Standard

Hybridization in the Subtribe Alopecurinae Dumort. (Poaceae) According to Molecular Phylogenetic Analysis: Different Ploidy Level Tells Different Origin of the Groups. / Чекрыгин, Сергей Алексеевич; Гнутиков, Александр Александрович; Носов, Николай Николаевич; Пунина, Елизавета Ольгердовна; Лоскутов, И.; Шнеер, Виктория Семеновна; Родионов, Александр Викентьевич.

в: Plants, Том 13, № 7, 919, 22.03.2024.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Чекрыгин, СА, Гнутиков, АА, Носов, НН, Пунина, ЕО, Лоскутов, И, Шнеер, ВС & Родионов, АВ 2024, 'Hybridization in the Subtribe Alopecurinae Dumort. (Poaceae) According to Molecular Phylogenetic Analysis: Different Ploidy Level Tells Different Origin of the Groups', Plants, Том. 13, № 7, 919. https://doi.org/10.3390/plants13070919

APA

Чекрыгин, С. А., Гнутиков, А. А., Носов, Н. Н., Пунина, Е. О., Лоскутов, И., Шнеер, В. С., & Родионов, А. В. (2024). Hybridization in the Subtribe Alopecurinae Dumort. (Poaceae) According to Molecular Phylogenetic Analysis: Different Ploidy Level Tells Different Origin of the Groups. Plants, 13(7), [919]. https://doi.org/10.3390/plants13070919

Vancouver

Чекрыгин СА, Гнутиков АА, Носов НН, Пунина ЕО, Лоскутов И, Шнеер ВС и пр. Hybridization in the Subtribe Alopecurinae Dumort. (Poaceae) According to Molecular Phylogenetic Analysis: Different Ploidy Level Tells Different Origin of the Groups. Plants. 2024 Март 22;13(7). 919. https://doi.org/10.3390/plants13070919

Author

Чекрыгин, Сергей Алексеевич ; Гнутиков, Александр Александрович ; Носов, Николай Николаевич ; Пунина, Елизавета Ольгердовна ; Лоскутов, И. ; Шнеер, Виктория Семеновна ; Родионов, Александр Викентьевич. / Hybridization in the Subtribe Alopecurinae Dumort. (Poaceae) According to Molecular Phylogenetic Analysis: Different Ploidy Level Tells Different Origin of the Groups. в: Plants. 2024 ; Том 13, № 7.

BibTeX

@article{3bc8ed1067bc4fdcae94eefc2bd5173b,
title = "Hybridization in the Subtribe Alopecurinae Dumort. (Poaceae) According to Molecular Phylogenetic Analysis: Different Ploidy Level Tells Different Origin of the Groups",
abstract = "We performed next-generation sequencing of the 18S rDNA–ITS1–5.8S rDNA region along with traditional Sanger sequencing of rbcL, matK, ndhF, and ITS1–5.8S rDNA–ITS2 to clarify the hybridization pattern in the subtribe Alopecurinae and in the genus Alopecurus in particular. Our data support the hybrid origin of Alopecurus × brachystylus from hybridization between A. geniculatus (sect. Alopecurium) and A. pratensis (sect. Alopecurus). Moreover, in the rDNA of hybrid A. × brachystylus, only A. aequalis-like ribotypes from tetraploid A. geniculatus participated. Surprisingly, we found the traces of introgression of A. arundinaceus-like ribotypes not only in hybrid A. × marssonii (A. geniculatus × A. arundinaceus) but in A. aequalis s. str. as well. A high-polyploid group from the section Alopecurus, A. aggr. alpinus has undoubted hybrid origin: e. g., A. brachystachyus has rDNA from the sect. Alopecurium. Alopecurus alpinus, with its allies, is clearly distinct from other members of the sect. Alopecurus (especially by maternal line) and thus we can re-establish a previous opinion about the separate group to which A. alpinus belongs. Species from the section Colobachne (presumably Alpine grasses from Ancient Mediterranean region) probably hybridized with the A. alpinus group. Even A. myosuroides (sect. Pseudophalaris) that could be referred to the separate genus has ribotypes common with the species of the section Alopecurium (A. aequalis, A. geniculatus) in one of the accessions. Additionally, we found that the possible polyphyletic origin of the genus Limnas. Limnas stelleri is very close to Alopecurus magellanicus according to NGS data, while L. malyschevii is more or less distinct from other studied species of the genus Alopecurus.",
keywords = "grasses; hybridization; ITS; molecular phylogeny; NGS; Poeae; rbcL; matK; ndhF, ITS, NGS, Poeae, grasses, hybridization, matK, molecular phylogeny, ndhF, rbcL",
author = "Чекрыгин, {Сергей Алексеевич} and Гнутиков, {Александр Александрович} and Носов, {Николай Николаевич} and Пунина, {Елизавета Ольгердовна} and И. Лоскутов and Шнеер, {Виктория Семеновна} and Родионов, {Александр Викентьевич}",
note = "Hybridization in the Subtribe Alopecurinae Dumort. (Poaceae) According to Molecular Phylogenetic Analysis: Different Ploidy Level Tells Different Origin of the Groups / Gnutikov A. A., Nosov N. N., Punina E. O [ et al.] // Plants. – 2024. – V. 13. – №. 7. – P. 919.",
year = "2024",
month = mar,
day = "22",
doi = "10.3390/plants13070919",
language = "English",
volume = "13",
journal = "Plants",
issn = "2223-7747",
publisher = "MDPI AG",
number = "7",

}

RIS

TY - JOUR

T1 - Hybridization in the Subtribe Alopecurinae Dumort. (Poaceae) According to Molecular Phylogenetic Analysis: Different Ploidy Level Tells Different Origin of the Groups

AU - Чекрыгин, Сергей Алексеевич

AU - Гнутиков, Александр Александрович

AU - Носов, Николай Николаевич

AU - Пунина, Елизавета Ольгердовна

AU - Лоскутов, И.

