Dusty protein kinases: Primary structure, gene evolution, tissue specific expression and unique features of the catalytic domain

Jianbin Peng , Wenji Dong , Ying Chen , Rong Mo , Jan-Fang Cheng , Chi-chung Hui , Narla Mohandas , Cheng-Han Huang
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引用次数: 17

Abstract

Ser/Thr- and Tyr-Protein kinases constitute a key switch underlying the dynamic nature and graded regulation of signal transduction and pathway activities in cellular organization. Here we describe the identification and characterization of Dusty, a single-copy gene that arose in metazoan evolution and encodes a putative dual Ser/Thr and Tyr protein kinase with unique structural features. Dusty is widely expressed in vertebrates, broadly distributed in the central nervous system, and deregulated in certain human cancers. Confocal imaging of transiently expressed human Dusty-GFP fusion proteins showed a cytoplasmic distribution. Dusty proteins from lower to higher species display an increasing degree of sequence conservation from the N-terminal non-catalytic domain to C-terminal catalytic domain. The non-catalytic region has eight conserved cysteine residues, multiple potential kinase-docking motifs and phosphorylation sites, whereas the catalytic domain is divergent and about equally distant of Ser/Thr and Tyr protein kinases. Homology analyses identified the essential catalytic residues, suggesting that Dusty homologues all possess the enzymatic activity of a protein kinase. Taken together, Dusty is a unique evolutionarily selected group of divergent protein kinases that may play important functional roles in the brain and other tissues of vertebrates.

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灰尘蛋白激酶:初级结构,基因进化,组织特异性表达和催化结构域的独特特征
丝氨酸/苏氨酸和酪氨酸蛋白激酶是细胞组织中信号转导和通路活动的动态性质和分级调节的关键开关。在这里,我们描述了Dusty的鉴定和表征,Dusty是一个在后生动物进化中出现的单拷贝基因,编码具有独特结构特征的双丝氨酸/苏氨酸和酪氨酸蛋白激酶。Dusty在脊椎动物中广泛表达,在中枢神经系统中广泛分布,在某些人类癌症中不受调控。瞬时表达的人类Dusty-GFP融合蛋白的共聚焦成像显示细胞质分布。从低等物种到高等物种,Dusty蛋白从n端非催化结构域到c端催化结构域的序列保守程度越来越高。非催化区域有8个保守的半胱氨酸残基,多个潜在的激酶对接基序和磷酸化位点,而催化区域则是分散的,Ser/Thr和Tyr蛋白激酶的距离大约相同。同源性分析确定了基本的催化残基,表明Dusty同源物都具有蛋白激酶的酶活性。综上所述,Dusty是一组独特的进化选择的不同蛋白激酶,可能在脊椎动物的大脑和其他组织中发挥重要的功能作用。
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