Anraku Y
Department of Biological Sciences, Graduate School of Science, University of Tokyo, Japan.
Genes Cells. 1997 Jun;2(6):359-67. doi: 10.1046/j.1365-2443.1997.1270325.x.
Protein splicing is a chemical reaction in which a spliced intervening polypeptide is excised from a precursor protein and the flanking N- and C-terminal regions are ligated with the peptide bond to produce two mature proteins. This unique autocatalytic reaction was first discovered in the yeast VMA1 protein, a 120kDa spliced polypeptide encoded by the VMA1 gene of Saccharomyces cerevisiae. The VMA1 protein catalyses a self protein splicing post-translationally to yield the 70 kDa catalytic subunit of the vacuolar H+-ATPase and the 50 kDa DNA endonuclease. Accumulating evidence has indicated that splicing precursors distribute widely in many organisms covering eukarya, bacteria and archaea. This article argues and summarizes current chemical and biological views on protein splicing.
蛋白质剪接是一种化学反应,其中一个被剪接的中间多肽从前体蛋白中切除,侧翼的N端和C端区域通过肽键连接,产生两个成熟蛋白。这种独特的自催化反应最初是在酵母VMA1蛋白中发现的,它是酿酒酵母VMA1基因编码的一种120kDa的剪接多肽。VMA1蛋白在翻译后催化自身蛋白质剪接,产生液泡H⁺-ATP酶的70kDa催化亚基和50kDa DNA内切酶。越来越多的证据表明,剪接前体广泛分布于包括真核生物、细菌和古细菌在内的许多生物体中。本文对当前关于蛋白质剪接的化学和生物学观点进行了论证和总结。