Acetohydroxyacid synthases: evolution, structure, and function

Acetohydroxyacid synthases: evolution, structure, and function

Acetohydroxyacid synthase, a thiamine diphosphate-dependent enzyme, can condense either two pyruvate molecules to form acetolactate for synthesizing L-valine and L-leucine or pyruvate with 2-ketobutyrate to form acetohydroxybutyrate for synthesizing L-isoleucine. Because the key reaction catalyzed b...

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Veröffentlicht in:Applied microbiology and biotechnology 2016-10, Vol.100 (20), p.8633-8649
Hauptverfasser: Liu, Yadi, Li, Yanyan, Wang, Xiaoyuan
Format: Artikel
Sprache:eng
Schlagworte:
Acetolactate Synthase - chemistry
Acetolactate Synthase - genetics
Acetolactate Synthase - metabolism
Amino acids
Analysis
Antimicrobial agents
Archaea
Bacteria
Biomedical and Life Sciences
Biosynthesis
Biotechnology
Butyrates - metabolism
Coenzymes - metabolism
E coli
Enzymes
Evolution, Molecular
Gram-positive bacteria
Herbicides
Hydroxybutyrates - metabolism
Lactates - metabolism
Life Sciences
Microbial Genetics and Genomics
Microbiology
Mini-Review
Mutagenesis
Mutation
Natural history
Physiological aspects
Protein Conformation
Pyruvic Acid - metabolism
Structure
Studies
Thiamine Pyrophosphate - metabolism
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Zusammenfassung:Acetohydroxyacid synthase, a thiamine diphosphate-dependent enzyme, can condense either two pyruvate molecules to form acetolactate for synthesizing L-valine and L-leucine or pyruvate with 2-ketobutyrate to form acetohydroxybutyrate for synthesizing L-isoleucine. Because the key reaction catalyzed by acetohydroxyacid synthase in the biosynthetic pathways of branched-chain amino acids exists in plants, fungi, archaea, and bacteria, but not in animals, acetohydroxyacid synthase becomes a potential target for developing novel herbicides and antimicrobial compounds. In this article, the evolution, structure, and catalytic mechanism of acetohydroxyacid synthase are summarized.
ISSN:0175-7598
1432-0614
DOI:10.1007/s00253-016-7809-9