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Characterization of Escherichia coli men Mutants Defective in Conversion of o-Succinylbenzoate to 14-Dihydroxy-2-Naphthoate

机译：大肠杆菌男子突变体表征的邻琥珀酸苯甲酸酯转化为14-二羟基-2-萘甲酸酯

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Four independent menaquinone (vitamin K2)-deficient mutants of Escherichia coli, blocked in the conversion of o-succinylbenzoate (OSB) to 1,4-dihydroxy-2-naphthoate (DHNA), were found to represent two distinct classes. Enzymatic complementation was observed when a cell-free extract of one mutant was mixed with extracts of any of the remaining three mutants. The missing enzymes in the two classes were identified by in vitro complementation with preparations of OSB-coenzyme A (CoA) synthetase or DHNA synthase isolated from Mycobacterium phlei. Mutants lacking DHNA synthase (and therefore complementing with M. phlei DHNA synthase) were designated menB, and the mutant lacking OSB-CoA synthetase (and therefore complementing with M. phlei OSB-CoA synthetase) was designated menE. The menB mutants produced only the spirodilactone form of OSB when extracts were incubated with [2,3-¹⁴C2]OSB, ATP, and CoA; the OSB was unchanged on incubation with an extract from the menE mutant under these conditions. Experiments with strains lysogenized by a λ men transducing phage (λG68) and transduction studies with phage P1 indicated that the menB and menE genes form part of a cluster of four genes, controlling the early steps in menaquinone biosynthesis, located at 48.5 min in the E. coli linkage map. Evidence was obtained for the clockwise gene order gyrA....menC--B-D, where the asterisk denotes the uncertain position of menE relative to menC and menB. The transducing phage (λG68) contained functional menB, menC, and menE genes, but only part of the menD gene, and it was designated λ menCB(D).

机译：发现了四个独立的大肠杆菌缺少甲萘醌（维生素K2）的突变体，它们在邻琥珀酰苯甲酸酯（OSB）向1,4-二羟基-2-萘甲酸酯（DHNA）的转化中受阻，代表两个不同的类别。当一个突变体的无细胞提取物与其余三个突变体中任一个的提取物混合时，观察到酶促互补。通过与从分枝杆菌分离的OSB辅酶A（CoA）合成酶或DHNA合酶的制剂进行体外互补，鉴定出这两类中缺失的酶。缺少DHNA合酶的突变体（因此与phlei DHNA合酶互补）被命名为menB，而缺乏OSB-CoA合成酶的突变体（因此与phlei OSB-CoA合成酶互补）被命名为menE。当将提取物与[2,3- ^{14 C2] OSB，ATP和CoA孵育时，menB突变体仅产生螺二内酯形式的OSB。在这些条件下，与menE突变体的提取物孵育后，OSB保持不变。由λ人转导噬菌体（λG68）裂解的菌株进行的实验以及对噬菌体P1的转导研究表明，menB和menE基因构成四个基因簇的一部分，控制了甲基萘醌生物合成的早期步骤，位于E的48.5分钟大肠杆菌连锁图。获得了顺时针基因顺序gyrA .... menC-<！-private-char pc1->-BD的证据，其中星号表示menE相对于 menC 和< em> menB 。转导噬菌体（λG68）包含功能性 menB，menC 和 menE 基因，但仅部分 menD 基因，被命名为λ menC <！-私人字符pc2-> B（D）。} 展开▼

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期刊名称 Journal of Bacteriology

作者
Duncan J. Shaw; John R. Guest; Rangaswamy Meganathan; Ronald Bentley;
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年(卷),期 1982(152),3

年度 1982

页码 1132–1137

总页数 6

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中图分类微生物学;

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专利

1. Characterization of Escherichia coli men Mutants Defective in Conversion of o-Succinylbenzoate to 1,4-Dihydroxy-2-Naphthoate [J] . Duncan J. Shaw, John R. Guest, Rangaswamy Meganathan, Journal of bacteriology . 1982,第3期

机译：将大肠杆菌男性突变体的表征转化为1,4-二羟基-2-萘甲酸盐转化为1,4-二羟基-2-萘酸盐

2. Characterization of Escherichia coli men Mutants Defective in Conversion of o-Succinylbenzoate to 1,4-Dihydroxy-2-Naphthoate [J] . Duncan J. Shaw, John R. Guest, Rangaswamy Meganathan, Journal of bacteriology . 1982,第3期

