Mutational analysis of alpha-subunit of protein farnesyltransferase. Evidence for a catalytic role.
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Andres DA, Goldstein JL, Ho YK, Brown MS
Mutational analysis of alpha-subunit of protein farnesyltransferase. Evidence for a catalytic role.
J Biol Chem. 1993 Jan 15;268(2):1383-90.
- PubMed ID
- 8419339 [ View in PubMed]
- Abstract
Protein farnesyltransferase from rat brain is composed of tightly associated alpha- and beta-subunits of 377 and 437 amino acids that migrate on SDS-polyacrylamide gels with apparent molecular masses of 49 and 46 kDa, respectively. The enzyme attaches farnesyl groups to cysteines in p21ras and other proteins that contain cysteine residues at the fourth position from the COOH terminus. Production of stable enzyme in animal cells requires the simultaneous synthesis of both subunits, and all activity is lost when the subunits are dissociated chemically. The beta-subunit functions in the Zn(2+)-dependent binding of the protein substrate. The role of the alpha-subunit is unknown. In the current studies we used in vitro mutagenesis and transfection of cloned cDNAs to define the parts of the alpha-subunit that are necessary to stabilize the beta-subunit and to support farnesyl transfer. Deletion of 51 amino acids at the NH2 terminus of the alpha-subunit allowed normal stabilization of the beta-subunit and production of normal enzyme activity, but deletion of 106 amino acids abolished both of these properties. A proline-rich region at residues 12-34 of the alpha-subunit is not required for activity, but its presence explains the anomalously slow migration of the polypeptide on SDS-polyacrylamide gels. Deletion of only 5 amino acids at the COOH terminus of the alpha-subunit reduced activity appreciably. Substitution of asparagine for a conserved lysine at position 164 produced an alpha-subunit that stabilized the beta-subunit normally and permitted normal binding of the two substrates, farnesyl pyrophosphate and p21H-ras. Nevertheless, the rate of transfer of the bound farnesyl group to p21H-ras was markedly reduced. The latter finding suggests that the alpha-subunit plays a direct role in the catalytic reaction in addition to its role in the stabilization of the beta-subunit.