HP1γ function is required for male germ cell survival and spermatogenesis

<p>Abstract</p> <p>Background</p> <p>HP1 proteins are conserved components of eukaryotic constitutive heterochromatin. In mammals, there are three genes that encode HP1-like proteins, termed HP1α, HP1β and HP1γ, which have a high degree of homology This paper describes for the first time, to our knowledge, the physiological function of HP1γ using a gene-targeted mouse.</p> <p>Results</p> <p>While targeting the <it>Cbx3 </it>gene (encoding the HP1γ protein) with a conditional targeting vector, we generated a hypomorphic allele (<it>Cbx3</it>^{<it>hypo</it>}), which resulted in much reduced (barely detectable) levels of HP1γ protein. Homozygotes for the hypomorphic allele (<it>Cbx3</it>^{<it>hypo</it>/<it>hypo</it>}) are rare, with only 1% of <it>Cbx3</it>^{<it>hypo</it>/<it>hypo </it>}animals reaching adulthood. Adult males exhibit a severe hypogonadism that is associated with a loss of germ cells, with some seminiferous tubules retaining only the supporting Sertoli cells (Sertoli cell-only phenotype). The percentage of seminiferous tubules that are positive for L1 ORF1 protein (ORF1p) in <it>Cbx3</it>^{<it>hypo</it>/<it>hypo </it>}testes is greater than that for wild-type testes, indicating that L1 retrotransposon silencing is reversed, leading to ectopic expression of ORF1p in <it>Cbx3</it>^{<it>hypo</it>/<it>hypo </it>}germ cells.</p> <p>Conclusions</p> <p>The <it>Cbx3 </it>gene product (the HP1γ protein) has a non-redundant function during spermatogenesis that cannot be compensated for by the other two HP1 isotypes. The <it>Cbx3</it>^{<it>hypo</it>/<it>hypo </it>}spermatogenesis defect is similar to that found in <it>Miwi2 </it>and <it>Dnmt3L </it>mutants. The <it>Cbx3 </it>gene-targeted mice generated in this study provide an appropriate model for the study of HP1γ in transposon silencing and parental imprinting.</p

Der Karyotyp der beiden kleinen, iberischen Pitymys-Arten (Mammalia, Rodentia)

Volume: 21Start Page: 284End Page: 29

Die spanische Feldmaus (Microtus arvalis asturianus Miller, 1906)

Volume: 22Start Page: 220End Page: 23

Multicolor Spectral Analyses of Mitotic and Meiotic Mouse Chromosomes Involved in Multiple Robertsonian Translocations. I. The CD/Cremona Hybrid Strain

Multicolor spectral analysis (spectral karyotyping) was applied to mitotic and male diakinetic chromosomes of hybrid mice carrying a unique system of 18 autosomal Robertsonian translocation chromosomes with alternating arm homologies. Only the autosomes 19 and the XY sex chromosomes are excluded from these Robertsonian translocations. The translocations, previously identified by conventional banding analyses, could be verified by spectral karyotyping. Besides the Robertsonian translocations, no other interchromosomal rearrangements were detected. In diakineses of male meiosis, the 18 metacentric Robertsonian translocation chromosomes form a very large meiotic ‘superring'. The predictable, specific order of the chromosomes along this ‘superring' was completely confirmed by multicolor spectral analysis. In the majority of diakineses analyzed, the free autosomal bivalent 19 and the XY sex bivalent form a conspicuous complex which tightly associates with the 12;14 Robertsonian translocation chromosome in the ‘superring'

Karyotype relationship among four species of Spiny mice (Acomys, Rodentia)

Volume: 64Start Page: 220End Page: 22