The evaluation of genetic relationships within Acridid grasshoppers (Orthoptera, Caelifera, Acrididae) on the subfamily level using molecular markers

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The evaluation of genetic relationships within Acridid grasshoppers (Orthoptera, Caelifera, Acrididae) on the subfamily level using molecular markers. / Sukhikh, Igor; Ustyantsev, Kirill; Bugrov, Alexander и др.

в: Folia Biologica (Poland), Том 67, № 3, 09.2019, стр. 119-126.

Результаты исследований: Научные публикации в периодических изданиях › статья › Рецензирование

BibTeX

@article{ebde7418a17647e5946374af5782843e,

title = "The evaluation of genetic relationships within Acridid grasshoppers (Orthoptera, Caelifera, Acrididae) on the subfamily level using molecular markers",

abstract = "Over the last few decades, molecular markers have been extensively used to study phylogeny, population dynamics, and genome mapping in insects and other taxa. Phylogenetic methods using DNA markers are inexpensive, fast and simple to use, and may help greatly to resolve phylogenetic relationships in groups with problematic taxonomy. However, different markers have various levels of phylogenetic resolution, and it's important to choose the right set of molecular markers for a studied taxonomy level. Acrididae is the most diverse family of grasshoppers. Many attempts to resolve the phylogenetic relationships within it did not result in a clear picture, partially because of the limited number of molecular markers used. We have tested a phylogenetic resolution of three sets of the most commonly utilized mitochondrial molecular markers available for Acrididae sequences in the database: (i) complete protein-coding mitochondrial sequences, (ii) concatenated mitochondrial genes COI, COII, and Cytb, and (iii) concatenated mitochondrial genes COI and COII. We then complemented the analysis by testing the nuclear ITS2 region. Adequate phylogenetic resolution of Acrididae subfamilies can be achieved using three (COI, COII, and Cytb) or more mitochondrial markers. Moreover, we found the ITS2 and concatenated COI/COII markers to be the least informative, providing a poor resolution. All the studied acridids fall into three well-supported phylogenetic groups that include 13 subfamilies. Acridinae, Gomphocerinae, Oedipodinae, and Catantopinae are shown to be polyphyletic, while the remaining subfamilies are in accordance with current Acrididae systematics. Our study provides a basis for more comprehensive phylogenetic analyses of Acrididae on the subfamily and lower levels.",

keywords = "Acrididae, Grasshoppers, Molecular markers, Phylogeny, GOMPHOCERINAE, MITOCHONDRIAL, INTERNAL TRANSCRIBED SPACER, PHYLOGENETIC ANALYSIS, INFERENCE, MRBAYES, MELANOPLINAE, OEDIPODINAE, grasshoppers, molecular markers",

author = "Igor Sukhikh and Kirill Ustyantsev and Alexander Bugrov and Michael Sergeev and Victor Fet and Alexander Blinov",

year = "2019",

month = sep,

doi = "10.3409/fb_67-3.12",

language = "English",

volume = "67",

pages = "119--126",

journal = "Folia Biologica (Poland)",

issn = "0015-5497",

publisher = "Institute of Systematics and Evolution of Animals",

number = "3",

}

RIS

TY - JOUR

T1 - The evaluation of genetic relationships within Acridid grasshoppers (Orthoptera, Caelifera, Acrididae) on the subfamily level using molecular markers

AU - Sukhikh, Igor

AU - Ustyantsev, Kirill

AU - Bugrov, Alexander

AU - Sergeev, Michael

AU - Fet, Victor

AU - Blinov, Alexander

PY - 2019/9

Y1 - 2019/9

N2 - Over the last few decades, molecular markers have been extensively used to study phylogeny, population dynamics, and genome mapping in insects and other taxa. Phylogenetic methods using DNA markers are inexpensive, fast and simple to use, and may help greatly to resolve phylogenetic relationships in groups with problematic taxonomy. However, different markers have various levels of phylogenetic resolution, and it's important to choose the right set of molecular markers for a studied taxonomy level. Acrididae is the most diverse family of grasshoppers. Many attempts to resolve the phylogenetic relationships within it did not result in a clear picture, partially because of the limited number of molecular markers used. We have tested a phylogenetic resolution of three sets of the most commonly utilized mitochondrial molecular markers available for Acrididae sequences in the database: (i) complete protein-coding mitochondrial sequences, (ii) concatenated mitochondrial genes COI, COII, and Cytb, and (iii) concatenated mitochondrial genes COI and COII. We then complemented the analysis by testing the nuclear ITS2 region. Adequate phylogenetic resolution of Acrididae subfamilies can be achieved using three (COI, COII, and Cytb) or more mitochondrial markers. Moreover, we found the ITS2 and concatenated COI/COII markers to be the least informative, providing a poor resolution. All the studied acridids fall into three well-supported phylogenetic groups that include 13 subfamilies. Acridinae, Gomphocerinae, Oedipodinae, and Catantopinae are shown to be polyphyletic, while the remaining subfamilies are in accordance with current Acrididae systematics. Our study provides a basis for more comprehensive phylogenetic analyses of Acrididae on the subfamily and lower levels.

AB - Over the last few decades, molecular markers have been extensively used to study phylogeny, population dynamics, and genome mapping in insects and other taxa. Phylogenetic methods using DNA markers are inexpensive, fast and simple to use, and may help greatly to resolve phylogenetic relationships in groups with problematic taxonomy. However, different markers have various levels of phylogenetic resolution, and it's important to choose the right set of molecular markers for a studied taxonomy level. Acrididae is the most diverse family of grasshoppers. Many attempts to resolve the phylogenetic relationships within it did not result in a clear picture, partially because of the limited number of molecular markers used. We have tested a phylogenetic resolution of three sets of the most commonly utilized mitochondrial molecular markers available for Acrididae sequences in the database: (i) complete protein-coding mitochondrial sequences, (ii) concatenated mitochondrial genes COI, COII, and Cytb, and (iii) concatenated mitochondrial genes COI and COII. We then complemented the analysis by testing the nuclear ITS2 region. Adequate phylogenetic resolution of Acrididae subfamilies can be achieved using three (COI, COII, and Cytb) or more mitochondrial markers. Moreover, we found the ITS2 and concatenated COI/COII markers to be the least informative, providing a poor resolution. All the studied acridids fall into three well-supported phylogenetic groups that include 13 subfamilies. Acridinae, Gomphocerinae, Oedipodinae, and Catantopinae are shown to be polyphyletic, while the remaining subfamilies are in accordance with current Acrididae systematics. Our study provides a basis for more comprehensive phylogenetic analyses of Acrididae on the subfamily and lower levels.

KW - Acrididae

KW - Grasshoppers

KW - Molecular markers

KW - Phylogeny

KW - GOMPHOCERINAE

KW - MITOCHONDRIAL

KW - INTERNAL TRANSCRIBED SPACER

KW - PHYLOGENETIC ANALYSIS

KW - INFERENCE

KW - MRBAYES

KW - MELANOPLINAE

KW - OEDIPODINAE

KW - grasshoppers

KW - molecular markers

UR - http://www.scopus.com/inward/record.url?scp=85074521188&partnerID=8YFLogxK

U2 - 10.3409/fb_67-3.12

DO - 10.3409/fb_67-3.12

M3 - Article

AN - SCOPUS:85074521188

VL - 67

SP - 119

EP - 126

JO - Folia Biologica (Poland)

JF - Folia Biologica (Poland)

SN - 0015-5497

IS - 3

ER -

ID: 22319183