Crystal structure of a cyclic AMP-independent mutant of catabolite gene activator protein.
Escherichia coli NCR91 synthesizes a mutant form of catabolite gene activator protein (CAP) in which alanine 144 is replaced by threonine. This mutant, which also lacks adenylate cyclase activity, has a CAP phenotype; in the absence of cAMP it is able to express genes that normally require cAMP. CAP91 has been purified and crystallized with cAMP under the same conditions as used to crystallize the wild type CAP X cAMP complex. X-ray diffraction data were measured to 2.4-A resolution and the CAP91 structure was determined using initial model phases from the wild type structure. A difference Fourier map calculated between CAP91 and wild type showed the 2 alanine to threonine sequence changes in the dimer and also a change in orientation of cysteine 178 in one of the subunits. The CAP91 coordinates were refined by restrained least squares to an R factor of 0.186. Differences in the atomic positions of the wild type and mutant protein structures were analyzed by a vector averaging technique. There were small changes that included concerted motions in the small domains, in the hinge between the two domains and in an adjacent loop between beta-strands 4 and 5. The mutation at residue 144 apparently causes changes in the position of some protein atoms that are distal to the mutation site.[1]References
- Crystal structure of a cyclic AMP-independent mutant of catabolite gene activator protein. Weber, I.T., Gilliland, G.L., Harman, J.G., Peterkofsky, A. J. Biol. Chem. (1987) [Pubmed]
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