AU - Шнеер, Виктория Семеновна

AU - Родионов, Александр Викентьевич

N1 - Hybridization in the Subtribe Alopecurinae Dumort. (Poaceae) According to Molecular Phylogenetic Analysis: Different Ploidy Level Tells Different Origin of the Groups / Gnutikov A. A., Nosov N. N., Punina E. O [ et al.] // Plants. – 2024. – V. 13. – №. 7. – P. 919.

PY - 2024/3/22

Y1 - 2024/3/22

N2 - We performed next-generation sequencing of the 18S rDNA–ITS1–5.8S rDNA region along with traditional Sanger sequencing of rbcL, matK, ndhF, and ITS1–5.8S rDNA–ITS2 to clarify the hybridization pattern in the subtribe Alopecurinae and in the genus Alopecurus in particular. Our data support the hybrid origin of Alopecurus × brachystylus from hybridization between A. geniculatus (sect. Alopecurium) and A. pratensis (sect. Alopecurus). Moreover, in the rDNA of hybrid A. × brachystylus, only A. aequalis-like ribotypes from tetraploid A. geniculatus participated. Surprisingly, we found the traces of introgression of A. arundinaceus-like ribotypes not only in hybrid A. × marssonii (A. geniculatus × A. arundinaceus) but in A. aequalis s. str. as well. A high-polyploid group from the section Alopecurus, A. aggr. alpinus has undoubted hybrid origin: e. g., A. brachystachyus has rDNA from the sect. Alopecurium. Alopecurus alpinus, with its allies, is clearly distinct from other members of the sect. Alopecurus (especially by maternal line) and thus we can re-establish a previous opinion about the separate group to which A. alpinus belongs. Species from the section Colobachne (presumably Alpine grasses from Ancient Mediterranean region) probably hybridized with the A. alpinus group. Even A. myosuroides (sect. Pseudophalaris) that could be referred to the separate genus has ribotypes common with the species of the section Alopecurium (A. aequalis, A. geniculatus) in one of the accessions. Additionally, we found that the possible polyphyletic origin of the genus Limnas. Limnas stelleri is very close to Alopecurus magellanicus according to NGS data, while L. malyschevii is more or less distinct from other studied species of the genus Alopecurus.

AB - We performed next-generation sequencing of the 18S rDNA–ITS1–5.8S rDNA region along with traditional Sanger sequencing of rbcL, matK, ndhF, and ITS1–5.8S rDNA–ITS2 to clarify the hybridization pattern in the subtribe Alopecurinae and in the genus Alopecurus in particular. Our data support the hybrid origin of Alopecurus × brachystylus from hybridization between A. geniculatus (sect. Alopecurium) and A. pratensis (sect. Alopecurus). Moreover, in the rDNA of hybrid A. × brachystylus, only A. aequalis-like ribotypes from tetraploid A. geniculatus participated. Surprisingly, we found the traces of introgression of A. arundinaceus-like ribotypes not only in hybrid A. × marssonii (A. geniculatus × A. arundinaceus) but in A. aequalis s. str. as well. A high-polyploid group from the section Alopecurus, A. aggr. alpinus has undoubted hybrid origin: e. g., A. brachystachyus has rDNA from the sect. Alopecurium. Alopecurus alpinus, with its allies, is clearly distinct from other members of the sect. Alopecurus (especially by maternal line) and thus we can re-establish a previous opinion about the separate group to which A. alpinus belongs. Species from the section Colobachne (presumably Alpine grasses from Ancient Mediterranean region) probably hybridized with the A. alpinus group. Even A. myosuroides (sect. Pseudophalaris) that could be referred to the separate genus has ribotypes common with the species of the section Alopecurium (A. aequalis, A. geniculatus) in one of the accessions. Additionally, we found that the possible polyphyletic origin of the genus Limnas. Limnas stelleri is very close to Alopecurus magellanicus according to NGS data, while L. malyschevii is more or less distinct from other studied species of the genus Alopecurus.

KW - grasses; hybridization; ITS; molecular phylogeny; NGS; Poeae; rbcL; matK; ndhF

KW - ITS

KW - NGS

KW - Poeae

KW - grasses

KW - hybridization

KW - matK

KW - molecular phylogeny

KW - ndhF

KW - rbcL

UR - https://www.mendeley.com/catalogue/dbd3d56a-1014-32c0-a395-66daaa52b448/

U2 - 10.3390/plants13070919

DO - 10.3390/plants13070919

M3 - Article

VL - 13

JO - Plants

JF - Plants

SN - 2223-7747

IS - 7

M1 - 919

ER -

ID: 121498211