Identification of the gene locus controlling dominant nonresponsiveness to F-antigen

“…A gene controlling the antibody level to G(B1O.A) was mapped to the K end of the H-2 complex. The absence of cytotoxic antibodies in the sera of (BlO.AV+ X BlOV+)F,, H-2'Ib-typed (BlO.AV+ X B10V+)F2 animals and in sera of (BlO.AV+ (Silver and Lane, 1977;Wicker and Hildemann, 1981). Recently, Sandrin et al (1981) reported that the I-Ak gene (or genes) regulate the expression of Ia.8 and Ia.9 specificities, which are coded for by the the I-A gene.…”

“…The absence of cytotoxic antibodies in the sera of (BlO.AV+ X BlOV+)F,, H-2'Ib-typed (BlO.AV+ X B10V+)F2 animals and in sera of (BlO.AV+ At present, it is not known whether the G(B10,A) expression in BIO.A mice is H-2 determined nor at which time the G(B1O.A) antigen becomes expressed in BIO.A mice. Although most of the Ir-gene effects are dominant, recessive inheritance of responsiveness has been reported with other antigens (Silver and Lane, 1977;Wicker and Hildemann, 1981). Recently, Sandrin et al (1981) reported that the I-Ak gene (or genes) regulate the expression of Ia.8 and Ia.9 specificities, which are coded for by the the I-A gene.…”

H‐2 control of the cytotoxic antibody response against a newly defined MuLV‐related cell‐surface antigen: G_(B10.A)

“…A gene controlling the antibody level to G(B1O.A) was mapped to the K end of the H-2 complex. The absence of cytotoxic antibodies in the sera of (BlO.AV+ X BlOV+)F,, H-2'Ib-typed (BlO.AV+ X B10V+)F2 animals and in sera of (BlO.AV+ (Silver and Lane, 1977;Wicker and Hildemann, 1981). Recently, Sandrin et al (1981) reported that the I-Ak gene (or genes) regulate the expression of Ia.8 and Ia.9 specificities, which are coded for by the the I-A gene.…”

“…The absence of cytotoxic antibodies in the sera of (BlO.AV+ X BlOV+)F,, H-2'Ib-typed (BlO.AV+ X B10V+)F2 animals and in sera of (BlO.AV+ At present, it is not known whether the G(B10,A) expression in BIO.A mice is H-2 determined nor at which time the G(B1O.A) antigen becomes expressed in BIO.A mice. Although most of the Ir-gene effects are dominant, recessive inheritance of responsiveness has been reported with other antigens (Silver and Lane, 1977;Wicker and Hildemann, 1981). Recently, Sandrin et al (1981) reported that the I-Ak gene (or genes) regulate the expression of Ia.8 and Ia.9 specificities, which are coded for by the the I-A gene.…”

H‐2 control of the cytotoxic antibody response against a newly defined MuLV‐related cell‐surface antigen: G_(B10.A)

“…The counteracting role of non-H-2 loci in such a mechanism, which is implied by the efficacy of the anti-TATA immunity in both CAK and CBR mice, remains to be elucidated. However, several examples are available to elucidate the possible non-MHC genetic control of the expression of MHC-encoded cell recognition, of interaction molecules (Rich et al 1977), and of MHC-encoded suppressor functions (Albright et al 1977, Meruelo et al 1977, Silver and Lane 1977. It should be noted that the TATA involved in the present study is a unique antigenic structure, cross-reacting with the TATA of only one out of five other C sarcomas of the same etiology (Meschini et al 1977).…”

Genetic control of responsiveness to the tumor-associated transplantation antigen of a chemically induced murine fibrosarcoma

“…I t has recently been shown that in order to respond to the liver-specific alloantigen, Fantigen, mice must possess a k-allele at H-2K or I-A (Silver & Lane 1977). A number of strains bearing a variety of H-2 haplotypes were tested for their ability to respond to type-1 or type 2 F-antigen.…”

Identification of an Antigen Shared by Mouse Liver and Lung