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  2. Positional-scanning combinatorial libraries of fluorescence resonance energy transfer peptides to define substrate specificity of carboxydipeptidases: assays with human cathepsin B

Positional-scanning combinatorial libraries of fluorescence resonance energy transfer peptides to define substrate specificity of carboxydipeptidases: assays with human cathepsin B

  • Anal Biochem. 2004 Dec 15;335(2):244-52. doi: 10.1016/j.ab.2004.09.012.
Simone Silva Cotrin 1 Luciano Puzer Wagner Alves de Souza Judice Luiz Juliano Adriana K Carmona Maria Aparecida Juliano
Affiliations

Affiliation

  • 1 Department of Biophysics, Escola Paulista de Medicina, UNIFESP, Rua Três de Maio, 100, São Paulo 04044-020, Brazil.
Abstract

We have developed positional scanning synthetic combinatorial libraries to define the substrate specificity of carboxydipeptidases. The library Abz-GXXZXK(Dnp)-OH, where Abz is ortho-aminobenzoic acid, K(Dnp) is N(epsilon)-2,4-dinitrophenyl-lysine with free carboxyl group, the Z position was successively occupied with 1 of 19 Amino acids (cysteine was omitted), and X represents randomly incorporated residues, was assayed initially with human Cathepsin B, and arginine was defined as one of the best residues at the P(1) position. To examine the selectivity of S(1)('), S(2), and S(3) subsites, the sublibraries Abz-GXXRZK(Dnp)-OH, Abz-GXZRXK(Dnp)-OH, and Abz-GZXRXK(Dnp)-OH were then synthesized. The peptide Abz-GIVRAK(Dnp)-OH, which contains the most favorable residues in the P(3)-P(1)(') positions identified by screening of the libraries with Cathepsin B, was hydrolyzed by this Enzyme with k(cat)/K(m)=7288 mM(-1)s(-1). This peptide is the most efficient substrate described for Cathepsin B to this point, and it is highly selective for the Enzyme among the lysosomal cysteine proteases.

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