The two virus-specific reactions in the capping of alphavirus RNAs, catalyzed by the replicase protein nsP1, are promising targets for developing virus-specific inhibitors. In this report, we have studied the effect of over 50 cap analogs on the guanine-7-methyltransferase and guanylyltransferase activities of Semliki Forest virus nsP1. Recombinant nsP1 was expressed in Escherichia coli and partially purified by flotation in a discontinuous sucrose gradient. The methyltransferase activity had a pH optimum between pH 6.5 and 7.1, and the apparent Km values were 1.9 mM for GTP, 6.0 microM for S-adenosyl-L-methionine and 170 microM for Mg2+. NsP1 methyltransferase was able to methylate efficiently GTP (relative activity 100%), GDP (16%), GpppG (35%), GppppG (50%) and less efficiently GpppA (12%), m2GTP (9%), and m2,2GTP (25%), but not m7GppG. The most potent inhibitors for nsP1 methyltransferase were et2m7GMP (Ki value 42 microM), m2,7GMP, (64 microM), m2,7GpppG (82 microM), m2et7GMP (105 microM), m2(2-phet)7GMP (194 microM) and m2GMP (386 microM). Of these compounds, m2GMP, m2et7GMP and m2(2-phet)7GMP showed competitive inhibition, whereas the others showed mixed type inhibition. All compounds that inhibited the methyltransferase activity inhibited also the guanylyltransferase activity of nsP1.