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@article{1837997,
author = {Chumova, Z. and Malík Mandáková, Terezie and Travnicek, P.},
article_location = {BASEL},
article_number = {7},
doi = {http://dx.doi.org/10.3390/genes12070966},
keywords = {FISH; flow cytometry; GBSSI; genome size; GISH; Poaceae; polyploidy},
language = {eng},
issn = {2073-4425},
journal = {Genes},
title = {On the Origin of Tetraploid Vernal Grasses (Anthoxanthum) in Europe},
url = {https://www.mdpi.com/2073-4425/12/7/966},
volume = {12},
year = {2021}
}
TY - JOUR
ID - 1837997
AU - Chumova, Z. - Malík Mandáková, Terezie - Travnicek, P.
PY - 2021
TI - On the Origin of Tetraploid Vernal Grasses (Anthoxanthum) in Europe
JF - Genes
VL - 12
IS - 7
SP - 966
EP - 966
PB - MDPI
SN - 20734425
KW - FISH
KW - flow cytometry
KW - GBSSI
KW - genome size
KW - GISH
KW - Poaceae
KW - polyploidy
UR - https://www.mdpi.com/2073-4425/12/7/966
N2 - Polyploidy has played a crucial role in the evolution of many plant taxa, namely in higher latitudinal zones. Surprisingly, after several decades of an intensive research on polyploids, there are still common polyploid species whose evolutionary history is virtually unknown. Here, we addressed the origin of sweet vernal grass (Anthoxanthum odoratum) using flow cytometry, DNA sequencing, and in situ hybridization-based cytogenetic techniques. An allotetraploid and polytopic origin of the species has been verified. The chromosome study reveals an extensive variation between the European populations. In contrast, an autopolyploid origin of the rarer tetraploid vernal grass species, A. alpinum, has been corroborated. Diploid A. alpinum played an essential role in the polyploidization of both European tetraploids studied.
ER -
CHUMOVA, Z., Terezie MALÍK MANDÁKOVÁ and P. TRAVNICEK. On the Origin of Tetraploid Vernal Grasses (Anthoxanthum) in Europe. \textit{Genes}. BASEL: MDPI, 2021, vol.~12, No~7, p.~966-982. ISSN~2073-4425. Available from: https://dx.doi.org/10.3390/genes12070966.
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