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大肠杆菌中 N-乙基谷氨酸的鉴定、来源和代谢。

Identification, source, and metabolism of N-ethylglutamate in Escherichia coli.

机构信息

Department of Biochemistry, Virginia Polytechnic Institute and State University, Blacksburg, Virginia 24061, USA.

出版信息

J Bacteriol. 2010 Oct;192(20):5437-40. doi: 10.1128/JB.00721-10. Epub 2010 Aug 13.

Abstract

N-Ethylglutamate (NEG) was detected in Escherichia coli BL21 cells grown on LB broth, and it was found to occur at a concentration of ∼4 mM in these cells under these conditions. The same cells grown on M9 glucose medium contained no detectable amount of NEG. Analysis of the LB broth showed the presence of NEG, a compound never before reported as a natural product. Isotope dilution analysis showed that it occurred at a concentration of 160 μM in LB broth. Analyses of yeast extract and tryptone, the organic components of LB broth, both showed the presence NEG. It was demonstrated that NEG can be generated during the autolysis of the yeast used in the preparation of the yeast extract. Growth of these E. coli cells in LB broth prepared in deuterated water showed no incorporation of deuterium into NEG, demonstrating that E. coli cells did not generate the NEG. Cell growth rates were not affected by the addition of 5 mM NEG to either LB or M9 glucose medium. l-[ethyl-(2)H(4)]NEG was found to be readily incorporated into the cells and metabolized by the cells. From these results, it was concluded that all of the NEG present in the cells was taken up from the medium. NEG could serve as the sole nitrogen source for E. coli when grown on M9 glucose medium in the presence of glucose but could not serve as the sole carbon source on M9 medium in the absence of glucose.

摘要

N-乙基谷氨酸(NEG)在 LB 肉汤中生长的大肠杆菌 BL21 细胞中被检测到,并且在这些条件下,这些细胞中存在约 4mM 的 NEG。在 M9 葡萄糖培养基中生长的相同细胞中未检测到 NEG。对 LB 肉汤的分析表明存在 NEG,这是一种以前从未被报道为天然产物的化合物。同位素稀释分析表明,它在 LB 肉汤中的浓度为 160μM。酵母提取物和胰蛋白胨的分析,LB 肉汤的有机成分,都显示出 NEG 的存在。证明 NEG 可以在制备酵母提取物时所用酵母的自溶过程中产生。这些大肠杆菌细胞在氘化水中制备的 LB 肉汤中生长时,没有将氘掺入 NEG 中,表明大肠杆菌细胞没有产生 NEG。向 LB 或 M9 葡萄糖培养基中添加 5mM NEG 不会影响细胞生长速度。发现 l-[乙基-(2)H(4)]NEG 很容易被细胞吸收并被细胞代谢。根据这些结果,可以得出结论,细胞中存在的所有 NEG 都是从培养基中摄取的。当在存在葡萄糖的 M9 葡萄糖培养基上生长时,NEG 可以作为大肠杆菌的唯一氮源,但在没有葡萄糖的 M9 培养基上不能作为唯一碳源。

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