P16 was originally discovered by its ability to interact with CDK4 and to specifically inhibit the catalytic activity of the CDK4/D1 kinase. Increased attention has focused on the p16 gene because of its location on chromosome 9p21, a region involved in chromosomal rearrangements in a large number of tumor types. The p16 gene is also mutated in a large number of tumor cell lines and primary tumor cells. Furthermore, linkage analysis studies suggest that the p16 gene is involved in familial melanoma susceptibility. Due to the oncogenic potential of mutations in this tumor suppressor, it is important to identify and characterize those mutations which alter p16 activity. We have performed a systematic analysis of melanoma associated p16 mutants and of mutants generated in charge to Ala mutagenesis. Using microtiter plate assays to measure both p16-cdk4 binding and cdk4/D1 kinase activity, we show here that the melanoma associated mutants are defective, as are some of the Ala mutants. These results support the idea that p16 mutation, via its deregulation of the cdk4/D1 pathway, is of biological significance in the development of melanoma. Furthermore, we have defined a region within the p16 molecule in which changes are likely to result in a defective protein.