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Deletion of mouse t-complex distorter-1 produces an effect like that of the t-form of the distorter

Published online by Cambridge University Press:  14 April 2009

Mary F. Lyon
Affiliation:
MRC Radiobiology Unit, Chilton, Didcot, Oxon OX11 ORD, UK
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An allele of the mouse brachyury locus, T22H, had been shown previously to involve a deletion of several markers in the proximal part of chromosome 17, and almost certainly includes deletion of the t-complex distorter gene Tcd-1. The effects of T22H on transmission ratio distortion and male sterility caused by the t-complex were compared with those of a partial t-haplotype th51, which carries the t-form of the distorter Tcd-1t. In combination with the complete haplotypetf32, T22H caused severe impairment of male fertility, but males of genotype T22H/t6 or T22H/thSl were normally fertile. These results were very similar to those obtained when th51 was in combination with the same haplotypes. In effect on transmission ratio T22H was again similar to thSI, in that it produced a marked increase in the transmission of the haplotype t6. To test whether the effects of T22H were due to deletion of elements other than Tcd-1, the effect of T22H on transmission of the partial haplotype th2 was compared with that of the deletion Thv. Again T22H markedly increased transmission of the t-haplotype and the effect was significantly greater than the small effect produced by Thp.

It is concluded that deletion of the distorter Tcd-1 has an effect like that of the t-form of this distorter, Tcd-1t, and hence that Ted-11 must be an amorph or hypomorph. It is speculated that other t-complex distorters, Tcd-2t and Tcd-3t may also be amorphs or hypomorphs. Thus, the phenomena of transmission ratio distortion and male sterility due to the t-complex appear to be brought about by differential susceptibility of wild-type and t-responder alleles, Tcr+ and Tcrt, to a shortage of distorter gene product.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1992

References

Artzt, K.Shin, H.-S. & Bennett, D. (1982). Gene mapping within the T/t complex of the mouse II: Anomalous position of the H-2 complex in t haplotypes. Cell 28, 471476.CrossRefGoogle Scholar
Bennett, D. & Artzt, K. (1990). Deletion analysis of male sterility effects of t-haplotypes in the mouse. Genetical Research 56, 179183.CrossRefGoogle ScholarPubMed
Bullard, D. C. & Schimenti, J. C. (1990). Molecular cloning and genetic mapping of the t-complex responder candidate gene family. Genetics 124, 957966.CrossRefGoogle ScholarPubMed
Cebra-Thomas, J. A.Decker, C. L.Snyder, L. CPilder, S. H. & Silver, L. M. (1991). Allele-and haploid-specific product generated by alternative splicing from a mouse t-complex responder locus candidate. Nature 349, 239241.CrossRefGoogle ScholarPubMed
Fox, H. S.Martin, G. R.Lyon, M. F.Herrmann, B.Frischauf, A.-M.Lehrach, H. & Silver, L. M. (1985). Molecular probes define different regions of the mouse t-complex. Cell 40, 6369.CrossRefGoogle ScholarPubMed
Ganetsky, B. (1977). On the components of segregation distortion in Drosophila melanogaster. Genetics 86, 321355.CrossRefGoogle Scholar
Hammer, M. F. (1991). Molecular and chromosomal studies on the origin of t haplotypes in mice. American Naturalist 137, 359365.CrossRefGoogle Scholar
Hammer, M. F.Schimenti, J. & Silver, L. M. (1989). Evolution of mouse chromosome 17 and the origin of inversions associated with t haplotypes. Proceedings of the National Academy of Sciences, USA 86, 32613265.CrossRefGoogle ScholarPubMed
Herrmann, B.Bucan, M.Mains, P.Frischauf, A.-M.Silver, L. M. & Lehrach, H. (1986). Genetic analysis of the proximal portion of the mouse t complex: evidence for a second inversion within t haplotypes. Cell 44, 469476.CrossRefGoogle Scholar
Howard, C. A.Gummere, G. R.Lyon, M. F.Bennett, D. & Artzt, K. (1990). Genetic and molecular analysis of the proximal region of the mouse t-complex using new molecular probes and partial t-haplotypes. Genetics 126, 11031114.CrossRefGoogle ScholarPubMed
Lader, E.Ha, H.-S.O'Neill, M.Artzt, K. & Bennett, D. (1989). tctex-1: a candidate gene family for a mouse t complex sterility locus. Cell 58: 969979.CrossRefGoogle ScholarPubMed
Lyon, M. F. (1984). Transmission ratio distortion in mouse t-haplotypes is due to multiple distorter genes acting on a responder locus. Cell 37, 621628.CrossRefGoogle ScholarPubMed
Lyon, M. F. (1986). Male sterility of the mouse t-complex is due to homozygosity of the distorter genes. Cell 44, 357363.CrossRefGoogle ScholarPubMed
Lyon, M. F. (1991). The genetic basis of transmission-ratio distortion and male sterility due to the / complex. American Naturalist 137, 349358.CrossRefGoogle Scholar
Mazarakis, N. D.Nelki, D.Lyon, M. F.Ruddy, S.Evans, E. P.Freemont, P. & Dudley, K. (1991). Isolation and characterisation of a testis-expressed Cellularityly regulated gene from the distal inversion of the mouse t-complex. Development 111, 561571.CrossRefGoogle ScholarPubMed
Rappold, G. A.Stubbs, L.Labeit, S.Crkvenjakov, R. B. & Lehrach, H. (1987). Identification of a testis-specific gene from the mouse t-complex next to a CpG-rich island. EM BO Journal 6, 19751980.Google ScholarPubMed
Rosen, L. L.Bullard, D. CSilver, L. M. & Schimenti, J. C. (1990). Molecular cloning of the t-complex responder genetic locus. Genetics 8, 134140.Google ScholarPubMed
Sandier, L. & Golic, K. (1985). Segregation distortion in Drosophila. Trends in Genetics 1, 181185.CrossRefGoogle Scholar
Schimenti, J.Void, L.Socolow, D. & Silver, L. M. (1987). An unstable family of large DNA elements in the center of the mouse t-complex. Journal of Molecular Biology 194, 583594.CrossRefGoogle Scholar
Schimenti, J.Cebra-Thomas, J. A.Decker, C. L.Islam, S. D.Pilder, S. H. & Silver, L. M. (1988). A candidate gene family for the mouse t-complex responder (Tcr) locus responsible for haploid effects on sperm function. Cell 55, 7178.CrossRefGoogle ScholarPubMed
Silver, L. M. (1985). Mouse t haplotypes. Annual Review of Genetics 19, 179208.CrossRefGoogle ScholarPubMed
Temin, R. G.Ganetsky, B.Powers, P. A.Lyttle, T. W.Pimpinelli, S.Dimitri, P.Wu, C.-I. & Hiraizumi, Y. (1991). Segregation distortion in Drosophila melanogaster: genetic and molecular analyses. American Naturalist 137, 287331.CrossRefGoogle Scholar
Winking, H. & Silver, L. M. (1984). Characterisation of a recombinant mouse t haplotype that expresses a dominant lethal maternal effect. Genetics 108, 10131020.CrossRefGoogle ScholarPubMed