cAMP production by ACG was strongly inhibited, but osmostimulation was not reduced. Size fractionation of native ACG showed that dimers were formed between ACG molecules and between ACG and ACGDeltacat. However, high osmolality did not alter the dimer/monomer ratio. This indicates that ACG activity requires dimerization via a region outside the catalytic domain but that dimer formation does not mediate activation by high osmolality. To establish whether ACG required auxiliary sensors for osmostimulation, we expressed ACG cDNA in a yeast adenylyl cyclase null mutant. In yeast, cAMP production by ACG was similarly activated by high osmolality as in Dictyostelium. This strongly suggests that the ACG osmosensor is intramolecular, which would define ACG as the first characterized primary osmosensor in eukaryotes.

摘要

腺苷酸环化酶G(ACG)被高渗透压激活,并介导这种应激因子对孢子萌发的抑制作用。所有真核生物环化酶的催化结构域以二聚体形式具有活性,二聚化通常介导激活。为了研究二聚化在ACG激活中的作用,我们将ACG与一个缺乏催化结构域(ACGΔcat)且由紫外线诱导型启动子驱动的ACG构建体共表达。在紫外线诱导ACGΔcat后,ACG产生的环磷酸腺苷(cAMP)受到强烈抑制,但渗透压刺激并未降低。对天然ACG进行尺寸分级分离显示,ACG分子之间以及ACG与ACGΔcat之间形成了二聚体。然而,高渗透压并未改变二聚体/单体比例。这表明ACG活性需要通过催化结构域之外的区域进行二聚化,但二聚体形成并不介导高渗透压激活。为了确定ACG是否需要辅助传感器来进行渗透压刺激,我们在酵母腺苷酸环化酶缺失突变体中表达了ACG cDNA。在酵母中,ACG产生的cAMP同样被高渗透压激活,就像在盘基网柄菌中一样。这强烈表明ACG渗透压传感器是分子内的,这将使ACG成为真核生物中首个被表征的初级渗透压传感器。