P Iványi scite author profile

The genetic control of the sterility of male hybrids between certain laboratory and wild mice (Mus musculus L.) is investigated. The observed sterility is, by definition, hybrid sterility since both parental forms (i.e. wild and laboratory mice) are fully fertile, their male offspring displaying small testes with arrest of spermatogenesis at the stage of spermatogenesis or primary spermatocytes. Results of genetic analysis as well as the failure to detect any chromosomal rearrangements point to a genie rather than a chromosomal type of hybrid sterility.Fifty-three wild males were classified into three sets, after mating with C57BL/10 inbred females, according to the fertility of their male progeny (set I -only sterile sons; set II -only fertile sons; set III -both fertile and sterile sons). The wild males of set I, which yield only sterile male offspring with C57BL/10 females, sire sterile sons also with females of the following inbred strains: A/Ph, BALB/c, DBA/1, and AKR/J, whereas the same wild males produce fertile offspring with females of C3H/Di, CBA/J, P/J, I/St and F/St inbred strains.The described hybrid sterility seems to be under the control of several independently segregating genes, one of them (proposed symbol Hst-1) being localized on chromosome 17 (linkage group IX), 6 cM distally from dominant T (Brachyury). A chance to search for the mechanism of hybrid sterility is provided by the finding of two laboratory inbred strains, C57BL/10 and C3H/Di, differing with respect to the Hybrid sterility genetic system only at the Hst-1 gene.Hst-1 is closely linked but apparently not identical with the sterility factor of recessive t alleles of the T locus. 13-2

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Nucleotide sequences of chimpanzee MHC class I alleles: evidence for trans-species mode of evolution.

Mayer

Jonker²,

Klein³

et al. 1988

The EMBO Journal

229

114

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To obtain an insight into the evolutionary origin of the major histocompatibility complex (MHC) class I polymorphism, a cDNA library was prepared from a heterozygous chimpanzee cell line expressing MHC class I molecules crossreacting with allele‐specific HLA‐A11 antibodies. The library was screened with human class I locus‐specific DNA probes, and clones encoding both alleles at the A and B loci have been identified and sequenced. In addition, the sequences of two HLA‐A11 subtypes differing by a single nucleotide substitution have been obtained. The comparison of chimpanzee and human sequences revealed a close similarity (up to 98.5%). The chimpanzee A locus alleles showed greatest similarity to the human HLA‐A11/A3 family of alleles, one of them being very close to HLA‐A11. Similarly, segments of the ChLA‐B alleles displayed greatest similarity to certain HLA‐B alleles. The calculated evolutionary branch point for the A11‐like alleles is 7 x 10(6) to 9 x 10(6) years, whereas the other A locus alleles diverged between 12 x 10(6) and 17 x 10(6) years ago. Since the human and chimpanzee lineages separated 5 x 10(6) to 7 x 10(6) years ago, our data support the notion that during evolution, MHC alleles are transmitted from one species to the next.

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An improved biochemical method for the analysis of HLA-class I antigens. Definition of new HLA-class I subtypes

et al. 1986

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P Iványi

Genetic studies on male sterility of hybrids between laboratory and wild mice (Mus musculusL.)

Nucleotide sequences of chimpanzee MHC class I alleles: evidence for trans-species mode of evolution.

An improved biochemical method for the analysis of HLA-class I antigens. Definition of new HLA-class I subtypes

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