Your search keyword '"Catalan, Josette"' showing total 4 results

1. Extensive Amplification of Telomeric Repeats in the Karyotypically Highly Diverse African Pygmy Mice

Author

Colomina, Victor, primary, Catalan, Josette, additional, Britton-Davidian, Janice, additional, and Veyrunes, Frédéric, additional

Published

2017

2. Is increased chromosomal diversity in house mice from Lombardy (Italy) congruent with genic divergence?

Author

Montgelard, Claudine, primary, Catalan, Josette, additional, and Britton-Davidian, Janice, additional

Published

2015

3. Is increased chromosomal diversity in house mice from Lombardy (Italy) congruent with genic divergence?

Author

Montgelard, Claudine, Catalan, Josette, and Britton-Davidian, Janice

Subjects

*MICE genetics, *BIOLOGICAL divergence, *GENE flow, *RODENT populations

Abstract

Recent studies in metacentric ( MC) populations of the house mouse, Mus musculus domesticus, singled out underdominance more so than recombination suppression as the foremost barrier to gene flow. Here, MC populations from Lombardy (Italy) were sampled to identify the nature and strength of the barriers to gene flow. The chromosomal analysis recovered the three major MC populations (abbreviated to IBIN, IGAL, both with 2 n = 24 and ICRE, 2 n = 22), but revealed the existence of a new one ( IONE, 2 n = 24) which likely derived from IGAL through a single WART (Whole-Arm Reciprocal Translocation). This, once again, highlights the paramount role of WARTs in the chromosomal diversification of this subspecies. Contacts between MC and standard populations coincided with rivers confirming these hybrid zones as tension zones. Divergence between populations was estimated using available allozyme data. Although the overall low genetic structure globally agreed with the chromosome structure, a large variation in divergence levels was retrieved that only partially matched the underdominance degree. This disparity from expectations highlighted the additional contribution of physical barriers and geographic isolation to the differential rate of evolution of the MC populations of the house mouse. [ABSTRACT FROM AUTHOR]

Published

2016

4. Non-Random Occurrence of Robertsonian Translocations in the House Mouse (Mus musculus domesticus): Is It Related to Quantitative Variation in the Minor Satellite?

Author

Cazaux, Benoîte, Catalan, Josette, Claude, Julien, and Britton-Davidian, Janice

Subjects

*CHROMOSOMAL translocation, *LABORATORY mice, *CHROMOSOMES, *CENTROMERE, *GENE conversion

Abstract

The house mouse, Mus musculus domesticus, shows extraordinary chromosomal diversity driven by fixation of Robertsonian (Rb) translocations. The high frequency of this rearrangement, which involves the centromeric regions, has been ascribed to the architecture of the satellite sequence (high quantity and homogeneity). This promotes centromere-related translocations through unequal recombination and gene conversion. A characteristic feature of Rb variation in this subspecies is the non-random contribution of different chromosomes to the translocation frequency, which, in turn, depends on the chromosome size. Here, the association between satellite quantity and Rb frequency was tested by PRINS of the minor satellite which is the sequence involved in the translocation breakpoints. Five chromosomes with different translocation frequencies were selected and analyzed among wild house mice from 8 European localities. Using a relative quantitative measurement per chromosome, the analysis detected a large variability in signal size most of which was observed between individuals and/or localities. The chromosomes differed significantly in the quantity of the minor satellite, but these differences were not correlated with their translocation frequency. However, the data uncovered a marginally significant correlation between the quantity of the minor satellite and chromosome size. The implications of these results on the evolution of the chromosomal architecture in the house mouse are discussed. © 2014 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2014