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Studies of lincosamide formation complete the biosynthetic pathway for lincomycin A
by
Wang, Shao-An
, Lin, Chia-I
, Zhang, Jiawei
, Ushimaru, Richiro
, Sasaki, Eita
, Liu, Hung-wen
in
Bacterial Proteins - genetics
/ Bacterial Proteins - metabolism
/ Biochemistry
/ Biological Sciences
/ Biosynthesis
/ Biosynthetic Pathways
/ Carbohydrates
/ Chemical reactions
/ Chemistry
/ Dehydration
/ Enzymes
/ Intermediates
/ Lincomycin
/ Lincomycin - biosynthesis
/ Lincomycin - chemistry
/ Lincosamides - chemistry
/ Lincosamides - metabolism
/ Natural products
/ Physical Sciences
/ Streptomyces - chemistry
/ Streptomyces - enzymology
/ Streptomyces - genetics
/ Streptomyces - metabolism
2020
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Studies of lincosamide formation complete the biosynthetic pathway for lincomycin A
by
Wang, Shao-An
, Lin, Chia-I
, Zhang, Jiawei
, Ushimaru, Richiro
, Sasaki, Eita
, Liu, Hung-wen
in
Bacterial Proteins - genetics
/ Bacterial Proteins - metabolism
/ Biochemistry
/ Biological Sciences
/ Biosynthesis
/ Biosynthetic Pathways
/ Carbohydrates
/ Chemical reactions
/ Chemistry
/ Dehydration
/ Enzymes
/ Intermediates
/ Lincomycin
/ Lincomycin - biosynthesis
/ Lincomycin - chemistry
/ Lincosamides - chemistry
/ Lincosamides - metabolism
/ Natural products
/ Physical Sciences
/ Streptomyces - chemistry
/ Streptomyces - enzymology
/ Streptomyces - genetics
/ Streptomyces - metabolism
2020
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Studies of lincosamide formation complete the biosynthetic pathway for lincomycin A
by
Wang, Shao-An
, Lin, Chia-I
, Zhang, Jiawei
, Ushimaru, Richiro
, Sasaki, Eita
, Liu, Hung-wen
in
Bacterial Proteins - genetics
/ Bacterial Proteins - metabolism
/ Biochemistry
/ Biological Sciences
/ Biosynthesis
/ Biosynthetic Pathways
/ Carbohydrates
/ Chemical reactions
/ Chemistry
/ Dehydration
/ Enzymes
/ Intermediates
/ Lincomycin
/ Lincomycin - biosynthesis
/ Lincomycin - chemistry
/ Lincosamides - chemistry
/ Lincosamides - metabolism
/ Natural products
/ Physical Sciences
/ Streptomyces - chemistry
/ Streptomyces - enzymology
/ Streptomyces - genetics
/ Streptomyces - metabolism
2020
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Studies of lincosamide formation complete the biosynthetic pathway for lincomycin A
Journal Article
Studies of lincosamide formation complete the biosynthetic pathway for lincomycin A
2020
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Overview
The structure of lincomycin A consists of the unusual eight-carbon thiosugar core methyllincosamide (MTL) decorated with a pendent N-methylprolinyl moiety. Previous studies on MTL biosynthesis have suggested GDP-D-erythro-α-D-gluco-octose and GDP-D-α-D-lincosamide as key intermediates in the pathway. However, the enzyme-catalyzed reactions resulting in the conversion of GDP-D-erythro-α-D-gluco-octose to GDP-D-α-D-lincosamide have not yet been elucidated. Herein, a biosynthetic subpathway involving the activities of four enzymes—LmbM, LmbL, CcbZ, and CcbS (the LmbZ and LmbS equivalents in the closely related celesticetin pathway)—is reported. These enzymes catalyze the previously unknown biosynthetic steps including 6-epimerization, 6,8-dehydration, 4-epimerization, and 6-transamination that convert GDP-D-erythro-α-D-gluco-octose to GDP-D-α-D-lincosamide. Identification of these reactions completes the description of the entire lincomycin biosynthetic pathway. This work is significant since it not only resolves the missing link in octose core assembly of a thiosugar-containing natural product but also showcases the sophistication in catalytic logic of enzymes involved in carbohydrate transformations.
Publisher
National Academy of Sciences
Subject
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