对蓝藻鱼腥藻PCC 7120中两个紧密连锁基因的分子和遗传分析,这两个基因分别编码一种蛋白磷酸酶1/2A/2B同源物和一种蛋白激酶同源物。
Molecular and genetic analysis of two closely linked genes that encode, respectively, a protein phosphatase 1/2A/2B homolog and a protein kinase homolog in the cyanobacterium Anabaena sp. strain PCC 7120.
作者信息
Zhang C C, Friry A, Peng L
机构信息
Unité d'Immunotechnologie et Microbiologie Moléculaires, Ecole Supérieure de Biotechnologie de Strasbourg, Université Louis Pasteur de Strasbourg, F-67400 Illkirch, France.
出版信息
J Bacteriol. 1998 May;180(10):2616-22. doi: 10.1128/JB.180.10.2616-2622.1998.
Abstract
Reversible protein phosphorylation plays important roles in signal transduction. One gene, prpA, encoding a protein similar to eukaryotic types of phosphoprotein phosphatases PP1, PP2A, and PP2B, was cloned from the nitrogen-fixing cyanobacterium Anabaena sp. strain PCC 7120. Interestingly, a eukaryotic-type protein kinase gene, pknE, was found 301 bp downstream of prpA. This unusual genetic arrangement provides the opportunity for study about how the balance between protein phosphorylation and dephosphorylation can regulate cellular activities. Both proteins were overproduced in Escherichia coli and used to raise polyclonal antibodies. Immunodetection and RNA/DNA hybridization experiments suggest that these two genes are unlikely to be coexpressed, despite their close genetic linkage. PrpA is expressed constitutively under different nitrogen conditions, while PknE expression varies according to the nature of the nitrogen source. Inactivation analysis in vivo suggests that PrpA and PknE function to ensure a correct level of phosphorylation of the targets in order to regulate similar biological processes such as heterocyst structure formation and nitrogen fixation.
摘要
可逆性蛋白质磷酸化在信号转导中发挥着重要作用。从固氮蓝细菌鱼腥藻属Anabaena sp.菌株PCC 7120中克隆到了一个基因prpA,它编码一种与真核生物类型的磷蛋白磷酸酶PP1、PP2A和PP2B相似的蛋白质。有趣的是,在prpA下游301 bp处发现了一个真核生物类型的蛋白激酶基因pknE。这种不同寻常的基因排列为研究蛋白质磷酸化和去磷酸化之间的平衡如何调节细胞活动提供了机会。这两种蛋白质都在大肠杆菌中过量表达,并用于制备多克隆抗体。免疫检测和RNA/DNA杂交实验表明,尽管这两个基因在遗传上紧密连锁,但它们不太可能共表达。PrpA在不同的氮条件下组成型表达,而PknE的表达根据氮源的性质而变化。体内失活分析表明,PrpA和PknE的功能是确保靶标的磷酸化水平正确,从而调节类似的生物学过程,如异形胞结构形成和固氮。
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