In the present study, molecular cloning, sequencing and restriction mapping of the genomic sequence encoding human proacrosin is described. The full-length cDNA encoding human proacrosin was utilized to recover a 17-kb human genomic clone which was sequenced without further subcloning. The nucleotide sequences of the exons agree with the sequence of the cDNA reported previously. More than 500 bases of the promoter region were sequenced and found to be highly GC rich but devoid of an identifiable TATA box. These findings are generally consistent with a recently published report [Keime, S., Adham, I. M. & Engel, W. (1990) Eur. J. Biochem. 190, 195-200]. However, further sequence analysis revealed discrepancies between our clone and that previously reported. Sequencing of the first intron showed similarity with the published data for 54 bases of the 5' region, beginning with the donor splice site, and for 114 bases at the 3' end. However, 500 bases sequenced distal to the initial 54 bases at the 5' end of intron 1 showed no similarity with the published sequence. In addition, the boundaries of intron 3 differed such that a cytosine residue previously reported to be in exon 3 was found to be the first base of exon 4. Detailed studies were undertaken to confirm that our clone constitutes the authentic sequence of human proacrosin. Cloning and characterization of the human proacrosin gene may allow for informative studies of its regulation, and for a more detailed examination of its role in fertilization.