Analysis of the Catalytic and Binding Residues of the Diadenosine Tetraphosphate Pyrophosphohydrolase from Caenorhabditis elegans by Site-directed Mutagenesis
| Autor: | Scott Bailey, Hend M. Abdelghany, Alexander G. McLennan, John B. Rafferty, G. Michael Blackburn |
|---|---|
| Rok vydání: | 2003 |
| Předmět: |
Stereochemistry
Molecular Sequence Data Mutant Biology Biochemistry Nudix hydrolase Substrate Specificity chemistry.chemical_compound Catalytic Domain Hydrolase Animals Amino Acid Sequence Caenorhabditis elegans Site-directed mutagenesis Molecular Biology Binding Sites Hydrolysis Mutagenesis Wild type Substrate (chemistry) Cell Biology Acid Anhydride Hydrolases chemistry Mutagenesis Site-Directed Ap4A |
| Zdroj: | Journal of Biological Chemistry. 278:4435-4439 |
| ISSN: | 0021-9258 |
| Popis: | The contributions to substrate binding and catalysis of 13 amino acid residues of the Caenorhabditis elegans diadenosine tetraphosphate pyrophosphohydrolase (Ap(4)A hydrolase) predicted from the crystal structure of an enzyme-inhibitor complex have been investigated by site-directed mutagenesis. Sixteen glutathione S-transferase-Ap(4)A hydrolase fusion proteins were expressed and their k(cat) and K(m) values determined after removal of the glutathione S-transferase domain. As expected for a Nudix hydrolase, the wild type k(cat) of 23 s(-1) was reduced by 10(5)-, 10(3)-, and 30-fold, respectively, by replacement of the conserved P(4)-phosphate-binding catalytic residues Glu(56), Glu(52), and Glu(103) by Gln. K(m) values were not affected, indicating a lack of importance for substrate binding. In contrast, mutating His(31) to Val or Ala and Lys(83) to Met produced 10- and 16-fold increases in K(m) compared with the wild type value of 8.8 microm. These residues stabilize the P(1)-phosphate. H31V and H31A had a normal k(cat) but K83M showed a 37-fold reduction in k(cat). Lys(36) also stabilizes the P(1)-phosphate and a K36M mutant had a 10-fold reduced k(cat) but a relatively normal K(m). Thus both Lys(36) and Lys(83) may play a role in catalysis. The previously suggested roles of Tyr(27), His(38), Lys(79), and Lys(81) in stabilizing the P(2) and P(3)-phosphates were not confirmed by mutagenesis, indicating the absence of phosphate-specific binding contacts in this region. Also, mutating both Tyr(76) and Tyr(121), which clamp one substrate adenosine moiety between them in the crystal structure, to Ala only increased K(m) 4-fold. It is concluded that interactions with the P(1)- and P(4)-phosphates are minimum and sufficient requirements for substrate binding by this class of enzyme, indicating that it may have a much wider substrate range then previously believed. |
| Databáze: | OpenAIRE |
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