AI Article Synopsis
- AnsA is a cytoplasmic asparaginase enzyme from E. coli that utilizes asparagine and has a complex tetrameric structure formed by two dimers.
- Kinetic analyses show that AnsA displays positive cooperativity with a sigmoidal substrate dependence curve, indicating how the enzyme's activity changes with varying asparagine concentrations.
- Structural changes, induced by asparagine binding to an allosteric site, affect the enzyme's shape and interactions, influencing its function, where certain mutations can alter enzyme cooperativity and binding affinity.
Article Abstract
AnsA is the cytoplasmic asparaginase from Escherichia coli involved in intracellular asparagine utilization. Analytical ultracentifugation and X-ray crystallography reveal that AnsA forms a tetrameric structure as a dimer of two intimate dimers. Kinetic analysis of the enzyme reveals that AnsA is positively cooperative, displaying a sigmoidal substrate dependence curve with an [S](0.5) of 1 mM L-asparagine and a Hill coefficient (n(H)) of 2.6. Binding of L-asparagine to an allosteric site was observed in the crystal structure concomitant with a reorganization of the quarternary structure, relative to the apo enzyme. The carboxyl group of the bound asparagine makes salt bridges and hydrogen bonds to Arg240, while the N(delta2) nitrogen interacts with Thr162. Mutation of Arg240 to Ala increases the [S](0.5) value to 5.9 mM, presumably by reducing the affinity of the site for L-asparagine, although the enzyme retains cooperativity. Mutation of Thr162 to Ala results in an active enzyme with no cooperativity. Transmission of the signal from the allosteric site to the active site appears to involve subtle interactions at the dimer-dimer interface and relocation of Gln118 into the vicinity of the active site to position the probable catalytic water molecule. These data define the structural basis for the cooperative regulation of the intracellular asparaginase that is required for proper functioning within the cell.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1991333 | PMC |
| http://dx.doi.org/10.1016/j.jmb.2007.03.061 | DOI Listing |
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