1995
DOI: 10.1006/jtbi.1995.0195
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Simulation of chromosomal homology searching in meiotic pairing

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Cited by 16 publications
(17 citation statements)
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“…Our simulations gave an entirely different result concerning the role of NE attachment than that predicted by [10], in that we see pairing is FASTER when the chromosomes are internal, not attached. We speculate this is because the telomeres do not diffuse freely in 2D on the surface because they are constrained through their attachment to the rest of the chromosome, which then acts like an anchor due to viscous drag.…”
Section: Discussioncontrasting
confidence: 85%
“…Our simulations gave an entirely different result concerning the role of NE attachment than that predicted by [10], in that we see pairing is FASTER when the chromosomes are internal, not attached. We speculate this is because the telomeres do not diffuse freely in 2D on the surface because they are constrained through their attachment to the rest of the chromosome, which then acts like an anchor due to viscous drag.…”
Section: Discussioncontrasting
confidence: 85%
“…Meiosis induction in the diploid SK1 strain and the tetraploid SK1 strain derived therefrom revealed that prophase I progression, bouquet formation and meiotic divisions were delayed in tetraploid meiosis compared with diploid wild-type meiosis -which contrasts with the situation in diploid versus allopolyploid plants (Martinez-Perez et al, 2000;Moore, 2002) and indicates that accelerated prophase I progression in polyploid plants is not a universal feature that extends to other kingdoms. Besides other possibilities, the prophase I delay in the polyploid yeast is in agreement with the assumption that a genome with increased chromosome number will require a more elaborate and time-consuming homologue search during prophase I (Dorninger et al, 1995;Pfeifer et al, 2001). How, then, according to such a scenario, is prophase I progression accelerated in polyploid plants?…”
Section: Discussionsupporting
confidence: 78%
“…Meiotic chromosome pairing probably employs sophisticated mechanisms for an efficient chromosome-wide homology screen, which excludes ectopic homologies from subsequent recombination. In most organisms homologous contacts first occur during meiotic prophase and it is possible that different organisms employ different strategies to facilitate these contacts (see Loidl, 1990;Loidl, 1994;Dorninger et al, 1995). In many organisms, all of the chromosome ends assemble within a limited area at the nuclear periphery.…”
Section: Introductionmentioning
confidence: 99%