Ambiguities in mapping the active site of a conformationally dynamic enzyme by directed mutation. Role of dynamics in structure-function correlations in Escherichia coli adenylosuccinate synthetase
On the basis of ligated crystal structures, Asn21, Asn38, Thr42, and Arg419 are not involved in the chemical mechanism of adenylosuccinate synthetase from Escherichia coli, yet these residues are well conserved across species. Purified mutants (Asp21 --> Ala, Asn38 --> Ala, Asn38 --> Asp, A...
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| Published in | The Journal of biological chemistry Vol. 273; no. 26; pp. 16000 - 16004 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
26.06.1998
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| Abstract | On the basis of ligated crystal structures, Asn21, Asn38, Thr42, and Arg419 are not involved in the chemical mechanism of adenylosuccinate synthetase from Escherichia coli, yet these residues are well conserved across species. Purified mutants (Asp21 --> Ala, Asn38 --> Ala, Asn38 --> Asp, Asn38 --> Glu, Thr42 --> Ala, and Arg419 --> Leu) were studied by kinetics, circular dichroism spectroscopy, and equilibrium ultracentrifugation. Asp21 and Arg419 are not part of the active site, yet mutations at positions 21 and 419 lower kcat 20- and 10-fold, respectively. Thr42 interacts only through its backbone amide with the guanine nucleotide, yet its mutation to alanine significantly increases Km for all substrates. Asn38 hydrogen-bonds directly to the 5'-phosphoryl group of IMP, yet its mutation to alanine and glutamate has no effect on Km values, but reduces kcat by 100-fold. The mutation Asn38 --> Asp causes 10-57-fold increases in Km for all substrates along with a 30-fold decrease in kcat. At pH 5.6, however, the Asn38 --> Asp mutant is more active, yet binds IMP 100-fold more weakly, than the wild-type enzyme. Proposed mechanisms of ligand-induced conformational change and subunit aggregation can account for the properties of mutant enzymes reported here. The results underscore the difficulty of using directed mutations alone as a means of mapping the active site of an enzyme. |
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| AbstractList | On the basis of ligated crystal structures, Asn super(21), Asn super(38), Thr super(42), and Arg super(419) are not involved in the chemical mechanism of adenylosuccinate synthetase from Escherichia coli, yet these residues are well conserved across species. Purified mutants (Asp super(21) arrow right Ala, Asn super(38) arrow right Ala, Asn super(38) arrow right Asp, Asn super(38) arrow right Glu, Thr super(42) arrow right Ala, and Arg super(419) arrow right Leu) were studied by kinetics, circular dichroism spectroscopy, and equilibrium ultracentrifugation. Asp super(21) and Arg super(419) are not part of the active site, yet mutations at positions 21 and 419 lower k sub(cat) 20- and 10-fold, respectively. Thr super(42) interacts only through its backbone amide with the guanine nucleotide, yet its mutation to alanine significantly increases K sub(m) for all substrates. Asn super(38) hydrogen-bonds directly to the 5'-phosphoryl group of IMP, yet its mutation to alanine and glutamate has no effect on K sub(m) values, but reduces k sub(cat) by 100-fold. The mutation Asn super(38) arrow right Asp causes 10-57-fold increases in K sub(m) for all substrates along with a 30-fold decrease in k sub(cat). At pH 5.6, however, the Asn super(38) arrow right Asp mutant is more active, yet binds IMP 100-fold more weakly, than the wild-type enzyme. Proposed mechanisms of ligand-induced conformational change and subunit aggregation can account for the properties of mutant enzymes reported here. The results underscore the difficulty of using directed mutations alone as a means of mapping the active site of an enzyme. On the basis of ligated crystal structures, Asn21, Asn38, Thr42, and Arg419 are not involved in the chemical mechanism of adenylosuccinate synthetase from Escherichia coli, yet these residues are well conserved across species. Purified mutants (Asp21 --> Ala, Asn38 --> Ala, Asn38 --> Asp, Asn38 --> Glu, Thr42 --> Ala, and Arg419 --> Leu) were studied by kinetics, circular dichroism spectroscopy, and equilibrium ultracentrifugation. Asp21 and Arg419 are not part of the active site, yet mutations at positions 21 and 419 lower kcat 20- and 10-fold, respectively. Thr42 interacts only through its backbone amide with the guanine nucleotide, yet its mutation to alanine significantly increases Km for all substrates. Asn38 hydrogen-bonds directly to the 5'-phosphoryl group of IMP, yet its mutation to alanine and glutamate has no effect on Km values, but reduces kcat by 100-fold. The mutation Asn38 --> Asp causes 10-57-fold increases in Km for all substrates along with a 30-fold decrease in kcat. At pH 5.6, however, the Asn38 --> Asp mutant is more active, yet binds IMP 100-fold more weakly, than the wild-type enzyme. Proposed mechanisms of ligand-induced conformational change and subunit aggregation can account for the properties of mutant enzymes reported here. The results underscore the difficulty of using directed mutations alone as a means of mapping the active site of an enzyme. |
| Author | Fromm, H J Wang, W Honzatko, R B Gorrell, A Hou, Z |
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| Snippet | On the basis of ligated crystal structures, Asn21, Asn38, Thr42, and Arg419 are not involved in the chemical mechanism of adenylosuccinate synthetase from... On the basis of ligated crystal structures, Asn super(21), Asn super(38), Thr super(42), and Arg super(419) are not involved in the chemical mechanism of... |
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| SubjectTerms | Adenylosuccinate Synthase - genetics Binding Sites Chromosome Mapping Crystallography, X-Ray Escherichia coli Escherichia coli - enzymology Hydrogen-Ion Concentration Models, Molecular Mutagenesis, Site-Directed Protein Conformation Structure-Activity Relationship |
| Title | Ambiguities in mapping the active site of a conformationally dynamic enzyme by directed mutation. Role of dynamics in structure-function correlations in Escherichia coli adenylosuccinate synthetase |
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