MOLECULAR CONTROL MECHANISMS OF LYSINE AND THREONINE BIOSYNTHESIS IN AMINO ACID-PRODUCING CORYNEBACTERIA - REDIRECTING CARBON FLOW [Review]

Malumbres M.; Martin JF.

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MOLECULAR CONTROL MECHANISMS OF LYSINE AND THREONINE BIOSYNTHESIS IN AMINO ACID-PRODUCING CORYNEBACTERIA - REDIRECTING CARBON FLOW [Review]

机译：氨基酸产生的皮质细菌-重定向碳流中赖氨酸和苏氨酸生物合成的分子调控机理[综述]

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Threonine and lysine are two of the economically most important essential amino acids. They are produced industrially by species of the genera Corynebacterium and Brevibacterium. The branched biosynthetic pathway of these amino acids in corynebacteria is unusual in gene organization and in the control of key enzymatic steps with respect to other microorganisms. This article reviews the molecular control mechanisms of the biosynthetic pathways leading to threonine and lysine in corynebacteria, and their implications in the production of these amino acids. Carbon flux can be redirected at branch points by gene disruption of the competing pathways for lysine or threonine. Removal of bottlenecks has been achieved by amplification of genes which encode feedback resistant aspartokinase and homoserine dehydrogenase (obtained by in vitro directed mutagenesis). [References: 43]

机译：苏氨酸和赖氨酸是经济上最重要的两种必需氨基酸。它们由棒状杆菌属和短杆菌属的种类工业生产。棒状杆菌中这些氨基酸的分支生物合成途径在基因组织和相对于其他微生物的关键酶促步骤的控制中是不寻常的。本文综述了棒状杆菌中苏氨酸和赖氨酸的生物合成途径的分子控制机制，及其在这些氨基酸生产中的意义。碳通量可以通过赖氨酸或苏氨酸竞争途径的基因破坏而在分支点处重新定向。通过扩增编码反馈抗性天冬氨酸激酶和高丝氨酸脱氢酶（通过体外定向诱变获得）的基因，可以消除瓶颈。 [参考：43]

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《FEMS Microbiology Letters》 |1996年第3期|共12页
作者
Malumbres M.; Martin JF.;
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正文语种 eng
中图分类微生物学;
关键词
Corynebacteria; Gene expression; Amino acid overproduction; Carbon flow; Bottleneck; Brevibacterium-lactofermentum; Nucleotide-sequence; Restriction patterns; Carboxylase gene; Escherichia-coli; Lysa gene; Hom-thrb; Glutamicum; Cloning; Expression;

机译：棒状杆菌;基因表达;氨基酸超量生产;碳流量;瓶颈;

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1. MOLECULAR CONTROL MECHANISMS OF LYSINE AND THREONINE BIOSYNTHESIS IN AMINO ACID-PRODUCING CORYNEBACTERIA - REDIRECTING CARBON FLOW [Review] [J] . Malumbres M., Martin JF. FEMS Microbiology Letters . 1996,第2a3期

机译：氨基酸产生的皮质细菌-重定向碳流中赖氨酸和苏氨酸生物合成的分子调控机理[综述]
2. Integration of narrow-host-range vectors from Escherichia coli into the genomes of amino acid-producing corynebacteria after intergeneric conjugation. [J] . L M Mateos, A Sch?fer, J Kalinowski, Journal of bacteriology . 1996,第19期

机译：基因间缀合后，将大肠杆菌的狭窄宿主范围载体整合到产氨基酸的棒状杆菌基因组中。
3. Crystal structure of LysK, an enzyme catalyzing the last step of lysine biosynthesis in Thermus thermophilus , in complex with lysine: Insight into the mechanism for recognition of the amino-group carrier protein, LysW [J] . Satomi Fujita, Su-Hee Cho, Ayako Yoshida, Biochemical and Biophysical Research Communications . 2017,第2期

机译：Lysk的晶体结构，一种酶催化热嗜热液中赖氨酸生物合成的最后一步，与赖氨酸复合物：洞察识别氨基载体蛋白的机制，LYSW
4. Biosynthesis and production of high molecular weight poly-γ-glutamate(γ-PGA)with corynebacteria using γ-PGA synthetase Complex [C] . China-Japan-Korea Joint Symposium on Enzyme Engineering . 2004

机译：γ-PGA合成酶复合物与棒状杆菌的合成及高分子量聚γ-谷氨酸的合成
5. Nutrient utilization in pigs and chicks treated with lipopolysaccharide: Lysine, threonine, arginine, sulfur amino acids and vitamin E. [D] . Webel, Douglas Maurice. 1998

机译：用脂多糖处理的猪和鸡的营养利用：赖氨酸，苏氨酸，精氨酸，硫氨基酸和维生素E。
6. Integration of narrow-host-range vectors from Escherichia coli into the genomes of amino acid-producing corynebacteria after intergeneric conjugation. [O] . L M Mateos, A Schäfer, J Kalinowski, 1996

机译：基因间结合后将大肠杆菌的狭窄宿主范围载体整合到产氨基酸的棒状杆菌基因组中。
7. Molecular control mechanisms of lysine and threonine biosynthesis in amino acid-producing corynebacteria: Redirecting carbon flow [O] . Marcos Malumbres, Juan F. Martin 1996

机译：氨基酸中赖氨酸和苏氨酸生物合成的分子控制机制：重新引导碳流量
8. Phaseolotoxin Biosynthesis: Molecular Mechanisms of Thermoregulation [R] . Patil, S. S. 2001

机译：phaseolotoxin生物合成：体温调节的分子机制

MOLECULAR CONTROL MECHANISMS OF LYSINE AND THREONINE BIOSYNTHESIS IN AMINO ACID-PRODUCING CORYNEBACTERIA - REDIRECTING CARBON FLOW [Review]

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