Taylor A
U.S. Department of Agriculture Human Nutrition Research Center on Aging, Tufts University Laboratory for Nutrition and Vision Research, Boston, Massachusetts 02111.
FASEB J. 1993 Feb 1;7(2):290-8. doi: 10.1096/fasebj.7.2.8440407.
Aminopeptidases catalyze the cleavage of amino acids from the amino terminus of protein or peptide substrates. They are widely distributed throughout the animal and plant kingdoms and are found in many subcellular organelles, in cytoplasm, and as membrane components. Several aminopeptidases perform essential cellular functions. Many, but not all, of these peptidases are zinc metalloenzymes and are inhibited by the transition-state analog bestatin. Some are monomeric, and others are assemblies of relatively high mass (50 kDa) subunits. cDNA sequences are available for several aminopeptidases, and a 3-dimensional structure is available for the bovine lens enzyme. Crystallographic, electron micrographic, NMR, and photoaffinity labeling studies indicate that lens leucine aminopeptidase protomers are bilobal and that bestatin and substrates are bound in an active site, which is found in the larger lobe on each protomer. Zn2+ is involved in substrate liganding in most aminopeptidases. There is no evidence of an acyl-enzyme intermediate in hydrolysis. Amino acid sequences determined directly or deduced from cDNAs indicate some amino acid sequence homologies in organisms as diverse as Escherichia coli and mammals, particularly in catalytically important residues or in residues involved in metal ion binding.
氨肽酶催化从蛋白质或肽底物的氨基末端切割氨基酸。它们广泛分布于动物界和植物界,存在于许多亚细胞器、细胞质以及作为膜成分。几种氨肽酶执行重要的细胞功能。这些肽酶中有许多(但不是全部)是锌金属酶,并被过渡态类似物贝抑素抑制。一些是单体,而其他的是相对高分子量(50 kDa)亚基的组装体。几种氨肽酶的cDNA序列是已知的,牛晶状体酶的三维结构也是已知的。晶体学、电子显微镜、核磁共振和光亲和标记研究表明,晶状体亮氨酸氨肽酶原聚体是双叶的,贝抑素和底物结合在活性位点,该活性位点位于每个原聚体的较大叶中。大多数氨肽酶中锌离子参与底物配位。水解过程中没有酰基酶中间体的证据。直接测定或从cDNA推导的氨基酸序列表明,在诸如大肠杆菌和哺乳动物等不同生物体中存在一些氨基酸序列同源性,特别是在催化重要残基或参与金属离子结合的残基中。
