Direct evidence for crossover and chromatid interference in meiosis of two plant hybrids (Lolium multiflorum×Festuca pratensis and Allium cepa×A. roylei)

Ferreira, Marco Tulio Mendes; Glombik, Marek; Perničková, Kateřina; Duchoslav, Martin; Scholten, Olga; Karafiátová, Miroslava; Techio, Vania Helena; Doležel, Jaroslav; Lukaszewski, Adam J.; Kopecký, David

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Campo DC	Valor	Idioma
dc.creator	Ferreira, Marco Tulio Mendes	-
dc.creator	Glombik, Marek	-
dc.creator	Perničková, Kateřina	-
dc.creator	Duchoslav, Martin	-
dc.creator	Scholten, Olga	-
dc.creator	Karafiátová, Miroslava	-
dc.creator	Techio, Vania Helena	-
dc.creator	Doležel, Jaroslav	-
dc.creator	Lukaszewski, Adam J.	-
dc.creator	Kopecký, David	-
dc.date.accessioned	2021-05-31T13:55:20Z	-
dc.date.available	2021-05-31T13:55:20Z	-
dc.date.issued	2021-02-02	-
dc.identifier.citation	FERREIRA, M. T. M. et al. Direct evidence for crossover and chromatid interference in meiosis of two plant hybrids (Lolium multiflorum×Festuca pratensis and Allium cepa×A. roylei). Journal of Experimental Botany, Oxford, v. 72, n. 2, p. 254-267, 2 Feb. 2021.	pt_BR
dc.identifier.uri	http://repositorio.ufla.br/jspui/handle/1/46433	-
dc.description.abstract	Crossing over, in addition to its strictly genetic role, also performs a critical mechanical function, by bonding homologues in meiosis. Hence, it is responsible for an orderly reduction of the chromosome number. As such, it is strictly controlled in frequency and distribution. The well-known crossover control is positive crossover interference which reduces the probability of a crossover in the vicinity of an already formed crossover. A poorly studied aspect of the control is chromatid interference. Such analyses are possible in very few organisms as they require observation of all four products of a single meiosis. Here, we provide direct evidence of chromatid interference. Using in situ probing in two interspecific plant hybrids (Lolium multiflorum×Festuca pratensis and Allium cepa×A. roylei) during anaphase I, we demonstrate that the involvement of four chromatids in double crossovers is significantly more frequent than expected (64% versus 25%). We also provide a physical measure of the crossover interference distance, covering ~30–40% of the relative chromosome arm length, and show that the centromere acts as a barrier for crossover interference. The two arms of a chromosome appear to act as independent units in the process of crossing over. Chromatid interference has to be seriously addressed in genetic mapping approaches and further studies.	pt_BR
dc.language	en_US	pt_BR
dc.publisher	Oxford University Press	pt_BR
dc.rights	Attribution 4.0 International	*
dc.rights	acesso aberto	pt_BR
dc.rights.uri	http://creativecommons.org/licenses/by/4.0/	*
dc.source	Journal of Experimental Botany	pt_BR
dc.subject	Centromere	pt_BR
dc.subject	Chromatid interference	pt_BR
dc.subject	Crossover interference	pt_BR
dc.subject	Homoeologous chromosome	pt_BR
dc.subject	Meiosis	pt_BR
dc.subject	Recombination	pt_BR
dc.subject	Centrômero	pt_BR
dc.subject	Interferência cromátide	pt_BR
dc.subject	Interferência cruzada	pt_BR
dc.subject	Cromossomo homeólogo	pt_BR
dc.subject	Meiose	pt_BR
dc.subject	Recombinação	pt_BR
dc.title	Direct evidence for crossover and chromatid interference in meiosis of two plant hybrids (Lolium multiflorum×Festuca pratensis and Allium cepa×A. roylei)	pt_BR
dc.type	Artigo	pt_BR
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