6-deoxyerythronolide B production through chromosomal localization of the deoxyerythronolide B synthase genes in E. coli.

Wang Y; Pfeifer BA

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6-deoxyerythronolide B production through chromosomal localization of the deoxyerythronolide B synthase genes in E. coli.

机译：通过大肠杆菌中脱氧赤藓醇B合酶基因的染色体定位产生6-脱氧赤藓醇B.

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Chromosomal engineering was used to localize the deoxyerythronolide B synthase (DEBS) genes and propionyl-CoA carboxylase (PCC) genes to the BAP1 Escherichia coli chromosome creating the new strain YW9. YW9 then featured a plasmid-free heterologous pathway for the production of the polyketide product 6-deoxyerythronolide B (6dEB, a precursor to the antibiotic erythromycin) highlighted by the successful chromosomal integration of five genes total and three DEBS genes each approximately 10 kb in length. The new strain was tested for small-scale 6dEB biosynthesis and compared to 6dEB production from plasmid-derived gene expression at 22, 30, and 37 degrees C. YW9 produced 6dEB at each temperature tested; whereas, the current plasmid-based system could only produce 6dEB at 22 and 30 degrees C. As determined by MS analysis, average production levels for YW9 were 0.47 (22 degrees C), 0.52 (30 degrees C), and 0.11 (37 degrees C)mg/L.

机译：使用染色体工程技术将脱氧赤藓醇内酯B合酶（DEBS）基因和丙酰辅酶A羧化酶（PCC）基因定位到BAP1大肠杆菌染色体上，从而创建了新菌株YW9。 YW9然后以无质粒的异源途径为特征来生产聚酮化合物6-脱氧赤藓醇B（6dEB，抗生素红霉素的前体），其成功整合了五个基因和三个每个长度约10 kb的DEBS基因的成功染色体整合。测试了新菌株的小规模6dEB生物合成，并与在22、30和37摄氏度下质粒衍生的基因表达产生的6dEB进行了比较。相反，当前基于质粒的系统只能在22和30摄氏度下产生6dEB。通过MS分析确定，YW9的平均产量分别为0.47（22摄氏度），0.52（30摄氏度）和0.11（37摄氏度）。 C）毫克/升。

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《Metabolic engineering》 |2008年第1期|共6页
作者
Wang Y; Pfeifer BA;
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正文语种 eng
中图分类蛋白质;
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Chromosomes; Bacterial; Erythromycin; Escherichia coli; Gene Transfer Techniques; 染色体; 细菌; 红霉素; 大肠杆菌; 遗传工程; 指示剂和试剂; 质粒; 逆转录聚合酶链反应;

机译：Chromosomes;Bacterial;Erythromycin;Escherichia coli;Gene Transfer Techniques;染色体;细菌;红霉素;大肠杆菌;遗传工程;指示剂和试剂;质粒;逆转录聚合酶链反应;

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1. 6-deoxyerythronolide B production through chromosomal localization of the deoxyerythronolide B synthase genes in E. coli. [J] . Wang Y, Pfeifer BA Metabolic engineering . 2008,第1期

机译：通过大肠杆菌中脱氧赤藓醇B合酶基因的染色体定位产生6-脱氧赤藓醇B.
2. Combining classical, genetic, and process strategies for improved precursor-directed production of 6-deoxyerythronolide B analogues [J] . Desai RP, Leaf T, Hu ZH, Biotechnology Progress . 2004,第1期

机译：结合经典，遗传和加工策略，改进前体指导的6-脱氧赤藓醇B类似物的生产
3. Regulation of the production of extracellular pectinase, cellulase, and protease in the soft rot bacterium Erwinia carotovora subsp. carotovora: evidence that aepH of E. carotovora subsp. carotovora 71 activates gene expression in E. carotovora subsp. carotovora, E. carotovora subsp. atroseptica, and Escherichia coli. [J] . H Murata, A Chatterjee, Y Liu, Applied and Environmental Microbiology . 1994,第9期

机译：调节软腐细菌胡萝卜欧文氏菌亚种中细胞外果胶酶，纤维素酶和蛋白酶的产生。 carotovora：证明carotovora亚种的aepH。 carotovora 71激活了carotovora亚种中的基因表达。 carotovora，大肠杆菌。 atroseptica和大肠杆菌。
4. Expression of the Genes Encoding Ectoine Synthases from Cobetia marina CICC10367 in E. coli BL21 [C] . Qing Chen, Linghua Zhang, Yingying Liu, International Conference on Environment Materials and Environment Management . 2012

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5. Efficient experimental design and micro-scale medium enhancement of 6-deoxyerythronolide B production through Escherichia coli. [D] . Pistorino, Michael. 2008

机译：通过大肠杆菌生产6-脱氧赤藓醇B的高效实验设计和微型培养基增强。
6. Regulation of the production of extracellular pectinase cellulase and protease in the soft rot bacterium Erwinia carotovora subsp. carotovora: evidence that aepH of E. carotovora subsp. carotovora 71 activates gene expression in E. carotovora subsp. carotovora E. carotovora subsp. atroseptica and Escherichia coli. [O] . H Murata, A Chatterjee, Y Liu, 1994

机译：调节软腐细菌胡萝卜欧文氏菌亚种中细胞外果胶酶纤维素酶和蛋白酶的产生。 carotovora：证明carotovora亚种的aepH。 carotovora 71激活了carotovora亚种中的基因表达。 carotovora大肠杆菌。 atroseptica和Escherichia coli。
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机译：在大肠杆菌中使用杂合mVa途径和异戊二烯合酶增强生物异戊二烯的产生。
8. Genetic and Physical Structure of Salmonella-coli Phage Hybrids and Development of New Generalized Transducing Hybrid Phages for E. Coli. [R] . Yamamoto, N. 1984

机译：沙门氏菌 - 大肠杆菌噬菌体杂种的遗传和物理结构及大肠杆菌新型广谱转导杂交噬菌体的研制。

6-deoxyerythronolide B production through chromosomal localization of the deoxyerythronolide B synthase genes in E. coli.

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