Organization and evolution of two repetitive sequences, 18-24J and 12-13P, in the genome of Chenopodium (Amaranthaceae)

0495174 - BFÚ 2019 RIV CA eng J - Journal Article
Orzechowska, M. - Majka, M. - Weiss-Schneeweiss, H. - Kovařík, Aleš - Borowska-Zuchowska, N. - Kolano, B.
Organization and evolution of two repetitive sequences, 18-24J and 12-13P, in the genome of Chenopodium (Amaranthaceae).
Genome. Roč. 61, č. 9 (2018), s. 643-652. ISSN 0831-2796. E-ISSN 1480-3321
R&D Projects: GA ČR GBP501/12/G090
Institutional support: RVO:68081707
Keywords : ribosomal-rna genes * dna-sequences * chromosomal localization * satellite dna * plant genomes * sugar-beet * rdna loci * quinoa * wheat * heterochromatin
OECD category: Biochemistry and molecular biology
Impact factor: 2.152, year: 2018

The abundance and chromosomal organization of two repetitive sequences named 12-13P and 18-24J were analyzed in 24 diploid and nine polyploid species of Chenopodium s.l., with special attention to Chenopodium s.s. Both sequences were predominantly present in species of Chenopodium s.s., however, differences in the amplification levels were observed among the species. The 12-13P repeat was highly amplified in all of the analyzed Eurasian species, whereas the American diploids showed a marked variation in the amplification levels. The 12-13P repeat contains a tandemly arranged 40 bp minisatellite element forming a large proportion of the genome of Chenopodium (up to 3.5%). FISH revealed its localization to the pericentromeric regions of the chromosomes. The chromosomal distribution of 12-13P delivered additional chromosomal marker for B-genome diploids. The 18-24J repeat showed a dispersed organization in all of the chromosomes of the analyzed diploid species and the Eurasian tetraploids. In the American allotetraploids (C. quinoa, C. berlandieri) and Eurasian allohexaploids (e.g., C. album) very intense hybridization signals of 18-24J were observed only on 18 chromosomes that belong to the B subgenome of these polyploids. Combined cytogenetic and molecular analyses suggests that reorganization of these two repeats accompanied the diversification and speciation of diploid (especially A genome) and polyploid species of Chenopodium s.s.
Permanent Link: http://hdl.handle.net/11104/0288182