Literature DB >> 23709667

A redox 2-Cys mechanism regulates the catalytic activity of divergent cyclophilins.

Bruna Medéia Campos1, Mauricio Luis Sforça, Andre Luis Berteli Ambrosio, Mariane Noronha Domingues, Tatiana de Arruda Campos Brasil de Souza, João Alexandre Ribeiro Gonçalvez Barbosa, Adriana Franco Paes Leme, Carlos Alberto Perez, Sara Britt-Marie Whittaker, Mario Tyago Murakami, Ana Carolina de Matos Zeri, Celso Eduardo Benedetti.   

Abstract

The citrus (Citrus sinensis) cyclophilin CsCyp is a target of the Xanthomonas citri transcription activator-like effector PthA, required to elicit cankers on citrus. CsCyp binds the citrus thioredoxin CsTdx and the carboxyl-terminal domain of RNA polymerase II and is a divergent cyclophilin that carries the additional loop KSGKPLH, invariable cysteine (Cys) residues Cys-40 and Cys-168, and the conserved glutamate (Glu) Glu-83. Despite the suggested roles in ATP and metal binding, the functions of these unique structural elements remain unknown. Here, we show that the conserved Cys residues form a disulfide bond that inactivates the enzyme, whereas Glu-83, which belongs to the catalytic loop and is also critical for enzyme activity, is anchored to the divergent loop to maintain the active site open. In addition, we demonstrate that Cys-40 and Cys-168 are required for the interaction with CsTdx and that CsCyp binds the citrus carboxyl-terminal domain of RNA polymerase II YSPSAP repeat. Our data support a model where formation of the Cys-40-Cys-168 disulfide bond induces a conformational change that disrupts the interaction of the divergent and catalytic loops, via Glu-83, causing the active site to close. This suggests a new type of allosteric regulation in divergent cyclophilins, involving disulfide bond formation and a loop-displacement mechanism.

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Year:  2013        PMID: 23709667      PMCID: PMC3707534          DOI: 10.1104/pp.113.218339

Source DB:  PubMed          Journal:  Plant Physiol        ISSN: 0032-0889            Impact factor:   8.340


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