The gene for a murine macrophage inflammatory cytokine, MIP-1 alpha, belongs to a newly recognized superfamily encoding small, inducible peptides shown to be up-regulated in association with cellular activation or transformation (tentatively designated the scy, or small cytokine, gene family). Secreted scy family peptides as a group, and MIP-1 alpha in particular, have inflammatory and mitogenic activities, and the family has been divided into CXC and CC subfamilies according to the spacing of conserved cysteine residues in the primary amino acid sequences. We have isolated and characterized a genomic clone encoding the CC subfamily member MIP-1 alpha. The organization of the murine MIP-1 alpha gene into three exons interrupted by two introns is identical to that found for other members of the CC subfamily (e.g., huLD78, muJE, huJE/MCP-1, muTCA3, and hul-309), which has been taken as evidence of evolution from a common ancestral gene. With the exception of the ratPF4 gene, which shares the two-intron/three-exon pattern typical of the CC subfamily, sequenced genes encoding CXC subfamily peptides (e.g., hulL-8 and hulP-10) include an additional intervening sequence that creates a fourth exon. Genomic nucleotide sequences 5' of the MIP-1 alpha cap site are highly homologous to corresponding regions of the human gene encoding a CC peptide variously designated as LD78/GOS19/pAT464, including consensus regulatory motifs in common, reinforcing the contention that MIP-1 alpha and LD78 may be interspecies homologs.