Insulin deficiency is a prominent feature of non-insulin-dependent (NIDDM) and insulin-dependent (IDDM) diabetes mellitus that could result from defects in the insulin gene. Cloning of this gene has permitted molecular-genetic studies including the definition of multiple-DNA-sequence polymorphisms detected with restriction endonucleases, or restriction-fragment-length polymorphisms (RFLPs), and the mapping of the insulin gene to the short arm of chromosome 11 adjacent to the insulinlike growth factor II (IGF-II) and tyrosine hydroxylase genes. The combined RFLPs for the insulin, IGF-II, and tyrosine hydroxylase genes make this a highly informative locus for genetic studies of the insulin gene in diabetes. Early studies of an RFLP consisting of variable-number tandem repeats (VNTR) of DNA near the insulin gene suggested an association of certain alleles with approximately 170 copies of the repeat unit with NIDDM. Although subsequent studies in NIDDM did not confirm this association, an association of different alleles defined by approximately 40 copies of the repeat unit in this VNTR region with IDDM has been demonstrated in multiple studies. This VNTR region and the multiple other RFLPs for this region have been used in linkage analysis to study the segregation of insulin genes in families. These studies have failed to demonstrate a major significant role for insulin-gene defects in NIDDM, maturity-onset diabetes of the young, or IDDM in American Blacks and Whites and under various models of inheritance. Several pedigrees with diabetes and defects of the insulin gene have been described, however, and a minor role for this gene in NIDDM cannot be eliminated from available studies. Similarly, the association studies of the insulin gene and IDDM suggest a minor modifying role undetectable in pedigree studies. The role of defects in or near the insulin gene in a small subset of NIDDM or in IDDM must await direct investigation of the insulin gene in diabetic individuals with the most recent methods for gene amplification and sequence analysis.