FrsA functions as a cofactor-independent decarboxylase to control metabolic flux |
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| Authors: | Lee Kyung-Jo Jeong Chang-Sook An Young Jun Lee Hyun-Jung Park Soon-Jung Seok Yeong-Jae Kim Pil Lee Jung-Hyun Lee Kyu-Ho Cha Sun-Shin |
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| Affiliation: | Department of Environmental Science, Hankuk University of Foreign Studies, Yongin, Republic of Korea. |
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| Abstract: | The interaction between fermentation-respiration switch (FrsA) protein and glucose-specific enzyme IIA(Glc) increases glucose fermentation under oxygen-limited conditions. We show that FrsA converts pyruvate to acetaldehyde and carbon dioxide in a cofactor-independent manner and that its pyruvate decarboxylation activity is enhanced by the dephosphorylated form of IIA(Glc) (d-IIA(Glc)). Crystal structures of FrsA and its complex with d-IIA(Glc) revealed residues required for catalysis as well as the structural basis for the activation by d-IIA(Glc). |
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