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  • Title: In vivo formation of active aspartate transcarbamoylase from complementing fragments of the catalytic polypeptide chains.
    Author: Yang YR, Schachman HK.
    Journal: Protein Sci; 1993 Jun; 2(6):1013-23. PubMed ID: 8318886.
    Abstract:
    Despite the complexity of Escherichia coli aspartate transcarbamoylase (ATCase), composed of 12 polypeptide chains organized as two catalytic (C) trimers and three regulatory (R) dimers, it is possible to form active stable enzyme in vivo even with fragmented catalytic (c) chains. Based on the observation that chymotryptic digestion of the C trimers yields an active protein that can be dissociated into fragmented chains and then reconstituted in high yield, genetically engineered plasmids carrying the genes encoding each of the fragments were constructed. When the N-terminal peptide (residues 1-242) and the C-terminal peptide (residues 235-310) were expressed separately, each incomplete polypeptide chain was found in the insoluble fraction of the individual cell extracts. Mixing the two insoluble pellets in 6.5 M urea, followed by a 10-fold dilution in buffer, led to the formation of active C trimers composed of incomplete polypeptide chains with an 8-amino acid redundancy. When the two partial genes were linked into a single transcriptional unit separated by a 15-nucleotide untranslated region containing a sequence for ribosome binding, the cells produced high yields of active C trimers composed of the incomplete, partially overlapping chains. The resulting protein, purified as C trimers or as holoenzyme formed by the addition of R subunits, has a specific activity (Vmax) only slightly less than that of the wild-type C trimer and ATCase. However, Km for aspartate exhibited by the C trimer composed of fragmented chains is more than 10-fold larger than that of the wild-type trimer. The holoenzyme formed from the C trimer containing the coexpressed peptides is devoid of cooperativity with a Hill coefficient of 1.0, as contrasted to wild-type ATCase for which the Hill coefficient is 1.7. Km for aspartate as well as Kd for the binding of the bisubstrate analog N-(phosphonacetyl)-L-aspartate are significantly higher than the analogous values for wild-type ATCase. Sedimentation velocity experiments indicate that the holoenzyme containing the incomplete chains has a conformation analogous to that of the R state of wild-type ATCase.
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