缬氨酸在头孢霉属某菌株合成青霉素N和头孢菌素C中的作用

The role of valine in the biosynthesis of penicillin N and cephalosporin C by a Cephalosporium sp.

作者信息

Warren S C, Newton G G, Abraham E P

出版信息

Biochem J. 1967 Jun;103(3):902-12. doi: 10.1042/bj1030902.

DOI:10.1042/bj1030902

PMID:6069168

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1270495/

Abstract

The production of penicillin N, but not that of cephalosporin C, was inhibited by the addition of d-valine to suspensions in water of washed mycelium of Cephalosporium sp. 8650. The production of cephalosporin C was selectively inhibited by gamma-hydroxyvaline. 2. l-[(14)C]Valine was taken up rapidly and virtually completely by suspensions of washed mycelium but d-[(14)C]valine and alpha-oxo[(14)C]-isovalerate were taken up relatively slowly. 3. Part of the l-valine was rapidly degraded in the mycelium and part was incorporated into protein. Turnover of the valine in the amino acid pool was estimated to occur in 10-17min. 4. No detectable amount of l-[(14)C]valine was converted into the d-isomer in the mycelium. alpha-Oxo[(14)C]isovalerate was rapidly converted into l-[(14)C]valine in mycelium and mycelial extracts. 5. d-[(14)C]Valine was partially converted into the l-isomer in the mycelium and (14)C from d-valine was incorporated into protein. 6. The labelling of penicillin N and cephalosporin C by (14)C from l-[(14)C]valine was consistent with the view that l-valine is a direct precursor of C(5) fragments of both antibiotics and that any intermediates involved are present in relatively small pools in rapid turnover. 7. Labelling of the antibiotics with (14)C from d-[1-(14)C]valine appeared to occur after the latter had been converted into the l-isomer. Unlabelled d-valine did not decrease the efficiency of incorporation of (14)C from l-[1-(14)C]valine. 8. Intracellular peptide material which contained, among others, residues of alpha-aminoadipic acid, cysteine and valine, was rapidly labelled by (14)C from l-[1-(14)C]valine in a manner consistent with it being an intermediate in the biosynthesis of one or both of the antibiotics. 9. Labelling of penicillin N from l-[1-(14)C]valine occurred more rapidly than that of cephalosporin C. However, the effects of d-valine and gamma-hydroxyvaline on antibiotic production and the course of labelling of the antibiotics from l-[(14)C]valine could not readily be explained on the assumption that penicillin N was a precursor of cephalosporin C.

摘要

向头孢霉属8650洗涤菌丝体的水悬浮液中添加d-缬氨酸，可抑制青霉素N的产生，但不抑制头孢菌素C的产生。γ-羟基缬氨酸可选择性抑制头孢菌素C的产生。2. l-[(14)C]缬氨酸能被洗涤菌丝体悬浮液迅速且几乎完全摄取，但d-[(14)C]缬氨酸和α-氧代[(14)C]-异戊酸摄取相对较慢。3. 部分l-缬氨酸在菌丝体中迅速降解，部分则掺入蛋白质中。氨基酸池中缬氨酸的周转估计在10 - 17分钟内发生。4. 在菌丝体中未检测到l-[(14)C]缬氨酸转化为d-异构体。α-氧代[(14)C]异戊酸在菌丝体和菌丝体提取物中迅速转化为l-[(14)C]缬氨酸。5. d-[(14)C]缬氨酸在菌丝体中部分转化为l-异构体，且d-缬氨酸中的(14)C掺入蛋白质中。6. l-[(14)C]缬氨酸的(14)C对青霉素N和头孢菌素C的标记与以下观点一致，即l-缬氨酸是这两种抗生素C(5)片段的直接前体，且任何相关中间体存在于周转迅速的相对小的池中。7. 用d-[1-(14)C]缬氨酸的(14)C标记抗生素似乎是在后者转化为l-异构体之后发生的。未标记的d-缬氨酸不降低l-[1-(14)C]缬氨酸的(14)C掺入效率。8. 细胞内肽物质含有α-氨基己二酸、半胱氨酸和缬氨酸等残基，能被l-[1-(14)C]缬氨酸的(14)C迅速标记，其方式表明它是一种或两种抗生素生物合成的中间体。9. l-[1-(14)C]缬氨酸对青霉素N的标记比头孢菌素C更快。然而，假设青霉素N是头孢菌素C的前体，d-缬氨酸和γ-羟基缬氨酸对抗生素产生的影响以及l-[(14)C]缬氨酸对抗生素标记过程难以轻易解释。