SummaryFemale meiosis presents unique opportunities for competition between chromosomes for evolutionary dominance. A new study reveals that centromere strength dictates meiotic success, driving karyotype evolution and reproductive isolation in mice
The inherent asymmetry of female meiosis presents an opportunity for genetic material to gain an evo...
Most meiotic drivers, such as the t-haplotype in Mus and the segregation distorter (SD) in Drosophil...
Mendel's laws are key to our understanding of genetics and evolution. The Law of Segregation states ...
SummaryMammalian karyotypes (number and structure of chromosomes) can vary dramatically over short e...
Female meiotic drive is an unequal transmission of alleles that arises through the competition of pa...
This is the peer reviewed version of the following article: Fishman, L. and Kelly, J. K. (2015), Cen...
Female meiotic drive, in which chromosomal variants preferentially segregate to the egg pole during ...
Selfish centromere DNA sequences bias their transmission to the egg in female meiosis. Evolutionary ...
Centromeres are essential mediators of chromosomal segregation, but both centromeric DNA sequences a...
Speciation is often accompanied by changes in chromosomal number or form even though such changes si...
Karyotype, chromosome number and composition, is a basic characteristic of species and its changes a...
SummaryFemale meiosis presents unique opportunities for competition between chromosomes for evolutio...
International audienceCentromeres are specialized regions on chromosomes recruiting a set of protein...
A recent theory on the evolution of sexuality, has hypothesized heritable variation in the functiona...
Selfish centromere DNA sequences bias their transmission to the egg in female meiosis. Evolutionary ...
The inherent asymmetry of female meiosis presents an opportunity for genetic material to gain an evo...
Most meiotic drivers, such as the t-haplotype in Mus and the segregation distorter (SD) in Drosophil...
Mendel's laws are key to our understanding of genetics and evolution. The Law of Segregation states ...
SummaryMammalian karyotypes (number and structure of chromosomes) can vary dramatically over short e...
Female meiotic drive is an unequal transmission of alleles that arises through the competition of pa...
This is the peer reviewed version of the following article: Fishman, L. and Kelly, J. K. (2015), Cen...
Female meiotic drive, in which chromosomal variants preferentially segregate to the egg pole during ...
Selfish centromere DNA sequences bias their transmission to the egg in female meiosis. Evolutionary ...
Centromeres are essential mediators of chromosomal segregation, but both centromeric DNA sequences a...
Speciation is often accompanied by changes in chromosomal number or form even though such changes si...
Karyotype, chromosome number and composition, is a basic characteristic of species and its changes a...
SummaryFemale meiosis presents unique opportunities for competition between chromosomes for evolutio...
International audienceCentromeres are specialized regions on chromosomes recruiting a set of protein...
A recent theory on the evolution of sexuality, has hypothesized heritable variation in the functiona...
Selfish centromere DNA sequences bias their transmission to the egg in female meiosis. Evolutionary ...
The inherent asymmetry of female meiosis presents an opportunity for genetic material to gain an evo...
Most meiotic drivers, such as the t-haplotype in Mus and the segregation distorter (SD) in Drosophil...
Mendel's laws are key to our understanding of genetics and evolution. The Law of Segregation states ...
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