丙酮丁醇梭菌FabF和FabZ蛋白在不饱和脂肪酸生物合成中的功能。

Functions of the Clostridium acetobutylicium FabF and FabZ proteins in unsaturated fatty acid biosynthesis.

作者信息

Zhu Lei, Cheng Juanli, Luo Biao, Feng Saixiang, Lin Jinshui, Wang Shengbin, Cronan John E, Wang Haihong

机构信息

College of Life Science, South China Agricultural University, Guangzhou 510642, PR China.

出版信息

BMC Microbiol. 2009 Jun 4;9:119. doi: 10.1186/1471-2180-9-119.

DOI:10.1186/1471-2180-9-119

PMID:19493359

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2700279/

Abstract

BACKGROUND

The original anaerobic unsaturated fatty acid biosynthesis pathway proposed by Goldfine and Bloch was based on in vivo labeling studies in Clostridium butyricum ATCC 6015 (now C. beijerinckii) but to date no dedicated unsaturated fatty acid biosynthetic enzyme has been identified in Clostridia. C. acetobutylicium synthesizes the same species of unsaturated fatty acids as E. coli, but lacks all of the known unsaturated fatty acid synthetic genes identified in E. coli and other bacteria. A possible explanation was that two enzymes of saturated fatty acid synthesis of C. acetobutylicium, FabZ and FabF might also function in the unsaturated arm of the pathway (a FabZ homologue is known to be an unsaturated fatty acid synthetic enzyme in enterococci).

RESULTS

We report that the FabF homologue located within the fatty acid biosynthetic gene cluster of C. acetobutylicium functions in synthesis of both unsaturated fatty acids and saturated fatty acids. Expression of this protein in E. coli functionally replaced both the FabB and FabF proteins of the host in vivo and replaced E. coli FabB in a defined in vitro fatty acid synthesis system. In contrast the single C. acetobutylicium FabZ homologue, although able to functionally replace E. coli FabZ in vivo and in vitro, was unable to replace FabA, the key dehydratase-isomerase of E. coli unsaturated fatty acid biosynthesis in vivo and lacked isomerase activity in vitro.

CONCLUSION

Thus, C. acetobutylicium introduces the double of unsaturated fatty acids by use of a novel and unknown enzyme.

摘要

背景

戈德芬和布洛赫提出的原始厌氧不饱和脂肪酸生物合成途径是基于对丁酸梭菌ATCC 6015（现称拜氏梭菌）的体内标记研究，但迄今为止，在梭菌中尚未鉴定出专门的不饱和脂肪酸生物合成酶。丙酮丁醇梭菌合成的不饱和脂肪酸种类与大肠杆菌相同，但缺乏在大肠杆菌和其他细菌中鉴定出的所有已知不饱和脂肪酸合成基因。一种可能的解释是，丙酮丁醇梭菌饱和脂肪酸合成的两种酶FabZ和FabF可能也在该途径的不饱和分支中发挥作用（已知一种FabZ同源物是肠球菌中的不饱和脂肪酸合成酶）。

结果

我们报道，位于丙酮丁醇梭菌脂肪酸生物合成基因簇内的FabF同源物在不饱和脂肪酸和饱和脂肪酸的合成中均发挥作用。该蛋白在大肠杆菌中的表达在体内功能性地取代了宿主的FabB和FabF蛋白，并在一个确定的体外脂肪酸合成系统中取代了大肠杆菌FabB。相比之下，丙酮丁醇梭菌的单一FabZ同源物虽然能够在体内和体外功能性地取代大肠杆菌FabZ，但在体内无法取代大肠杆菌不饱和脂肪酸生物合成的关键脱水酶-异构酶FabA，并且在体外缺乏异构酶活性。

结论

因此，丙酮丁醇梭菌通过一种新型未知酶引入不饱和脂肪酸双键。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1a4a/2700279/ac8558047984/1471-2180-9-119-1.jpg

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丙酮丁醇梭菌FabF和FabZ蛋白在不饱和脂肪酸生物合成中的功能。

Functions of the Clostridium acetobutylicium FabF and FabZ proteins in unsaturated fatty acid biosynthesis.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

结果

结论

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