Among the genetic loci incorporated into the major histocompatibility complex in every species studied to date have been prominent genes encoding for strong histocompatibility determinants that elicit detectable alloantibody responses and which are the chief antigenic targets of cell-mediated cytotoxicity reactions. The K and D regions of the H-2 complex in the mouse and the A, B, and C regions of the HLA complex in man are representative examples. Syrian hamsters, as described in this report, do not make alloantibodies to antigens of this type and only very poorly do they carry out in vitro cell-mediated cytotoxicity to target cells putatively bearing these antigens. Since hamsters are quite capable of discriminating analogous antigenic differences in xenogeneic species, and xenogeneic sources cannot distinguish immunologically between the antigens encoded by the two hamster major histocompatibility alleles. Hm-1a and Hm-1b, we conclude that the hamster strains we work with are serologically indistinguishable by the methods used here. However, they obviously differ for determinants which elicit T cell-mediated responses, as evidenced by their ability to express acute skin graft rejection, mixed lymphocyte reactivity, graft-vs-host reactions, and cell-mediated cytotoxicity reactions. Such alloreactivity may reflect a mutation at an SD locus, affecting antigenic sites recognized only by T cells, or that the available hamster strains are SD identical, but differ at loci similar to the I region loci in mice. Alternatively, we cannot exclude the possibility that Syrian hamsters somehow fail to express properly the genes coding for SD determinants.