Complementary DNA of the middle-component RNA of the melon strain of squash mosaic comovirus (SqMV) was cloned. Clones containing the coat protein genes were identified by hybridization with a degenerate oligonucleotide synthesized according to the amino acid sequence of a purified peptide fragment of the SqMV large coat protein. A clone containing of 2.5 kbp cDNA insert of SqMV M-RNA was sequenced. The total insert sequence of 2510 bp included a 2373 bp open reading frame (ORF) (encoding 791 amino acids), a 123 bp 3'-untranslated region, and a poly(A) region. This ORF is capable of encoding both the 42 and 22 k SqMV coat proteins. Direct N-terminal sequence analysis of the 22 k coat protein revealed its presence at the 3' end of this ORF and the position of the proteolytic cleavage site (Q/S) used to separate the large and small coat proteins from each other. A putative location of the N-terminal proteolytic cleavage site of the 42 k coat protein (Q/N) was predicted by comparisons with the corresponding coat proteins of cowpea mosaic virus, red clover mottle virus, and bean-pod mottle virus. Although the available nucleotide sequences of these viruses revealed little similarity, their encoded coat proteins shared about 47% identity. The identity of the encoded 42 k and 22 k peptides was confirmed by engineering the respective gene regions for expression followed by transfer into tobacco protoplasts using the polyethylene glycol method. Both SqMV coat proteins were expressed in vivo as determined by their reactivity to SqMV coat protein specific antibodies.
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