Cowpea severe mosaic virus (CPSMV) is a member of the comovirus group of messenger-sense RNA viruses with bipartite genomes, of which cowpea mosaic virus (CPMV) is the type member. Full-length copies of CPSMV RNA 1 were cloned in plasmids bearing a bacteriophage T7 promoter. Previously, similar clones of CPSMV RNA 2 had been obtained. A 5′-rUAUUAAAAUUUU sequence is common to RNA 1 and RNA 2. From two RNA 1 clones and four RNA 2 clones we excised non-CPSMV sequences so as to provide templates for in vitro transcripts that have only a single guanylate preceding CPSMV RNA sequences. Transcripts from the most active RNA 1 and RNA 2 clones, when mixed, showed about 5% of the infectivity of unfractionated CPSMV RNAs from virions. The longest, 1858 codon open reading frame of the 5957 nt CPSMV RNA 1 extends from an AUG at nt 257 to a UGA termination codon at nt 5831. The calculated molecular weight of the polyprotein is 208,000. Comparisons with the available amino acid residue (aa) sequence information from the complete CPMV RNA 1 sequence and the partial sequence of red clover mottle virus RNA 1 suggest that CPSMV RNA 1 specifies the expected set of five mature proteins: 32K proteinase cofactor, 58K presumed helicase, VPg 5′-linked protein of the genomic RNAs, 24K proteinase, and 87K presumed polymerase, separated by four cleavage sites. Of the determined and deduced cleavage sites of the three RNA 1 polyproteins, only that at the 24 K 87 K junction has a distinct as pair in the CPSMV polyprotein. Of the five proteins, VPg and 87K show the greatest similarity between CPSMV and CPMV, with identities of 68 and 55%, respectively. Published mutational analysis of the CPMV 24K proteinase and alignment of as sequences from three comoviruses suggest that cysteine-168, histidine-40 and glutamic acid-77 form the catalytic triad of the CPSMV 24K proteinase. Results are discussed in the context of the resistance that some cowpea ( Vigna unguiculata) lines exhibit against CPMV but not against CPSMV.