Artículo
Correlation between catalysis and tertiary structure arrangement in an archaeal halophilic subtilase
Souza, Tatiana A. C. B.; Okamoto, Débora N.; Ruiz, Diego M.; Oliveira, Lilian C. G.; Kondo, Márcia Y.; Tersario, Ivarne L. S.; Juliano, Luiz; de Castro, Rosana Esther
; Gouvea, Iuri E.; Murakami, Mário T.
Fecha de publicación:
03/2012
Editorial:
Elsevier Masson
Revista:
Biochimie
ISSN:
0300-9084
Idioma:
Inglés
Tipo de recurso:
Artículo publicado
Clasificación temática:
Resumen
Nep (Natrialba magadii extracellular protease) is a halolysin-like peptidase secreted by the haloalkaliphilic archaeon N. magadii that exhibits optimal activity and stability in salt-saturated solutions. In this work, the effect of salt on the function and structure of Nep was investigated. In absence of salt, Nep became unfolded and aggregated, leading to the loss of activity. The enzyme did not recover its structural and functional properties even after restoring the ideal conditions for catalysis. At salt concentrations higher than 1 M (NaCl), Nep behaved as monomers in solution and its enzymatic activity displayed a nonlinear concave-up dependence with salt concentration resulting in a 20-fold activation at 4 M NaCl. Although transition from a high to a low-saline environment (3–1 M NaCl) did not affect its secondary structure contents, it diminished the enzyme stability and provoked large structural rearrangements, changing from an elongated shape at 3 M NaCl to a compact conformational state at 1 M NaCl. The thermodynamic analysis of peptide hydrolysis by Nep suggests a significant enzyme reorganization depending on the environmental salinity, which supports in solution SAXS and DLS studies. Moreover, solvent kinetic isotopic effect (SKIE) data indicates the general acid-base mechanism as the rate-limiting step for Nep catalysis, like classical serine-peptidases. All these data correlate the Nep conformational states with the enzymatic behavior providing a further understanding on the stability and structural determinants for the functioning of halolysins under different salinities.
Archivos asociados
Licencia
Identificadores
Colecciones
Articulos(IIB)
Articulos de INSTITUTO DE INVESTIGACIONES BIOLOGICAS
Articulos de INSTITUTO DE INVESTIGACIONES BIOLOGICAS
Citación
Souza, Tatiana A. C. B.; Okamoto, Débora N.; Ruiz, Diego M.; Oliveira, Lilian C. G.; Kondo, Márcia Y.; et al.; Correlation between catalysis and tertiary structure arrangement in an archaeal halophilic subtilase; Elsevier Masson; Biochimie; 94; 3; 3-2012; 798-805
Compartir
Altmétricas