Shift to pseudomonic acid B production in P-fluorescens NCIMB10586 by mutation of Mupirocin tailoring genes mupO, mupU, mupV, and macpE

Cooper SM; Laosripaiboon W; Rahman AS; Hothersall J; El-Sayed AK; Winfield C; Crosby J; Cox RJ; Simpson TJ; Thomas CM

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Shift to pseudomonic acid B production in P-fluorescens NCIMB10586 by mutation of Mupirocin tailoring genes mupO, mupU, mupV, and macpE

机译：通过对Mupirocin剪裁基因mupO，mupU，mupV和macpE进行突变，转移至P-荧光素NCIMB10586中的伪酸B生产

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Mupirocin, a polyketide-derived antibiotic from Pseudomonas fluorescens NCIMB10586, is a mixture of pseudomonic acids (PA) that target isoleucyl-tRNA synthase. The mup gene cluster encodes both type I polyketide synthases and monofunctional enzymes that should play a role during the conversion of the product of the polyketide synthase into the active antibiotic (tailoring). By in-frame deletion analysis of selected tailoring open-reading frames we show that mupQ, mupS, mupT, and mupW are essential for mupirocin production, whereas mupO, mupU, mupV, and macpE are essential for production of PA-A but not PA-B. Therefore, PA-B is not simply produced by hydroxylation of PA-A but is either a precursor of PA-A or a shunt product. In the mupW mutant, a new metabolite lacking the tetrahydropyran ring is produced, implicating mupW in oxidation of the 16-methyl group.

机译：Mupirocin是荧光假单胞菌NCIMB10586衍生自聚酮化合物的抗生素，是靶向异亮氨酰tRNA合酶的假单酸（PA）的混合物。 mup基因簇编码I型聚酮化合物合酶和单功能酶，它们应在聚酮化合物合酶的产物转化为活性抗生素的过程中发挥作用（定制）。通过对选定的剪裁开放阅读框的读框内缺失分析，我们发现mupQ，mupS，mupT和mupW对于产生mupirocin是必不可少的，而mupO，mupU，mupV和macpE对于产生PA-A却不是PA必不可少-B因此，PA-B不是简单地通过PA-A的羟基化生产的，而是PA-A的前体或分流产物。在mupW突变体中，产生了一个缺少四氢吡喃环的新代谢产物，这意味着mupW参与了16甲基的氧化。

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来源
《Chemistry & biology》 |2005年第7期|共9页
作者
Cooper SM; Laosripaiboon W; Rahman AS; Hothersall J; El-Sayed AK; Winfield C; Crosby J; Cox RJ; Simpson TJ; Thomas CM;
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正文语种 eng
中图分类化学;
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MARINE BACTERIUM; POLYKETIDE BIOSYNTHESIS; ANTIMICROBIAL ACTIVITY; ESCHERICHIA-COLI; ANTIBIOTICS; DNA; TRANSFORMATION; THIOMARINOL; DISRUPTION; RAPAMYCIN;

机译：海洋细菌;多肽的生物合成;抗菌活性;大肠埃希氏菌;抗生素;DNA;转化;硫代木酚;破坏;雷帕霉素;

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1. Shift to pseudomonic acid B production in P-fluorescens NCIMB10586 by mutation of Mupirocin tailoring genes mupO, mupU, mupV, and macpE [J] . Cooper SM, Laosripaiboon W, Rahman AS, Chemistry & biology . 2005,第7期

机译：通过对Mupirocin剪裁基因mupO，mupU，mupV和macpE进行突变，转移至P-荧光素NCIMB10586中的伪酸B生产
2. Production of bacterial cellulose hydrogels with tailored crystallinity from Enterobacter sp. FY-07 by the controlled expression of colanic acid synthetic genes [J] . Liu Dan, Cao Yiyan, Qu Rongrui, Carbohydrate Polymers: Scientific and Technological Aspects of Industrially Important Polysaccharides . 2019,第期

机译：生产细菌纤维素水凝胶，从肠杆菌SP中量身定制的结晶度。 FY-07通过受菌酸合成基因的受控表达
3. Mutations of the Corynebacterium glutamicum NCgl1221 Gene, Encoding a Mechanosensitive Channel Homolog, Induce l-Glutamic Acid Production [J] . Jun Nakamura, Seiko Hirano, Hisao Ito, Applied and Environmental Microbiology . 2007,第14期

机译：谷氨酸棒杆菌NCgl1221基因的突变，编码机械敏感通道的同源物，诱导产生l-谷氨酸
4. Mutations of the Corynebacterium glutamicum NCgl1221 Gene Encoding a Mechanosensitive Channel Homolog Induce l-Glutamic Acid Production [O] . Jun Nakamura, Seiko Hirano, Hisao Ito, 2007

机译：谷氨酸棒杆菌NCgl1221基因的突变编码机械敏感通道的同源物诱导产生l-谷氨酸
5. Shift to Pseudomonic Acid B Production in P. fluorescens NCIMB10586 by Mutation of Mupirocin Tailoring Genes mupO, mupU, mupV, and macpE [O] . Cooper Sian M., Laosripaiboon Wanpen, Rahman Ayesha S., 2005

机译：通过对Mupirocin定制基因mupO，mupU，mupV和macpE的突变转移至荧光假单胞菌NCIMB10586中的假单宁酸B生产

Shift to pseudomonic acid B production in P-fluorescens NCIMB10586 by mutation of Mupirocin tailoring genes mupO, mupU, mupV, and macpE

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