Kinetic Properties of Chitinase-1 from the Fungal Pathogen Coccidioides immitis

The endochitinase from Coccidioides immitis (CiX1) is a member of the class 18 chitinase family. Here we show the enzyme functions by a retaining catalytic mechanism; that is, the β-conformation of the chitin substrate linkages is preserved after hydrolysis. The pattern of cleavage of N-acetyglucosa...

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Veröffentlicht in:	Biochemistry (Easton) 2001-02, Vol.40 (8), p.2448-2454
Hauptverfasser:	Fukamizo, Tamo, Sasaki, Chiye, Schelp, Elisabeth, Bortone, Kara, Robertus, Jon D
Format:	Artikel
Sprache:	eng
Schlagworte:	Acetylglucosamine - metabolism Binding Sites chitinase 1 Chitinases - metabolism Coccidioides - enzymology Coccidioides - pathogenicity Coccidioides immitis Fungal Proteins - metabolism Hydrogen-Ion Concentration Hydrolysis Kinetics Oligosaccharides - metabolism Saccharomyces cerevisiae Proteins Substrate Specificity Time Factors
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creator	Fukamizo, Tamo Sasaki, Chiye Schelp, Elisabeth Bortone, Kara Robertus, Jon D
description	The endochitinase from Coccidioides immitis (CiX1) is a member of the class 18 chitinase family. Here we show the enzyme functions by a retaining catalytic mechanism; that is, the β-conformation of the chitin substrate linkages is preserved after hydrolysis. The pattern of cleavage of N-acetyglucosamine (GlcNAc) oligosaccharide substrates has been determined. (GlcNAc)6 is predominantly cleaved into (GlcNAc)2 and (GlcNAc)4, where the (GlcNAc)2 group arises from the nonreducing end of the substrate and is formed as the β-anomer. With time, transglycosylation occurs, generating (GlcNAc)8 from the product dimer and fresh hexamer. Similar patterns are seen for the cleavage of (GlcNAc)5 and (GlcNAc)4 where dimers cleaved from the nonreducing end reflect the most common binding and hydrolysis pattern. Intrinsic fluorescence measurements suggest the dissociation constant for (GlcNAc)4 is 50 μM. Synthetic substrates with fluorescent leaving groups exhibit complicated profiles in the relationship between initial velocity and substrate concentration, making it difficult to obtain the values of kinetic constants. An improved theoretical analysis of the time-course of (GlcNAc)6 degradation allows the unitary free energy of binding of the individual subsites of the enzyme to be estimated. The free energy values obtained are consistent with the dissociation constant obtained by fluorescence measurements, and generate a model of substrate interaction that can be tested against the crystal structure of the enzyme.
doi_str_mv	10.1021/bi001537s
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Here we show the enzyme functions by a retaining catalytic mechanism; that is, the β-conformation of the chitin substrate linkages is preserved after hydrolysis. The pattern of cleavage of N-acetyglucosamine (GlcNAc) oligosaccharide substrates has been determined. (GlcNAc)6 is predominantly cleaved into (GlcNAc)2 and (GlcNAc)4, where the (GlcNAc)2 group arises from the nonreducing end of the substrate and is formed as the β-anomer. With time, transglycosylation occurs, generating (GlcNAc)8 from the product dimer and fresh hexamer. Similar patterns are seen for the cleavage of (GlcNAc)5 and (GlcNAc)4 where dimers cleaved from the nonreducing end reflect the most common binding and hydrolysis pattern. Intrinsic fluorescence measurements suggest the dissociation constant for (GlcNAc)4 is 50 μM. Synthetic substrates with fluorescent leaving groups exhibit complicated profiles in the relationship between initial velocity and substrate concentration, making it difficult to obtain the values of kinetic constants. An improved theoretical analysis of the time-course of (GlcNAc)6 degradation allows the unitary free energy of binding of the individual subsites of the enzyme to be estimated. 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Synthetic substrates with fluorescent leaving groups exhibit complicated profiles in the relationship between initial velocity and substrate concentration, making it difficult to obtain the values of kinetic constants. An improved theoretical analysis of the time-course of (GlcNAc)6 degradation allows the unitary free energy of binding of the individual subsites of the enzyme to be estimated. 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subjects	Acetylglucosamine - metabolism Binding Sites chitinase 1 Chitinases - metabolism Coccidioides - enzymology Coccidioides - pathogenicity Coccidioides immitis Fungal Proteins - metabolism Hydrogen-Ion Concentration Hydrolysis Kinetics Oligosaccharides - metabolism Saccharomyces cerevisiae Proteins Substrate Specificity Time Factors
title	Kinetic Properties of Chitinase-1 from the Fungal Pathogen Coccidioides immitis
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