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Mutations in a new Streptomyces coelicolor locus which globally block antibiotic biosynthesis but not sporulation.

机译：新的天蓝色链霉菌基因座中的突变可全局阻断抗生素的生物合成，但不会引起孢子形成。

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Streptomyces coelicolor produces four known antibiotics. To define genetic elements that regulate antibiotic synthesis, we screened for mutations that visibly blocked synthesis of the two pigmented antibiotics and found that the mutant strains which we recovered were of two classes--double mutants and mutants in which all four antibiotics were blocked. The mutations in these multiply blocked strains define a new locus of S. coelicolor which we have named absA. The genetic location of absA, at 10 o'clock, is distinct from the locations of the antibiotic gene clusters and from other known mutations that affect antibiotic synthesis. The phenotype of the absA mutants suggests that all S. coelicolor antibiotic synthesis genes are subject to a common global regulation that is at least in part distinct from sporulation and that absA is a genetic component of the regulatory mechanism.

机译：天蓝色链霉菌产生四种已知的抗生素。为了定义调节抗生素合成的遗传元件，我们筛选了明显阻止两种色素抗生素合成的突变，发现我们回收的突变株属于两类-双重突变株和所有四种抗生素均被阻断的突变株。这些多重阻断菌株中的突变定义了一种新的天蓝色链霉菌基因座，我们将其命名为absA。 10点钟的absA的遗传位置与抗生素基因簇的位置以及影响抗生素合成的其他已知突变不同。 absA突变体的表型表明，所有天蓝色链霉菌抗生素合成基因都受到共同的全局调控，该调控至少部分不同于孢子形成，并且absA是调控机制的遗传成分。

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Adamidis, T; Riggle, P; Champness, W;
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年度 1990
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1. Mutations in a new Streptomyces coelicolor locus which globally block antibiotic biosynthesis but not sporulation. [J] . T Adamidis, P Riggle, W Champness Journal of bacteriology . 1990,第6期

机译：新的天蓝色链霉菌基因座中的突变可全局阻止抗生素的生物合成，但不会孢子形成。
2. Genetic analysis of absB, a Streptomyces coelicolor locus involved in global antibiotic regulation. [J] . T Adamidis, W Champness Journal of bacteriology . 1992,第14期

机译：absB的遗传分析，这是一种参与全球抗生素调控的链霉菌青色链霉菌。
3. Genetic mapping and characterization of novel mutations which suppress the effect of a relC mutation on antibiotic production in Streptomyces coelicolor A3(2) [J] . Ochi K., Hosoya Y. The Journal of Antibiotics: An International Journal . 1998,第6期

机译：抑制relC突变对天蓝色链霉菌A3中抗生素产生的影响的新突变的遗传定位和表征（2）
4. ELUCIDATION OF PATHWAYS FOR ANTIBIOTIC BIOSYNTHESIS IN STREPTOMYCES COELICOLOR A3(2) [C] . Stuart W. Haynes, Paulina K. Sydor, Christophe Corre Proceedings of Functional Molecules from Natural Sources . 2011

机译：在链霉菌A3（2）中阐明抗生素生物合成的抗生素生物合成途径
5. Natural products biosynthesis: I. Geosmin biosynthesis in Streptomyces coelicolor A3(2) and Nostoc punctiforme PCC 73102. II. Pentalenolactone biosynthetic pathway in Streptomyces avermitilis. [D] . Jiang, Jiaoyang. 2009

机译：天然产物的生物合成：I. coelicolor链霉菌A3（2）和点状诺氏菌PCC 73102中的土臭素生物合成。阿维链霉菌中的戊烯戊内酯生物合成途径。
6. Mutations in a new Streptomyces coelicolor locus which globally block antibiotic biosynthesis but not sporulation. [O] . T Adamidis, P Riggle, W Champness 1990

机译：新的天蓝色链霉菌基因座中的突变可全局阻断抗生素的生物合成但不会引起孢子形成。
7. Biosynthesis of the antibiotic actinorhodin. Analysis of blocked mutants of Streptomyces coelicolor. [O] . SHERI P. COLE, BRIAN A. M. RUDD, DAVID A. HOPWOOD, 1987

机译：抗生素Actinorhodin的生物合成。链霉菌菌叶突变体分析。

Mutations in a new Streptomyces coelicolor locus which globally block antibiotic biosynthesis but not sporulation.

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