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Functional analysis of putative beta-ketoacyl:acyl carrier protein synthase and acyltransferase active site motifs in a type II polyketide synthase of Streptomyces glaucescens.浅青紫链霉菌II型聚酮合酶中假定的β-酮酰基:酰基载体蛋白合酶和酰基转移酶活性位点基序的功能分析
J Bacteriol. 1995 Jan;177(2):477-81. doi: 10.1128/jb.177.2.477-481.1995.
2
Overproduction and localization of components of the polyketide synthase of Streptomyces glaucescens involved in the production of the antibiotic tetracenomycin C.参与抗生素四环素霉素C产生的浅蓝链霉菌聚酮合酶组分的过量产生和定位。
J Bacteriol. 1991 Oct;173(20):6475-83. doi: 10.1128/jb.173.20.6475-6483.1991.
3
Cloning and characterization of a polyketide synthase gene from Streptomyces fradiae Tü2717, which carries the genes for biosynthesis of the angucycline antibiotic urdamycin A and a gene probably involved in its oxygenation.来自弗氏链霉菌Tü2717的聚酮合酶基因的克隆与特性分析,该菌株携带安古环素类抗生素乌达霉素A的生物合成基因以及一个可能参与其氧化过程的基因。
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Malonyl-coenzyme A:acyl carrier protein acyltransferase of Streptomyces glaucescens: a possible link between fatty acid and polyketide biosynthesis.浅绿链霉菌丙二酸单酰辅酶A:酰基载体蛋白酰基转移酶:脂肪酸与聚酮化合物生物合成之间的可能联系。
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Biochemistry. 1999 Jul 27;38(30):9752-7. doi: 10.1021/bi990751h.
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Purification and characterization of the acyl carrier protein of the Streptomyces glaucescens tetracenomycin C polyketide synthase.浅青紫链霉菌四环素霉素C聚酮合酶酰基载体蛋白的纯化与特性分析
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6-deoxyerythronolide B synthase 1 is specifically acylated by a diketide intermediate at the beta-ketoacyl-acyl carrier protein synthase domain of module 2.6-脱氧红霉内酯B合酶1在模块2的β-酮酰基-酰基载体蛋白合酶结构域被一种二酮中间体特异性酰化。
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BlmB and TlmB provide resistance to the bleomycin family of antitumor antibiotics by N-acetylating metal-free bleomycin, tallysomycin, phleomycin, and zorbamycin.BlmB和TlmB通过对无金属的博来霉素、 tallysomycin、 腐草霉素和佐尔巴霉素进行N-乙酰化作用,来提供对博来霉素类抗肿瘤抗生素的抗性。
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In vivo and in vitro analysis of the hedamycin polyketide synthase.赫达霉素聚酮合酶的体内和体外分析
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A study of iterative type II polyketide synthases, using bacterial genes cloned from soil DNA: a means to access and use genes from uncultured microorganisms.一项利用从土壤DNA中克隆的细菌基因对迭代型II聚酮合酶的研究:一种获取和利用未培养微生物基因的方法。
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The DnrN protein of Streptomyces peucetius, a pseudo-response regulator, is a DNA-binding protein involved in the regulation of daunorubicin biosynthesis.佩西链霉菌的DnrN蛋白是一种假反应调节因子,是一种参与柔红霉素生物合成调控的DNA结合蛋白。
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5
Deciphering the mechanism for the assembly of aromatic polyketides by a bacterial polyketide synthase.解析细菌聚酮合酶组装芳香族聚酮化合物的机制。
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6
Purification of a malonyltransferase from Streptomyces coelicolor A3(2) and analysis of its genetic determinant.天蓝色链霉菌A3(2)丙二酰转移酶的纯化及其遗传决定因素分析。
J Bacteriol. 1995 Jul;177(14):3946-52. doi: 10.1128/jb.177.14.3946-3952.1995.

