Among MHC class II antigens, the DRw6/Dw6 complex represents a special situation where typing on a routine basis is often troublesome, mainly because monospecific alloantisera are rare and individual subtypes numerous. We demonstrate here that the use of oligonucleotide DNA typing permits an analysis of the polymorphism within DRw6 haplotypes and provides a molecular basis for correlations with functional data. Synthetic oligonucleotide probes, most of them locus- and allele-specific, were derived from the DNA sequences of three alleles of locus DRB1 and three alleles of locus DRB3. These probes allow the positive identification of distinct DRw6 subtypes. As analyzed on a panel of 26 well-defined DRw6 cell lines, oligotyping allows a direct and absolute correlation with the DRw13 serologic specificity and with the cellularly defined Dw9,Dw16,Dw18, and Dw19 specificities. Correlations of the polymorphism at the DRB1 locus with the polymorphism at the DRB3 locus (DRw52 alleles) allow us to identify preferential allelic associations such as DRw13-Dw18-DRw52a/52b, DRw13-Dw19-DRw52c, and DRw13/Dw19 haplotype, the Dw19 cellular reactivity might involve, at least DRw14-Dw9-DRw52b. In view of the absolute segregation of the DRw52c allele with the DRw13/Dw19 haplotype, the Dw19 cellular reactivity might involve, at least in part, epitopes on the DRw52c allele. The identification of DRw6 subtypes, as well as of other HLA class II subspecificities, by oligotyping can now complement and possibly replace serologic and cellular typing. It represents a particularly useful contribution to the optimization of class II matching in the case of bone marrow transplantation with unrelated donors.