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二 - 肌醇 -1,1'- 磷酸的生物合成,一种嗜热古菌中的新型渗透溶质

Biosynthesis of Di-myo-inositol-1,1'-phosphate, a novel osmolyte in hyperthermophilic archaea.

作者信息

Chen L, Spiliotis E T, Roberts M F

机构信息

Merkert Chemistry Center, Boston College, Chestnut Hill, Massachusetts 02167, USA.

出版信息

J Bacteriol. 1998 Aug;180(15):3785-92. doi: 10.1128/JB.180.15.3785-3792.1998.

DOI:10.1128/JB.180.15.3785-3792.1998
PMID:9683472
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC107359/
Abstract

Biosynthesis of di-myo-inositol-1,1'-phosphate (DIP) is proposed to occur with myo-inositol and myo-inositol 1-phosphate (I-1-P) used as precursors. Activation of the I-1-P with CTP and condensation of the resultant CDP-inositol (CDP-I) with myo-inositol then generates DIP. The sole known biosynthetic pathway of inositol in all organisms is the conversion of D-glucose-6-phosphate to myo-inositol. This conversion requires two key enzymes: L-I-1-P synthase and I-1-P phosphatase. Enzymatic assays using 31P nuclear magnetic resonance spectroscopy as well as a colorimetric assay for inorganic phosphate have confirmed the occurrence of L-I-1-P synthase and a moderately specific I-1-P phosphatase. The enzymatic reaction that couples CDP-I with myo-inositol to generate DIP has also been detected in Methanococcus igneus. 13C labeling studies with [2,3-13C]pyruvate and [3-13C]pyruvate were used to examine this pathway in M. igneus. Label distribution in DIP was consistent with inositol units formed from glucose-6-phosphate, but the label in the glucose moiety was scrambled via transketolase and transaldolase activities of the pentose phosphate pathway.

摘要

二 - 肌醇 -1,1'- 磷酸(DIP)的生物合成被认为是以肌醇和肌醇 1 - 磷酸(I - 1 - P)作为前体进行的。I - 1 - P 与 CTP 激活,然后所得的 CDP - 肌醇(CDP - I)与肌醇缩合生成 DIP。在所有生物体中,肌醇唯一已知的生物合成途径是 D - 葡萄糖 - 6 - 磷酸转化为肌醇。这种转化需要两种关键酶:L - I - 1 - P 合酶和 I - 1 - P 磷酸酶。使用 31P 核磁共振光谱以及无机磷酸盐的比色测定法进行的酶活性测定已证实存在 L - I - 1 - P 合酶和一种中等特异性的 I - 1 - P 磷酸酶。在火球菌中也检测到了将 CDP - I 与肌醇偶联生成 DIP 的酶促反应。使用 [2,3 - 13C]丙酮酸和 [3 - 13C]丙酮酸进行的 13C 标记研究用于检查火球菌中的这条途径。DIP 中的标记分布与由葡萄糖 - 6 - 磷酸形成的肌醇单元一致,但葡萄糖部分的标记通过磷酸戊糖途径的转酮醇酶和转醛醇酶活性发生了重排。

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