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枯草芽孢杆菌W23部分自溶细胞的肽聚糖合成

Peptidoglycan synthesis by partly autolyzed cells of Bacillus subtilis W23.

作者信息

Harrington C R, Baddiley J

出版信息

J Bacteriol. 1983 Aug;155(2):776-92. doi: 10.1128/jb.155.2.776-792.1983.

Abstract

Partly autolyzed, osmotically stabilized cells of Bacillus subtilis W23 synthesized peptidoglycan from the exogenously supplied nucleotide precursors UDP-N-acetylglucosamine and UDP-N-acetylmuramyl pentapeptide. Freshly harvested cells did not synthesize peptidoglycan. The peptidoglycan formed was entirely hydrolyzed by N-acetylmuramoylhydrolase, and its synthesis was inhibited by the antibiotics bacitracin, vancomycin, and tunicamycin. Peptidoglycan formation was optimal at 37 degrees C and pH 8.5, and the specific activity of 7.0 nmol of N-acetylglucosamine incorporated per mg of membrane protein per h at pH 7.5 was probably decreased by the action of endogenous wall autolysins. No cross-linked peptidoglycan was formed. In addition, a lysozyme-resistant polymer was also formed from UDP-N-acetylglucosamine alone. Peptidoglycan synthesis was inhibited by trypsin and p-chloromercuribenzenesulfonic acid, and we conclude that it occurred at the outer surface of the membrane. Although phospho-N-acetylmuramyl pentapeptide translocase activity was detected on the outside surface of the membrane, no transphosphorylation mechanism was observed for the translocation of UDP-N-acetylglucosamine. Peptidoglycan was similarly formed with partly autolyzed preparations of B. subtilis NCIB 3610, B. subtilis 168, B. megaterium KM, and B. licheniformis ATCC 9945. Intact protoplasts of B. subtilis W23 did not synthesize peptidoglycan from externally supplied nucleotides although the lipid intermediate was formed which was inhibited by tunicamycin and bacitracin. It was therefore considered that the lipid cycle had been completed, and the absence of peptidoglycan synthesis was believed to be due to the presence of lysozyme adhering to the protoplast membrane. The significance of these results and similar observations for teichoic acid synthesis (Bertram et al., J. Bacteriol. 148:406-412, 1981) is discussed in relation to the translocation of bacterial cell wall polymers.

摘要

枯草芽孢杆菌W23部分自溶且经渗透压稳定处理的细胞能利用外源提供的核苷酸前体UDP-N-乙酰葡糖胺和UDP-N-乙酰胞壁酰五肽合成肽聚糖。刚收获的细胞不能合成肽聚糖。形成的肽聚糖完全被N-乙酰胞壁酰水解酶水解,其合成受到抗生素杆菌肽、万古霉素和衣霉素的抑制。肽聚糖形成的最适温度为37℃,最适pH为8.5,在pH 7.5时每毫克膜蛋白每小时掺入7.0 nmol N-乙酰葡糖胺的比活性可能因内源性细胞壁自溶素的作用而降低。未形成交联的肽聚糖。此外,仅由UDP-N-乙酰葡糖胺也能形成一种抗溶菌酶的聚合物。肽聚糖合成受到胰蛋白酶和对氯汞苯磺酸的抑制,我们得出结论,其发生在膜的外表面。虽然在膜的外表面检测到了磷酸-N-乙酰胞壁酰五肽转位酶活性,但未观察到UDP-N-乙酰葡糖胺转位的转磷酸化机制。枯草芽孢杆菌NCIB 3610、枯草芽孢杆菌168、巨大芽孢杆菌KM和地衣芽孢杆菌ATCC 9945的部分自溶制剂也能类似地形成肽聚糖。枯草芽孢杆菌W23完整的原生质体不能从外部提供的核苷酸合成肽聚糖,尽管形成了脂质中间体,该脂质中间体受到衣霉素和杆菌肽的抑制。因此认为脂质循环已经完成,肽聚糖合成的缺失被认为是由于原生质体膜上附着有溶菌酶。结合细菌细胞壁聚合物的转位,讨论了这些结果以及对磷壁酸合成的类似观察结果(Bertram等人,《细菌学杂志》148:406 - 412,1981)的意义。

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