[72] MARTIN J F, RODRIGUEZ-GARCIA A, LIRAS P. The master regulator PhoP coordinates phosphate and nitrogen metabolism,respiration, cell differentiation and antibiotic biosynthesis: comparison in Streptomyces coelicolor and Streptomyces avermitilis[J]. Journal of Antibiotics,2017,70(5):534-541.
[73] YANG R, LIU X, WEN Y, et al. The PhoP transcription factor negatively regulates avermectin biosynthesis in Streptomyces avermitilis[J].,2015,99(24):-.
[74] LIU H, MARSAFARI M, WANG F, et al. Engineering acetyl-CoA metabolic shortcut for eco-friendly production of polyketides triacetic acid lactone in Yarrowia lipolytica[J]. Metabolic Engineering, 2019,56:60-68.
[75] TANG S Y,QIAN S,AKINTERINWA O,et for enhanced triacetic acid lactone production by recombinant Escherichia coli expressing a designed triacetic acid lactone reporter[J]. J. Am .,2013,135(27):-.
[76] CARDENAS J, DA SILVA N A. Metabolic engineering of Saccharomyces cerevisiae for the production of triacetic acid lactone[J].,2014,25:194-203.
[77] LI Y, QIAN S A, DUNN R, et al. Engineering Escherichia coli to increase triacetic acid lactone (TAL) production using an optimized TAL sensor-reporter system[J]. Journal of Industrial Microbiology &Biotechnology,2018,45(9):789-793.
[78] MARKHAM K A, PALMER C M, CHWATKO M, et al. Rewiring Yarrowia lipolytica toward triacetic acid lactone for materials generation[J]. Proceedings of the National Academy of Sciences of the United States of America,2018,115(9):2096-2101.
[79] TAN Z G, CLOMBURG J M, CHEONG S, et al. A polyketoacyl-CoA thiolase-dependent pathway for the synthesis of polyketide backbones[J].Nature Catalysis,2020,3(7):593.
[80] RISDIAN C, MOZEF T, WINK J. Biosynthesis of polyketides in Streptomyces[J].Microorganisms,2019,7(5):124.
[81] LEADLAY P F. Combinatorial approaches to polyketide biosynthesis[J].,1997,1(2):162-168.
[82] XU Z, WANG M, YE B C. TetR family transcriptional regulator PccD negatively controls propionyl coenzyme A assimilation in Saccharopolyspora erythraea[J].,2017,199(20):e00281.
[83] XU J Y, XU Z, ZHOU Y, et al. Lysine malonylome may affect the central metabolism and erythromycin biosynthesis pathway in Saccharopolyspora erythraea[J]. J. Proteome. Res., 2016, 15(5): 1685-1701.
[84] LYU M,CHENG Y,HAN X,et al.AccR,a TetR family transcriptional repressor, coordinates short-chain acyl coenzyme a homeostasis in Streptomyces avermitilis[J]. Appl. Environ. Microbiol., 2020, 86(12):e00508-e00520.
[85] LU X, LIU X, CHEN Z, et al. The ROK-family regulator Rok7B7 directly controls carbon catabolite repression, antibiotic biosynthesis,and morphological development in Streptomyces avermitilis[J]. ,2020,22(12):5090-5108.
[86] ZHAO C, HUANG Y, GUO C, et al. Heterologous expression of spinosyn biosynthetic gene cluster in streptomyces species is dependent on the expression of rhamnose biosynthesis genes[J].J.Biotechnol.,2017,27(3):190-198.
[87] TAN G Y, DENG K, LIU X, et al. Heterologous biosynthesis of spinosad: an omics-guided large polyketide synthase gene cluster reconstitution in streptomyces[J]. ACS Synth. Biol., 2017, 6(6): 995-1005.
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