有证据表明,RdeA蛋白是一种多步磷酸化信号转导途径的组成部分,该途径可调节盘基网柄菌的发育速率。
Evidence that the RdeA protein is a component of a multistep phosphorelay modulating rate of development in Dictyostelium.
作者信息
Chang W T, Thomason P A, Gross J D, Neweil P C
机构信息
Department of Biochemistry, University of Oxford, Oxford, UK.
出版信息
EMBO J. 1998 May 15;17(10):2809-16. doi: 10.1093/emboj/17.10.2809.
Abstract
We have isolated an insertional mutant of Dictyostelium discoideum that aggregated rapidly and formed spores and stalk cells within 14 h of development instead of the normal 24 h. We have shown by parasexual genetics that the insertion is in the rdeA locus and have cloned the gene. It encodes a predicted 28 kDa protein (RdeA) that is enriched in charged residues and is very hydrophilic. Constructs with the DNA for the c-Myc epitope or for the green fluorescent protein indicate that RdeA is not compartmentalized. RdeA displays homology around a histidine residue at amino acid 65 with members of the H2 module family of phosphotransferases that participate in multistep phosphoryl relays. Replacement of this histidine rendered the protein inactive. The mutant is complemented by transformation with the Ypd1 gene of Saccharomyces cerevisiae, itself an H2 module protein. We propose that RdeA is part of a multistep phosphorelay system that modulates the rate of development.
摘要
我们分离出了一种盘基网柄菌的插入突变体,该突变体在发育14小时内就迅速聚集并形成了孢子和柄细胞,而不是正常情况下的24小时。我们通过准性遗传学表明,插入发生在rdeA基因座,并克隆了该基因。它编码一种预测分子量为28 kDa的蛋白质(RdeA),该蛋白质富含带电荷的残基且非常亲水。带有c-Myc表位或绿色荧光蛋白DNA的构建体表明,RdeA没有被区室化。RdeA在氨基酸65处的一个组氨酸残基周围与参与多步磷酸化中继的磷酸转移酶H2模块家族成员具有同源性。这个组氨酸的替换使该蛋白质失去活性。该突变体通过用酿酒酵母的Ypd1基因(其本身也是一种H2模块蛋白)进行转化得到了互补。我们提出,RdeA是一个调节发育速率的多步磷酸中继系统的一部分。
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