Título
A competent catalytic active site is necessary for substrate induced dimer assembly in triosephosphate isomerase
11627/510311627/5103
Autor
Jiménez Sandoval, Pedro
Vique Sánchez, José Luis
López Hidalgo, Marisol
Velázquez Juárez, Gilberto
Díaz Quezada, Corina
Arroyo Navarro, Luis Fernando
Montero Morán, Gabriela Margarita
Fattori, Juliana
Díaz Salazar, Alma Jessica
Rudiño Piñera, Enrique
Sotelo Mundo, Rogerio Rafael
Migliorini Figueira, Ana Carolina
Lara González, Samuel
Benítez Cardoza, Claudia Guadalupe
Brieba de Castro, Luis Gabriel
Resumen
"The protozoan parasite Trichomonas vaginalis contains two nearly identical triosephosphate isomerases (TvTIMs) that dissociate into stable monomers and dimerize upon substrate binding. Herein, we compare the role of the “ball and socket” and loop 3 interactions in substrate assisted dimer assembly in both TvTIMs. We found that point mutants at the “ball” are only 39 and 29-fold less catalytically active than their corresponding wild-type counterparts, whereas ?loop 3 deletions are 1502 and 9400-fold less active. Point and deletion mutants dissociate into stable monomers. However, point mutants assemble as catalytic competent dimers upon binding of the transition state substrate analog PGH, whereas loop 3 deletions remain monomeric. A comparison between crystal structures of point and loop 3 deletion monomeric mutants illustrates that the catalytic residues in point mutants and wild-type TvTIMs are maintained in the same orientation, whereas the catalytic residues in deletion mutants show an increase in thermal mobility and present structural disorder that may hamper their catalytic role. The high enzymatic activity present in monomeric point mutants correlates with the formation of dimeric TvTIMs upon substrate binding. In contrast, the low activity and lack of dimer assembly in deletion mutants suggests a role of loop 3 in promoting the formation of the active site as well as dimer assembly. Our results suggest that in TvTIMs the active site is assembled during dimerization and that the integrity of loop 3 and ball and socket residues is crucial to stabilize the dimer."
Fecha de publicación
2017Tipo de publicación
articleDOI
https://doi.org/10.1016/j.bbapap.2017.07.014Área de conocimiento
BIOLOGÍA MOLECULARColecciones
Editor
ElsevierPalabras clave
Dimer assemblyTriosephosphate isomerase
Trichomonas
X-ray crystallography