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Specificity characterization of the α-mating factor hormone by Kex2 protease

Kex2 is a Ca2+-dependent serine protease from S. cerevisiae. Characterization of the substrate specificity of Kex2 is of particular interest because this protease serves as the prototype of a large family of eukaryotic subtilisin-related proprotein-processing proteases that cleave sites consisting o...

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Bibliographic Details
Published in:Biochimie 2016-12, Vol.131, p.149-158
Main Authors: Manfredi, Marcella Araújo, Antunes, Alyne Alexandrino, Jesus, Larissa de Oliveira Passos, Juliano, Maria Aparecida, Juliano, Luiz, Judice, Wagner Alves de Souza
Format: Article
Language:English
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Summary:Kex2 is a Ca2+-dependent serine protease from S. cerevisiae. Characterization of the substrate specificity of Kex2 is of particular interest because this protease serves as the prototype of a large family of eukaryotic subtilisin-related proprotein-processing proteases that cleave sites consisting of pairs or clusters of basic residues. Our goal was to study the prime region subsite S′ of Kex2 because previous studies have only taken into account non-prime sites using AMC substrates but not the specificity of prime sites identified through structural modeling or predicted cleavage sites. Therefore, we used peptides derived from Abz-KR↓EADQ-EDDnp and Abz-YKR↓EADQ-EDDnp based on the pro-α-mating factor sequence. The specificity of Kex2 due to basic residues at P1′ is affected by the type of residue in the P3 position. Some residues in P1′ with large or bulky side chains yielded poor substrate specificity. The kcat/KM values for peptides with P2′ substitutions containing Tyr in P3 were higher than those obtained for the peptides without Tyr. In fact, P′ and P modifications mainly promoted changes in kcat and KM, respectively. The pH profile of Kex2 was fit to a double-sigmoidal pH-titration curve. The specificity results suggest that Kex2 might be involved in the processing of the putative cleavage sites in a polypeptide involved in cell elongation, hyphal formation and the processing of a toxin, which result in host cell lysis. In summary, the specificity of Kex2 is dependent on the set of interactions with prime and non-prime subsites, resulting in synergism. •Specificity of Kex2 using peptides derived from α-mating factor from S. cerevisiae was performed.•P′ and P modifications mainly promoted changes in kcat and KM, respectively.•Specificity of Kex2 depends on set of interactions with S′ and S subsites resulting in synergism.
ISSN:0300-9084
1638-6183
DOI:10.1016/j.biochi.2016.10.003