Artículo
Hydrogen-bonding conformations of tyrosine B10 tailor the hemeprotein reactivity of ferryl species
De Jesús Bonilla, Walleska; Cruz, Anthony; Lewis, Ariel; Cerda, José; Bacelo, Daniel Enrique
; Cadilla, Carmen L.; López Garriga, Juan
Fecha de publicación:
02/2006
Editorial:
Springer
Revista:
Journal of Biological Inorganic Chemistry
ISSN:
0949-8257
Idioma:
Inglés
Tipo de recurso:
Artículo publicado
Clasificación temática:
Resumen
Ferryl compounds [Fe(IV)=O] in living organisms play an essential role in the radical catalytic cycle and degradation processes of hemeproteins.We studied the reactions between H2O2 and hemoglobin II (HbII) (GlnE7, TyrB10, PheCD1, PheE11),recombinant hemoglobin I (HbI) (GlnE7, PheB10, PheCD1, PheE11), and the HbI PheB10Tyr mutant of L. pectinata. We found that the tyrosine residue in the B10 position tailors, in two very distinct ways, the reactivity of the ferryl species, compounds I and II. First, increasing the reaction pH from 4.86 to 7.50, and then to 11.2, caused the the second-order rate constant for HbII to decrease from 141.60 to 77.78 M-1 s-1, and to 2.96 M-1 s-1, respectively. This pH dependence is associated with the disruption of the heme–tyrosine (603 nm) protein moiety, which controls the access of the H2O2 to the hemeprotein active center, thus regulating the formation of the ferryl species. Second, the presence of compound I was evident in the UV–vis spectra (648-nm band) in the reactions of HbI and recombinant HbI with H2O2, This band, however, is completely absent in the analogous reaction with HbII and the HbI PheB10Tyr mutant. Therefore, the existence of a hydrogen-bonding network between the heme pocket amino acids (i.e., TyrB10) and the ferryl compound I created a path much faster than 3.0x10-2 s-1 for the decay of compound I to compound II. Furthermore, the decay of the heme ferryl compound I to compound II was independent of the proximal HisF8 trans-ligand strength. Thus, the pH dependence of the heme–tyrosine moiety complex determined the overall reaction rate of the oxidative reaction limiting the interaction with H2O2 at neutral pH. The hydrogen-bonding strength between the TyrB10 and the heme ferryl species suggests the presence of a cycle where the ferryl consumption by the ferric heme increases significantly the pseudoperoxidase activity of these hemeproteins.
Palabras clave:
TYROSINE B10
,
FERRYL SPECIES
,
HYDROGEN PEROXIDE
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Articulos(SEDE CENTRAL)
Articulos de SEDE CENTRAL
Articulos de SEDE CENTRAL
Citación
De Jesús Bonilla, Walleska; Cruz, Anthony; Lewis, Ariel; Cerda, José; Bacelo, Daniel Enrique; et al.; Hydrogen-bonding conformations of tyrosine B10 tailor the hemeprotein reactivity of ferryl species; Springer; Journal of Biological Inorganic Chemistry; 11; 3; 2-2006; 334-342
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