The gene coding for the human ventricular/slow twitch myosin alkali light chain isoform was isolated and sequenced. It was found to contain a total of seven exons, the last of which is completely 3'-untranslated sequence. Comparison of this gene sequence with that of the various fast twitch skeletal isoform gene sequences revealed that the exon-intron arrangement is conserved within the myosin alkali light chain gene family. In fact the introns are in exactly the same positions within analogous codons. Comparison of the derived amino acid sequence from the human ventricular/slow twitch isoform gene with that of other isoform protein sequences indicated that the protein encoded by this gene is more homologous to the chicken cardiac isoform protein sequence than to any of the other protein sequences. These results indicate that the gene duplication which gave rise to the ventricular/slow twitch and fast twitch isoform genes must have occurred prior to the divergence of mammals and avians. We have also localized the human ventricular/slow twitch isoform gene to the short arm of human chromosome 3. Interestingly the corresponding mouse gene has been mapped to the distal region of mouse chromosome 9 which contains a conserved syntenic group of genes that map to the short arm of human chromosome 3.