Autor: |
Javid-Majd, F, Mullins, L S, Raushel, F M, Stapleton, M A |
Zdroj: |
Journal of Biological Chemistry; February 2000, Vol. 275 Issue: 7 p5073-80, 8p |
Abstrakt: |
Carbamoyl-phosphate synthetase (CPS) from Escherichia coli is a heterodimeric protein. The larger of the two subunits (M(r) approximately 118,000) contains a pair of homologous domains of approximately 400 residues each that are approximately 40% identical in amino acid sequence. The carboxy phosphate (residues 1-400) and carbamoyl phosphate domains (residues 553-933) also contain approximately 79 differentially conserved residues. These are residues that are conserved throughout the bacterial evolution of CPS in one of these homologous domains but not the other. The role of these differentially conserved residues in the structural and catalytic properties of CPS was addressed by swapping segments of these residues from one domain to the other. Nine of these chimeric mutant enzymes were constructed, expressed, purified, and characterized. A majority of the mutants were unable to synthesize any carbamoyl phosphate and the rest were severely crippled. True tandem repeat chimeric proteins were constructed by the complete substitution of one homologous domain sequence for the other. Neither of the two possible chimeric proteins was structurally stable. These results have been interpreted to demonstrate that the two homologous domains in the large subunit of CPS are functionally and structurally nonequivalent. This nonequivalence is a direct result of the specific functions each of these domains must perform during the overall synthesis of carbamoyl phosphate in the wild type enzyme and the specific structural alterations imposed by the differentially conserved residues. |
Databáze: |
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