Arginyl-tRNA synthetase (ArgRS) is one of the nine synthetase components of a multienzyme complex containing three auxiliary proteins as well. We previously established that the N-terminal moiety of the auxiliary protein p43 associates with the N-terminal, eukaryotic-specific polypeptide extension of ArgRS. Because p43 is homologous to Arc1p, a yeast general RNA-binding protein that associates with MetRS and GluRS and plays the role of tRNA-binding cofactor in the aminoacylation reaction, we analyzed the functional significance of p43-ArgRS association. We had previously showed that full-length ArgRS, corresponding to the ArgRS species associated within the multisynthetase complex, and ArgRS with a deletion of 73 N-terminal amino acid residues, corresponding to a free species of ArgRS, both produced in yeast, have similar catalytic parameters (Lazard, M., Kerjan, P., Agou, F., and Mirande, M. (2000) J. Mol. Biol. 302, 991-1004). However, a recent study had suggested that association of p43 to ArgRS reduces the apparent K(M) of ArgRS to tRNA (Park, S. G., Jung, K. H., Lee, J. S., Jo, Y. J., Motegi, H., Kim, S., and Shiba, K. (1999) J. Biol. Chem. 274, 16673-16676). In this study, we analyzed in detail, by gel retardation assays and enzyme kinetics, the putative role of p43 as a tRNA-binding cofactor of ArgRS. The association of p43 with ArgRS neither strengthened tRNA-binding nor changed kinetic parameters in the amino acid activation or in the tRNA aminoacylation reaction. Furthermore, selective removal of the C-terminal RNA-binding domain of p43 from the multisynthetase complex did not affect kinetic parameters for ArgRS. Therefore, p43 has a dual function. It promotes association of ArgRS to the complex via its N-terminal domain, but its C-terminal RNA-binding domain may act as a tRNA-interacting factor for an as yet unidentified component of the complex.