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嗜热脂肪芽孢杆菌中磷壁酸的合成

Teichoic acid synthesis in Bacillus stearothermophilus.

作者信息

Kennedy L D

出版信息

Biochem J. 1974 Mar;138(3):525-35. doi: 10.1042/bj1380525.

DOI:10.1042/bj1380525
PMID:4429546
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1166238/
Abstract
  1. Particulate enzyme preparations obtained from Bacillus stearothermophilus B65 by digestion with lysozyme were shown to catalyse teichoic acid synthesis. With CDP-glycerol as sole substrate the preparations synthesized 1,3-poly(glycerol phosphate). It was characterized by alkaline hydrolysis, by glucosylation to the alkali-stable 2-glucosyl-1,3-poly(glycerol phosphate) with excess of UDP-glucose and a Bacillus subtilis Marburg enzyme system, by degradation of this latter product with 60%HF and periodate oxidation of the resulting glucosylglycerol. The specificity of the B. subtilis system previously reported (Glaser & Burger, 1964), was confirmed in the present work. 2. Pulse-labelling experiments, followed by periodate oxidation of the product and isolation of formaldehyde from the glycerol terminus of the polymer, showed that the B. stearothermophilus enzyme system transferred glycerol phosphate units to the glycerol end of the chain. The transfer reaction was irreversible. It was not determined if these poly(glycerol phosphate) chains were synthesized de novo, but it was shown that the newly synthesized oligomers were bound to much larger molecules. 3. When the B. stearothermophilus enzyme system was supplied with both CDP-glycerol and UDP-glucose, 1-glucosyl-2,3-poly(glycerol phosphate) was synthesized in addition to the 1,3-isomer. The former polymer was characterized by acid and alkaline hydrolysis, degradation with HF and periodate oxidation of the resulting glucosylglycerol, and periodate oxidation of the intact polymer followed by mild acid hydrolysis. This latter procedure removed the glucose substituents without disrupting the poly(glycerol phosphate) chain. 4. The poly(glycerol phosphate) isomers were distinguished by glucosylation with the B. subtilis enzymes and alkaline hydrolysis, the 2,3-isomer remaining alkali-labile. The proportion of 2,3-poly(glycerol phosphate) in the product increased with increasing amounts of UDP-glucose in the incubation mixture, but the total glycerol phosphate incorporated into products remained constant. It is suggested that the synthetic pathways of the two poly(glycerol phosphate) species may share a rate-limiting step.
摘要
  1. 用溶菌酶消化嗜热脂肪芽孢杆菌B65得到的颗粒状酶制剂,被证明可催化磷壁酸的合成。以CDP - 甘油作为唯一底物时,该制剂合成了1,3 - 聚(甘油磷酸)。通过碱性水解、用过量的UDP - 葡萄糖和枯草芽孢杆菌马尔堡酶系统进行糖基化反应生成碱稳定的2 - 葡糖基 - 1,3 - 聚(甘油磷酸)、用60%的氢氟酸降解后一种产物以及对生成的葡糖基甘油进行高碘酸盐氧化来对其进行表征。在本研究中证实了先前报道的枯草芽孢杆菌系统的特异性(格拉泽和伯格,1964年)。2. 脉冲标记实验,随后对产物进行高碘酸盐氧化并从聚合物的甘油末端分离出甲醛,结果表明嗜热脂肪芽孢杆菌酶系统将甘油磷酸单元转移到链的甘油末端。转移反应是不可逆的。未确定这些聚(甘油磷酸)链是否是从头合成的,但已表明新合成的低聚物与大得多的分子结合。3. 当向嗜热脂肪芽孢杆菌酶系统提供CDP - 甘油和UDP - 葡萄糖时,除了1,3 - 异构体之外,还合成了1 - 葡糖基 - 2,3 - 聚(甘油磷酸)。通过酸和碱性水解、用氢氟酸降解以及对生成的葡糖基甘油进行高碘酸盐氧化,以及对完整聚合物进行高碘酸盐氧化后进行温和酸水解来对前一种聚合物进行表征。后一种方法去除了葡萄糖取代基而不破坏聚(甘油磷酸)链。4. 通过用枯草芽孢杆菌酶进行糖基化反应和碱性水解来区分聚(甘油磷酸)异构体,2,3 - 异构体对碱不稳定。产物中2,3 - 聚(甘油磷酸)的比例随着孵育混合物中UDP - 葡萄糖量的增加而增加,但掺入产物中的总甘油磷酸保持恒定。有人认为这两种聚(甘油磷酸)物种的合成途径可能共享一个限速步骤。

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本文引用的文献

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The glycerol teichoic acid from the walls of Staphylococcus albus N.T.C.C. 7944.来自白色葡萄球菌N.T.C.C. 7944细胞壁的甘油磷壁酸。
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THE SYNTHESIS OF TEICHOIC ACID. IV. ON THE REGULATION OF CYTIDINE 5'-DIPHOSPHATEGLYCEROL CONCENTRATION.磷壁酸的合成。IV. 关于5'-二磷酸胞苷甘油浓度的调节
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