Desmond E P, Starnes W L, Behal F J
J Bacteriol. 1975 Oct;124(1):353-63. doi: 10.1128/jb.124.1.353-363.1975.
Three enzymes with L- and one enzyme with D-aminopeptidase (EC 3.4.11; alpha-aminoacyl peptide hydrolase) activity have been separated from each other and partially purified from Bacillus subtilis 168 W.T., distinguished with respect to their molecular weights and catalytic properties, and studied in relation to the physiology of this bacterium. One L-aminopeptidase, designated aminopeptidase I, has a molecular weight of 210,000 +/- 20,000, is produced early in growth, and hydrolyzes L-alanyl-beta-naphthylamide most rapidly. Another, designated aminopeptidase II, molecular weight 67,000 +/- 10,000, is also produced early in growth and hydrolyzes L-lysyl-beta-naphthylamide most rapidly. A third, aminopeptidase III, molecular weight 228,000 +/- 20,000, is produced predominantly in early stationary phase and most efficiently utilizes L-alpha-aspartyl-beta-naphthylamide as substrate. The synthesis of aminopeptidase III in early stationary phase suggests that selective catabolism of peptides occurs at this time, perhaps related to the cessation of growth or the onset of early sporulation-associated events. A D-aminopeptidase which hydrolyzes the carboxyl-blocked dipeptide D-alanyl-D-alanyl-beta-naphthylamide (as well as D-alanyl-beta-naphthylamide and D-alanyl-D-alanyl-D-alanine) has also been identified, separated from aminopeptidase II, and purified 170-fold. D-Aminopeptidase, molecular weight 220,000 +/- 20,000, is localized predominantly in the cell wall and periplasm of the organism. This evidence and the variation of the activity during the growth cycle suggest an important function in cell wall or peptide antibiotic metabolism.
已从枯草芽孢杆菌168野生型中分离出三种具有L - 氨肽酶活性的酶和一种具有D - 氨肽酶(EC 3.4.11;α - 氨基酰肽水解酶)活性的酶,并对它们进行了部分纯化。这些酶在分子量和催化特性方面存在差异,并对该细菌的生理学进行了相关研究。一种L - 氨肽酶,命名为氨肽酶I,分子量为210,000±20,000,在生长早期产生,最快速地水解L - 丙氨酰 - β - 萘酰胺。另一种,命名为氨肽酶II,分子量为67,000±10,000,也在生长早期产生,最快速地水解L - 赖氨酰 - β - 萘酰胺。第三种,氨肽酶III,分子量为228,000±20,000,主要在生长稳定期早期产生,最有效地利用L - α - 天冬氨酰 - β - 萘酰胺作为底物。氨肽酶III在生长稳定期早期的合成表明此时发生了肽的选择性分解代谢,这可能与生长停止或早期孢子形成相关事件的开始有关。还鉴定出了一种D - 氨肽酶,它能水解羧基封闭的二肽D - 丙氨酰 - D - 丙氨酰 - β - 萘酰胺(以及D - 丙氨酰 - β - 萘酰胺和D - 丙氨酰 - D - 丙氨酰 - D - 丙氨酸),将其与氨肽酶II分离并纯化了170倍。D - 氨肽酶分子量为220,000±20,000,主要定位于该生物体的细胞壁和周质中。这一证据以及生长周期中活性的变化表明其在细胞壁或肽抗生素代谢中具有重要功能。