机译：将大肠杆菌男性突变体的表征转化为1,4-二羟基-2-萘甲酸盐转化为1,4-二羟基-2-萘酸盐

3. Characterization of Escherichia coli men Mutants Defective in Conversion of o-Succinylbenzoate to 1,4-Dihydroxy-2-Naphthoate [J] . Duncan J. Shaw, John R. Guest, Rangaswamy Meganathan, Journal of bacteriology . 1982,第3期

机译：将大肠杆菌男性突变体的表征转化为1,4-二羟基-2-萘甲酸盐转化为1,4-二羟基-2-萘酸盐

4. The Role of Oxygenation on The Attachment of Escherichia Coli rpoS Mutant Under Aerobic Conditions [C] . Nurul Elfiani Paweli, Prayoga Suryadarma, Indana Mardhiati, International Seminar on Chemistry . 2018

机译：氧合对有氧条件下大肠杆菌RPO突变体的作用

5. The regulation of the dsdCXA locus and the characterization of D-cycloserine resistant mutants in Escherichia coli. [D] . Baisa, Gary Alan. 2011

机译：dsdCXA基因座的调控和大肠杆菌中D-环丝氨酸抗性突变体的表征。

6. Lipoic acid metabolism in Escherichia coli: isolation of null mutants defective in lipoic acid biosynthesis molecular cloning and characterization of the E. coli lip locus and identification of the lipoylated protein of the glycine cleavage system. [O] . T J Vanden Boom, K E Reed, J E Cronan Jr 1991

机译：大肠杆菌中的硫辛酸代谢：分离在硫辛酸生物合成中无效的无效突变体大肠埃希菌嘴唇基因座的分子克隆和表征以及鉴定甘氨酸裂解系统的脂酰化蛋白。

7. Lipoic acid metabolism in Escherichia coli: isolation of null mutants defective in lipoic acid biosynthesis, molecular cloning and characterization of the E. coli lip locus, and identification of the lipoylated protein of the glycine cleavage system. [O] . Vanden Boom, T J, Reed, K E, Cronan, J E 1991

机译：大肠杆菌中的硫辛酸代谢：分离在硫辛酸生物合成中有缺陷的无效突变体，大肠埃希菌嘴唇基因座的分子克隆和表征，以及鉴定甘氨酸裂解系统的脂酰化蛋白。

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机译：基于基因治疗DNA载体VTVAF17的基因治疗DNA载体，携带选自基因ANG，ANGPT1，VEGFA，FGF1，HIF1α，HGF，SDF1，KLK4，PDGFC，PROK1，PROK2表达的靶基因所述的靶标基因，其生产和使用方法，应变大肠埃希氏菌SCS110-AF / VTVAF17-ANG或大肠埃希氏菌SCS110-AF / VTVAF17-ANGPT1或大肠埃希氏菌SCS110-AF / VTVAF17-VEGFA或大肠埃希氏菌SCS110-AF / VTVAF17-FGF1，或大肠埃希氏菌SCS110-AF / VTVAF17-HIF1A，或大肠埃希氏菌COLI SCS110-AF / VTVAF17-HGF，或大肠埃希氏菌SCS110-AF / VTVAF17-SDF1，或大肠埃希氏菌SCS110-AF / VTVAF17-KLK4，大肠埃希氏菌SCS110-AF / VTVAF17-PDGFC或大肠埃希氏菌SCS110-AF / VTVAF17-PROK2，携带基因-治疗性DNA载体，生产方法，工业生产方法-治疗性DNA载体

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机译：基于VTvaf17基因治疗DNA载体的基因治疗DNA载体，其携带选自ANG，ANGPT1，VEGFA，FGF1，HIF1α，HGF，SDF1，KLK4，PDGFC，PROK1，PROK2的靶基因以增加这些靶标的表达水平基因，方法的制备和使用，大肠杆菌菌株SCS110-AF / VTvaf17-ANG或大肠杆菌SCS110-AF / VTvaf17-ANGPT1或大肠杆菌SCS110-AF / VTvaf17-VEGFA或大肠杆菌SCS110-AF / VTvaf17-Fichia-SC110 AF /VTvaf17-HIF1α或大肠杆菌SCS110-AF / VTvaf17-HGF或大肠杆菌SCS110-AF / VTvaf17-SDF1或大肠杆菌SCS110-AF / VTvaf17-KLK4或大肠杆菌SCS110-AF / VTviFi10 S1携带基因治疗DNA载体的大肠杆菌SCS110-AF / VTvaf17-PROK2，其制备方法，工业生产基因治疗DNA载体的方法

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Characterization of Escherichia coli men Mutants Defective in Conversion of o-Succinylbenzoate to 14-Dihydroxy-2-Naphthoate

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