本文引用的文献

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Extended Region of Nodulation Genes in Rhizobium meliloti 1021. II. Nucleotide Sequence, Transcription Start Sites and Protein Products.根瘤菌 meliloti 1021 中扩展的结瘤基因。二、核苷酸序列、转录起始位点和蛋白质产物。
Genetics. 1987 Oct;117(2):191-201. doi: 10.1093/genetics/117.2.191.
2
Nucleotide sequences and heterologous expression of tcmG and tcmP, biosynthetic genes for tetracenomycin C in Streptomyces glaucescens.青灰链霉菌中四环素霉素C生物合成基因tcmG和tcmP的核苷酸序列及异源表达
J Bacteriol. 1993 Jun;175(12):3876-86. doi: 10.1128/jb.175.12.3876-3886.1993.
3
Roles of Ser101, Asp236, and His237 in catalysis of thioesterase II and of the C-terminal region of the enzyme in its interaction with fatty acid synthase.丝氨酸101、天冬氨酸236和组氨酸237在硫酯酶II催化中的作用以及该酶C端区域在其与脂肪酸合酶相互作用中的作用。
Proc Natl Acad Sci U S A. 1993 Mar 1;90(5):1852-6. doi: 10.1073/pnas.90.5.1852.
4
Enzymatic synthesis of a bacterial polyketide from acetyl and malonyl coenzyme A.由乙酰辅酶A和丙二酰辅酶A通过酶促合成细菌聚酮化合物。
Science. 1993 Dec 3;262(5139):1535-40. doi: 10.1126/science.8248801.
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Regulation of fatty acid biosynthesis in Escherichia coli.大肠杆菌中脂肪酸生物合成的调控
Microbiol Rev. 1993 Sep;57(3):522-42. doi: 10.1128/mr.57.3.522-542.1993.
6
The tcmVI region of the tetracenomycin C biosynthetic gene cluster of Streptomyces glaucescens encodes the tetracenomycin F1 monooxygenase, tetracenomycin F2 cyclase, and, most likely, a second cyclase.浅青紫链霉菌的四环素霉素C生物合成基因簇的tcmVI区域编码四环素霉素F1单加氧酶、四环素霉素F2环化酶,以及极有可能的第二种环化酶。
J Bacteriol. 1993 Dec;175(23):7571-80. doi: 10.1128/jb.175.23.7571-7580.1993.
7
Isolation and structural elucidation of tetracenomycin F2 and tetracenomycin F1: early intermediates in the biosynthesis of tetracenomycin C in Streptomyces glaucescens.四环素霉素F2和四环素霉素F1的分离与结构解析:浅绿链霉菌中四环素霉素C生物合成的早期中间体
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8
Escherichia coli thioesterase I, molecular cloning and sequencing of the structural gene and identification as a periplasmic enzyme.大肠杆菌硫酯酶I,结构基因的分子克隆与测序以及作为周质酶的鉴定
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Structure of a myristoyl-ACP-specific thioesterase from Vibrio harveyi.哈维氏弧菌中一种肉豆蔻酰-ACP特异性硫酯酶的结构
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On the electrotransfer of polypeptides from gels to nitrocellulose membranes.关于多肽从凝胶到硝酸纤维素膜的电转移
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浅青紫链霉菌II型聚酮合酶中假定的β-酮酰基:酰基载体蛋白合酶和酰基转移酶活性位点基序的功能分析

Functional analysis of putative beta-ketoacyl:acyl carrier protein synthase and acyltransferase active site motifs in a type II polyketide synthase of Streptomyces glaucescens.

作者信息

Meurer G, Hutchinson C R

机构信息

School of Pharmacy, University of Wisconsin, Madison 53706.

出版信息

J Bacteriol. 1995 Jan;177(2):477-81. doi: 10.1128/jb.177.2.477-481.1995.

DOI:10.1128/jb.177.2.477-481.1995
PMID:7814341
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC176615/
Abstract

The significance of potential active site motifs for acyltransferase and beta-ketoacyl:acyl carrier protein synthase regions within the TcmK protein was investigated by determining the effects of mutations in the proposed active sites on the production of tetracenomycins F2 and C. In a Streptomyces glaucescens tcmGHI JKLMNO null mutant, plasmids carrying the S351A mutation produced high amounts of tetracenomycin F2 but plasmids carrying the C173A or C173S mutation or the H350L-S351A double mutation produced no detectable amount of any known intermediate. In a tcmK mutant, plasmids with the S351A mutation restored high production of tetracenomycin C and plasmids carrying the other mutations were able to complement the chromosomal defect to some extent. None of the mutations affected the amount of TcmK produced.

摘要

通过确定TcmK蛋白中酰基转移酶和β-酮酰基:酰基载体蛋白合成酶区域潜在活性位点基序的突变对四并霉素F2和C产生的影响,研究了这些基序的重要性。在天蓝链霉菌tcmGHI JKLMNO无效突变体中,携带S351A突变的质粒产生大量四并霉素F2,但携带C173A或C173S突变或H350L-S351A双突变的质粒未产生任何可检测量的已知中间体。在tcmK突变体中,携带S351A突变的质粒恢复了四并霉素C的高产量,携带其他突变的质粒能够在一定程度上弥补染色体缺陷。所有突变均未影响TcmK的产生量。