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Relief of autoinhibition by conformational switch explains enzyme activation by a catalytically dead paralog.


ABSTRACT: Catalytically inactive enzyme paralogs occur in many genomes. Some regulate their active counterparts but the structural principles of this regulation remain largely unknown. We report X-ray structures of Trypanosoma brucei S-adenosylmethionine decarboxylase alone and in functional complex with its catalytically dead paralogous partner, prozyme. We show monomeric TbAdoMetDC is inactive because of autoinhibition by its N-terminal sequence. Heterodimerization with prozyme displaces this sequence from the active site through a complex mechanism involving a cis-to-trans proline isomerization, reorganization of a ?-sheet, and insertion of the N-terminal ?-helix into the heterodimer interface, leading to enzyme activation. We propose that the evolution of this intricate regulatory mechanism was facilitated by the acquisition of the dimerization domain, a single step that can in principle account for the divergence of regulatory schemes in the AdoMetDC enzyme family. These studies elucidate an allosteric mechanism in an enzyme and a plausible scheme by which such complex cooperativity evolved.

SUBMITTER: Volkov OA 

PROVIDER: S-EPMC5201418 | biostudies-literature | 2016 Dec

REPOSITORIES: biostudies-literature

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Relief of autoinhibition by conformational switch explains enzyme activation by a catalytically dead paralog.

Volkov Oleg A OA   Kinch Lisa L   Ariagno Carson C   Deng Xiaoyi X   Zhong Shihua S   Grishin Nick N   Tomchick Diana R DR   Chen Zhe Z   Phillips Margaret A MA  

eLife 20161215


Catalytically inactive enzyme paralogs occur in many genomes. Some regulate their active counterparts but the structural principles of this regulation remain largely unknown. We report X-ray structures of <i>Trypanosoma brucei S</i>-adenosylmethionine decarboxylase alone and in functional complex with its catalytically dead paralogous partner, prozyme. We show monomeric <i>Tb</i>AdoMetDC is inactive because of autoinhibition by its N-terminal sequence. Heterodimerization with prozyme displaces t  ...[more]

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