Synaptonemal Complex Length Variation in Wild-Type Male Mice
AbstractMeiosis yields haploid gametes following two successive divisions of a germ cell in the absence of intervening DNA replication. Balanced segregation of homologous chromosomes in Meiosis I is aided by a proteinaceous structure, the synaptonemal complex (SC). The objective of this study was to determine total average autosomal SC lengths in spermatocytes in three commonly used mouse strains (129S4/SvJae, C57BL/6J, and BALB/c). Our experiments revealed that the total autosomal SC length in BALB/c spermatocytes is 9% shorter than in the two other strains. Shorter SCs are also observed in spermatocytes of (BALB/c × 129S4/SvJae) and (C57BL/6J × BALB/c) F1 hybrids suggesting a genetic basis of SC length regulation. Along these lines, we studied expression of a selected group of genes implicated in meiotic chromosome architecture. We found that BALB/c testes express up to 6-fold less of Rec8 mRNA and 4-fold less of REC8 protein. These results suggest that the mechanism that defines the SC length operates via a REC8‑dependent process. Finally, our results demonstrate that genetic background can have an effect on meiotic studies in mice. View Full-Text
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Vranis, N.M.; Van der Heijden, G.W.; Malki, S.; Bortvin, A. Synaptonemal Complex Length Variation in Wild-Type Male Mice. Genes 2010, 1, 505-520.
Vranis NM, Van der Heijden GW, Malki S, Bortvin A. Synaptonemal Complex Length Variation in Wild-Type Male Mice. Genes. 2010; 1(3):505-520.Chicago/Turabian Style
Vranis, Neil M.; Van der Heijden, Godfried W.; Malki, Safia; Bortvin, Alex. 2010. "Synaptonemal Complex Length Variation in Wild-Type Male Mice." Genes 1, no. 3: 505-520.