Site-directed mutagenesis and molecular modelling studies show the role of Asp82 and cysteines in rat acylase 1, a member of the M20 family

Site-directed mutagenesis and molecular modelling studies show the role of Asp82 and cysteines in rat acylase 1, a member of the M20 family

Acylase 1 from rat kidney catalyzes the hydrolysis of acyl-amino acids. Sequence alignment has shown that this enzyme belongs to the metalloprotein family M20. Site-directed mutagenesis experiments led to the identification of one functionally important amino acid residue located near one of the zin...

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Veröffentlicht in:Biochemical and biophysical research communications 2005-05, Vol.330 (2), p.540-546
Hauptverfasser: Herga, Sameh, Brutus, Alexandre, Vitale, Rosa Maria, Miche, Hélène, Perrier, Josette, Puigserver, Antoine, Scaloni, Andrea, Giardina, Thierry
Format: Artikel
Sprache:eng
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60 APPLIED LIFE SCIENCES
Acylase I
Amidohydrolases - chemistry
Amidohydrolases - genetics
Amidohydrolases - metabolism
AMINO ACID SEQUENCE
Animals
Aspartic Acid - chemistry
Base Sequence
CONFORMATIONAL CHANGES
CYSTEINE
Cysteine - chemistry
DNA Primers
ENZYMES
HISTIDINE
HYDROLYSIS
Kidney - enzymology
KIDNEYS
M20 family
Models, Molecular
Molecular modelling
MUTAGENESIS
Mutagenesis, Site-Directed
RATS
RESIDUES
Site-directed mutagenesis
ZINC
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Zusammenfassung:Acylase 1 from rat kidney catalyzes the hydrolysis of acyl-amino acids. Sequence alignment has shown that this enzyme belongs to the metalloprotein family M20. Site-directed mutagenesis experiments led to the identification of one functionally important amino acid residue located near one of the zinc coordinating residues, which play a critical role in the enzymatic activity. The D82N- and D82E-substituted forms showed no significant activity and very low activity, respectively, along with a loss of zinc coordination. Molecular modelling investigations indicated a putative role of D82 in ensuring a proper protonation of catalytic histidine. In addition, none of the five cysteine residues present in the rat kidney acylase 1 sequence seemed involved in the catalytic process: the loss of activity induced by the C294A substitution was probably due to a conformational change in the 3D structure.
ISSN:0006-291X
1090-2104
DOI:10.1016/j.bbrc.2005.03.019