Molecular dynamics simulations of active site mutants of rat liver arginase

By using molecular dynamics (MD) simulations and crystallographic data for rat liver arginase, the substrate positions in the active sites of native and mutant forms of the enzyme, were compared and correlated with known kinetic consequences of mutations. The mutants compared were His 141<IMG SRC...

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Autores principales: Canales,Mauricio, Westermeyer,Linda, Carvajal,Nelson
Lenguaje:English
Publicado: Pontificia Universidad Católica de Valparaíso 2001
Acceso en línea:http://www.scielo.cl/scielo.php?script=sci_arttext&pid=S0717-34582001000300010
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Sumario:By using molecular dynamics (MD) simulations and crystallographic data for rat liver arginase, the substrate positions in the active sites of native and mutant forms of the enzyme, were compared and correlated with known kinetic consequences of mutations. The mutants compared were His 141<IMG SRC="/content/vol4/issue3/full/6/flecha2.gif" WIDTH=12 HEIGHT=9>Phe and His 141<IMG SRC="/content/vol4/issue3/full/6/flecha2.gif" WIDTH=12 HEIGHT=9>Asn. The simulations show that mutation His141<IMG SRC="/content/vol4/issue3/full/6/flecha2.gif" WIDTH=12 HEIGHT=9>Asn gives the greatest divergence from the atomic coordinates, when compared with the control native enzyme. The mutant Asp128<IMG SRC="/content/vol4/issue3/full/6/flecha2.gif" WIDTH=12 HEIGHT=9>Asn does not show a change in atomic coordinates in the substrate, in agreement with the concept that a change in the metal coordination is responsible for the loss of catalytic activity in this mutant. Results obtained agree with reported kinetic consequences of mutations in arginase.