Glycyl-tRNA合成酶。

Biological chemistry Hoppe-Seyler Pub Date : 1996-06-01
W Freist, D T Logan, D H Gauss
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引用次数: 0

摘要

glyyl - trna合成酶是一类氨基酰基- trna合成酶,催化glyyl - trna的合成,将甘氨酸插入蛋白质中。在副反应中,酶还合成二核苷多磷酸,可能参与细胞功能的调节。甘氨酸是天然蛋白质中最小的氨基酸,可能在进化的早期就作为蛋白质成分存在。除氨基和羧基外,分子中没有官能团。丙氨酸是结构上与甘氨酸最相似的氨基酸,具有一个额外的甲基作为“侧链”。glyyl - trna合成酶是在不同生物体中表现出不同寡聚结构的少数合成酶之一(α 2 β 2和α 2)。α 2 β 2酶与PheRS(也是α 2 β 2酶)具有相似性。就序列同源性而言,α 2形式属于IIa亚类酶。在真核生物中,多肽与由氨基酰基- trna合成酶组成的多酶复合物弱相关。在氨酰化反应中,在家蚕GlyRS中发现的“半位点”机制可能在体内条件下被所有glyyl - trna合成酶所使用。本质上,tRNAGly是GlyRS通过反密码子区和受体干中的标准同一性元件识别的。最后三个事实可能表明GlyRS是一种仍然具有原始氨基酰基- trna合成酶性质的酶。对来自6种生物的9个甘酰trna合成酶基因进行了测序。它们编码的合成酶亚基链长度从300-700个氨基酸不等。一种晶体结构,即来自嗜热热菌的α 2酶的晶体结构,也已被确定。这两个亚基各具有三个结构域:一个类似于天冬氨酸和丝氨酸酶的活性位点,一个c端反密码子识别结构域,以及一个几乎肯定与tRNAGly受体干相互作用的结构域。抗甘氨酸rna合成酶抗体出现在患有多发性肌炎和间质性肺病的患者血清中。
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Glycyl-tRNA synthetase.

Glycyl-tRNA synthetase, a class II aminoacyl-tRNA synthetase, catalyzes the synthesis of glycyl-tRNA, which is required to insert glycine into proteins. In a side reaction the enzyme also synthesizes dinuceloside polyphosphates, which probably participate in regulation of cell functions. Glycine is the smallest amino acid occurring in natural proteins, probably established as a protein component very early in evolution. Besides the amino and the carboxyl groups there is no functional group in the molecule. Alanine, the amino acid which is structurally most similar to glycine, possesses an additional methyl group as 'side chain'. Glycyl-tRNA synthetase is one of the few synthetases which exhibit different oligomeric structures in different organisms (alpha 2 beta 2 and alpha 2). The alpha 2 beta 2 enzymes exhibit similarities to PheRS (also an alpha 2 beta 2 enzyme). The alpha 2 forms belong to the subclass IIa enzymes with regard to sequence homologies. In eukaryotes the polypeptide is weakly associated with multienzyme complexes consisting of aminoacyl-tRNA synthetases. In the aminoacylation reaction a 'half-of-the-sites' mechanism as found for GlyRS from Bombyx mori is probably used by all glycyl-tRNA synthetases under in vivo conditions. Essentially, tRNAGly is recognized by GlyRS through standard identity elements in the anticodon region and in the acceptor stem. The last three facts may indicate that GlyRS is an enzyme which still possesses properties of a primordial aminoacyl-tRNA synthetase. Nine genes of glycyl-tRNA synthetases from six organisms have been sequenced. They encode synthetase subunits of chain lengths ranging from 300-700 amino acids. One crystal structure, that of the alpha 2 enzyme from Thermus thermophilus, has also been determined. The two subunits each possess three domains: the active site resembling that of aspartyl and seryl enzymes, a C-terminal anticodon recognition domain, and one domain which almost certainly interacts with the acceptor stem of tRNAGly. Antibodies against glycyl-RNA synthetase occur in the sera of patients suffering from polymyositis and interstitial lung disease.

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