Human families in which recombinant meiotic event(s) are known to have occurred are powerful tools with which to analyze more precisely the structures of defined genomic regions, especially unstable areas. Such families allow the determination of the haplotypes of each member and, taking into account the recombinant event, it is possible to localize very precisely the point of crossover. Using families in which crossovers between the genes HLA-A and -B have occurred, we have constructed a meiotic map localizing the meiotic breakpoint events with respect to both anonymous markers and the principal genes of the region. Such mapping, which depends on the direct analysis of genomic DNA, is essential for fine structural analysis and is a powerful means of verification of the order and the localization of markers: physical mapping alone, using yeast artificial chromosomes, presents some uncertainties due to the numerous chimeras and inversions that can be produced. The establishment of this map will allow us to determine efficiently the precise location for new markers already localized to the map region. Three microsatellites (D6S265, D6S276, and D6S306), localized in the HLA region by linkage analysis, have been precisely located with respect to the points of recombination in the class I region. The sites of meiotic recombination in the MHC class I region seem to be not randomly distributed but in the majority of cases occurred between HLA-C and the microsatellite D6S265. This study also shows two cases of abnormal segregation of alleles. We discuss how these mutations correspond to a spontaneous mutation event at the somatic or germinal level.