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Minimal Streptomyces sp. strain C5 daunorubicin polyketide biosynthesis genes required for aklanonic acid biosynthesis.阿克拉诺酸生物合成所需的极小链霉菌属菌株C5柔红霉素聚酮生物合成基因。
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Gene disruption and replacement in the rapamycin-producing Streptomyces hygroscopicus strain ATCC 29253.在产生雷帕霉素的吸水链霉菌菌株ATCC 29253中进行基因破坏和替换。
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Enhanced antibiotic production by manipulation of the Streptomyces peucetius dnrH and dnmT genes involved in doxorubicin (adriamycin) biosynthesis.通过操纵参与阿霉素(阿霉素)生物合成的天蓝色链霉菌dnrH和dnmT基因提高抗生素产量。
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The dnrM gene in Streptomyces peucetius contains a naturally occurring frameshift mutation that is suppressed by another locus outside of the daunorubicin-production gene cluster.变铅青链霉菌中的dnrM基因含有一个自然发生的移码突变,该突变被柔红霉素生产基因簇外的另一个基因座所抑制。
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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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天蓝色链霉菌的dpsY和dnrX基因分别控制柔红霉素和阿霉素生物合成的早期和晚期步骤。

The Streptomyces peucetius dpsY and dnrX genes govern early and late steps of daunorubicin and doxorubicin biosynthesis.

作者信息

Lomovskaya N, Doi-Katayama Y, Filippini S, Nastro C, Fonstein L, Gallo M, Colombo A L, Hutchinson C R

机构信息

School of Pharmacy, University of Wisconsin, Madison 53706, USA.

出版信息

J Bacteriol. 1998 May;180(9):2379-86. doi: 10.1128/JB.180.9.2379-2386.1998.

DOI:10.1128/JB.180.9.2379-2386.1998
PMID:9573189
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC107179/
Abstract

The Streptomyces peucetius dpsY and dnrX genes govern early and late steps in the biosynthesis of the clinically valuable antitumor drugs daunorubicin (DNR) and doxorubicin (DXR). Although their deduced products resemble those of genes thought to be involved in antibiotic production in several other bacteria, this information could not be used to identify the functions of dpsY and dnrX. Replacement of dpsY with a mutant form disrupted by insertion of the aphII neomycin-kanamycin resistance gene resulted in the accumulation of UWM5, the C-19 ethyl homolog of SEK43, a known shunt product of iterative polyketide synthases involved in the biosynthesis of aromatic polyketides. Hence, DpsY must act along with the other components of the DNR-DXR polyketide synthase to form 12-deoxyaklanonic acid, the earliest known intermediate of the DXR pathway. Mutation of dnrX in the same way resulted in a threefold increase in DXR production and the disappearance of two acid-sensitive, unknown compounds from culture extracts. These results suggest that dnrX, analogous to the role of the S. peucetius dnrH gene (C. Scotti and C. R. Hutchinson, J. Bacteriol. 178:73167321, 1996), may be involved in the metabolism of DNR and/or DXR to acid-sensitive compounds, possibly related to the baumycins found in many DNR-producing bacteria.

摘要

天蓝色链霉菌的dpsY和dnrX基因分别调控临床上有价值的抗肿瘤药物柔红霉素(DNR)和阿霉素(DXR)生物合成过程中的早期和晚期步骤。尽管它们推导的产物与其他几种细菌中参与抗生素生产的基因产物相似,但这些信息无法用于确定dpsY和dnrX的功能。用插入aphII新霉素-卡那霉素抗性基因而破坏的突变形式替换dpsY,导致UWM5的积累,UWM5是SEK43的C-19乙基同系物,SEK43是参与芳香族聚酮生物合成的迭代聚酮合酶的已知分流产物。因此,DpsY必须与DNR-DXR聚酮合酶的其他组分一起作用,以形成12-脱氧红霉内酯酸,这是DXR途径中最早已知的中间体。以同样的方式对dnrX进行突变,导致DXR产量增加了三倍,并且培养提取物中两种酸敏感的未知化合物消失。这些结果表明,dnrX类似于天蓝色链霉菌dnrH基因的作用(C. Scotti和C.R. Hutchinson,《细菌学杂志》178:7316 - 7321,1996),可能参与DNR和/或DXR向酸敏感化合物的代谢,这可能与许多产生DNR的细菌中发现的baumycins有关。