The ability of lethally irradiated C57BL/6 mice to acutely reject H-2^d bone marrow is due to a lymphocyte population that is NK1⁺, ASGM1⁺, CD4⁻, CD8⁻, CD3⁺. Transfer of spleen cells from C57BL/6 mice expressing these antigens into nonresponder 129 mice adoptively transfers the ability to reject H-2^d marrow grafts. The specificity of this rejection maps to the H-2D major histocompatibility complex (MHC) region. Transplantation of high doses of H-2^d marrow into C57BL/6 overrides the acute rejection mechanism leading to graft survival. During growth of the graft, a cytolytic activity develops that is due to ASGM1⁺, CD8⁺ cytolytic T lymphocytes (CTLs) with H-2L^d specificity. The possibility that the ASGM1⁺, CD8⁺ CTLs are descendents of the CD3⁺, NK1⁺, ASGM1⁺, CD8⁻ cells responsible for acute rejection is investigated by adoptive cell transfer experiments. We show that beige mice that lack NK1⁺ cells as well as the ability to acutely reject H-2^d marrow fail to generate specific CTLs after transplantation with a high dose of H-2^d marrow. Transfer of highly purified NK1⁺ cells from B6.PL-Ly-2 ^a /Ly-3 ^a (Lyt-2.1) into beige mice together with H-2^d marrow leads to generation of Lyt-2.1 CTLs from donor NK1⁺ cells. These results show that specific CTLs are generated from NK1⁺ cells during acute marrow graft rejection.