BALB/c-H-2
db
: A newH-2 mutant in BALB/cKh that identifies a locus associated with theD region |
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| Authors: | Ian F C McKenzie Gillian M Morgan Roger W Melvold Henry I Kohn |
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| Affiliation: | (1) The Department of Medicine, Austin Hospital, Heidelberg, Victoria, Australia;(2) The Department of Radiation Therapy, Harvard Medical School, 50 Binney Street, Boston, Massachusetts;(3) Shields Warren Radiation Laboratory, New England Deaconess Hospital, 50 Binney Street, Boston, Massachusetts |
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| Abstract: | A newH-2 mutant, BALB/c-H-2
db
, is described. This mutant originated in BALB/c, is inbred, and is coisogenic with the parental BALB/cKh strain. The mutation is of the loss type since BALB/c-H-
db
rejects BALB/c, but not vice versa. Complementation studies have localized the mutation to theD region of theH-2 complex. A cross between BALB/c-H-2
db
and B10.D2-H-2
da
failed to complement for either BALB/c or B10.D2 skin grafts, indicating that these are two separate mutations at the same locus (Z2). Direct serological analysis and absorption studies revealed that, with one exception, theH-2 andIa specificities of BALB/c and BALB/c-H-2
db
are identical. In particular,H-2.4, the H-2Dd private specificity, is quantitatively and qualitatively identical in the two strains. The exception is that of the specificities detected by antiserum D28b: (k×r)F1 anti-h, which contains anti-H-2.27, 28, and 29. These specificities appear to be absent from theH-2
db
mutant since they are not detected directly or by absorption. Other public specificities are present in normal amounts,e.g., the reaction with antisera to H-2.3, 8, 13, 35, and 36. The reaction with antiserum D28 (f×k)F1 anti-s, which contains antibodies to H-2.28, 36, and 42, is the same in both strains. Antiserum made between the two strains (H-2
db
anti-H-2
d
) reacts like an anti-H-2 serum, in that it reacts with both T and B cells by cytotoxicity, but is not a hemagglutinating antibody. The serum reacts as does the D28b serum in both strain distribution and in cross-absorption studies. We conclude that theH-2
db
mutation occurred at a locus in theD region, resulting in the loss of the H-2.28 public serological specificity and of a histocompatibility antigen. Whether these are one and the same antigen is not yet known. The data, in view of other evidence, imply that the public and private specificities are coded for by separate genes.Abbreviations used in this paper are as follows CML
cell-mediated lysis
- MLR
mixed lymphocyte reaction
- GVHR
graft-versus-host reaction
- RFC
rosette-forming cells
- RAM-Ig
rabbit anti-mouse IgG |
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