Title : A specific role of the Saccharopolyspora erythraea thioesterase II gene in the function of modular polyketide synthases - Hu_2003_Microbiology_149_2213 |
Author(s) : Hu Z , Pfeifer BA , Chao E , Murli S , Kealey J , Carney JR , Ashley G , Khosla C , Hutchinson CR |
Ref : Microbiology , 149 :2213 , 2003 |
Abstract :
Bacterial modular polyketide synthase (PKS) genes are commonly associated with another gene that encodes a thioesterase II (TEII) believed to remove aberrantly loaded substrates from the PKS. Co-expression of the Saccharopolyspora erythraea ery-ORF5 TEII and eryA genes encoding 6-deoxyerythronolide B synthase (DEBS) in Streptomyces hosts eliminated or significantly lowered production of 8,8'-deoxyoleandolide [15-nor-6-deoxyerythronolide B (15-nor-6dEB)], which arises from an acetate instead of a propionate starter unit. Disruption of the TEII gene in an industrial Sac. erythraea strain caused a notable amount of 15-norerythromycins to be produced by utilization of an acetate instead of a propionate starter unit and also resulted in moderately lowered production of erythromycin compared with the amount produced by the parental strain. A similar behaviour of the TEII gene was observed in Escherichia coli strains that produce 6dEB and 15-methyl-6dEB. Direct biochemical analysis showed that the ery-ORF5 TEII enzyme favours hydrolysis of acetyl groups bound to the loading acyl carrier protein domain (ACP(L)) of DEBS. These results point to a clear role of the TEII enzyme, i.e. removal of a specific type of acyl group from the ACP(L) domain of the DEBS1 loading module. |
PubMedSearch : Hu_2003_Microbiology_149_2213 |
PubMedID: 12904561 |
Gene_locus related to this paper: sacer-Q9JN61 |
Gene_locus | sacer-Q9JN61 |
Hu Z, Pfeifer BA, Chao E, Murli S, Kealey J, Carney JR, Ashley G, Khosla C, Hutchinson CR (2003)
A specific role of the Saccharopolyspora erythraea thioesterase II gene in the function of modular polyketide synthases
Microbiology
149 :2213
Hu Z, Pfeifer BA, Chao E, Murli S, Kealey J, Carney JR, Ashley G, Khosla C, Hutchinson CR (2003)
Microbiology
149 :2213