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Plant Cell ; 36(9): 3838-3856, 2024 Sep 03.
Artigo em Inglês | MEDLINE | ID: mdl-39047149

RESUMO

Crossovers create genetic diversity and are required for equal chromosome segregation during meiosis. Crossover number and distribution are highly regulated by different mechanisms that are not yet fully understood, including crossover interference. The chromosome axis is crucial for crossover formation. Here, we explore the function of the axis protein ASYNAPSIS3. To this end, we use the allotetraploid species Brassica napus; due to its polyploid nature, this system allows a fine-grained dissection of the dosage of meiotic regulators. The simultaneous mutation of all 4 ASY3 alleles results in defective synapsis and drastic reduction of crossovers, which is largely rescued by the presence of only one functional ASY3 allele. Crucially, while the number of class I crossovers in mutants with 2 functional ASY3 alleles is comparable to that in wild type, this number is significantly increased in mutants with only one functional ASY3 allele, indicating that reducing ASY3 dosage increases crossover formation. Moreover, the class I crossovers on each bivalent in mutants with 1 functional ASY3 allele follow a random distribution, indicating compromised crossover interference. These results reveal the distinct dosage-dependent effects of ASY3 on crossover formation and provide insights into the role of the chromosome axis in patterning recombination.


Assuntos
Brassica napus , Troca Genética , Meiose , Proteínas de Plantas , Brassica napus/genética , Meiose/genética , Proteínas de Plantas/genética , Proteínas de Plantas/metabolismo , Alelos , Mutação/genética , Cromossomos de Plantas/genética , Pareamento Cromossômico/genética , Segregação de Cromossomos/genética
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