Complete mitochondrial genome of the diving beetle, Cybister brevis Aubé, 1838 (Coleoptera, Dytiscidae) from Jeju Island
The mitochondrial genome of Aubé, 1838, is 16,198 bp long and includes 37 genes that are highly conserved in the family Dytiscidae. Phylogenetic analysis revealed that all genera in Dytiscidae, except and , are monophyletic. The Hydroporini tribe was found to be polyphyletic and closely associated w...
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| Published in | Mitochondrial DNA. Part B. Resources Vol. 9; no. 2; pp. 295 - 299 |
|---|---|
| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
England
Taylor & Francis Ltd
01.02.2024
Taylor & Francis Group |
| Subjects | |
| Online Access | Get full text |
| ISSN | 2380-2359 2380-2359 |
| DOI | 10.1080/23802359.2024.2317327 |
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| Abstract | The mitochondrial genome of
Aubé, 1838, is 16,198 bp long and includes 37 genes that are highly conserved in the family Dytiscidae. Phylogenetic analysis revealed that all genera in Dytiscidae, except
and
, are monophyletic. The Hydroporini tribe was found to be polyphyletic and closely associated with the Hygrotini, Bidessini, and Hyphydrini tribes. Dytiscinae was found to be a highly divergent polyphyletic group comprising three distinct clades. This study also revealed that
is closely related to
and that the tribe Cybistrini diverged relatively early compared to other tribes in Hydroporinae. These findings are consistent with those of previous studies and provide new insights into the phylogeny of the Dytiscidae family, which has previously shown discrepancies between morphological characteristics and molecular data. The genome-level analyses conducted in this study serve as a valuable foundation for future investigations into the Dysticidae evolutionary history. |
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| AbstractList | The mitochondrial genome of Cybister brevis Aubé, 1838, is 16,198 bp long and includes 37 genes that are highly conserved in the family Dytiscidae. Phylogenetic analysis revealed that all genera in Dytiscidae, except Hydroporus and Oreodytes, are monophyletic. The Hydroporini tribe was found to be polyphyletic and closely associated with the Hygrotini, Bidessini, and Hyphydrini tribes. Dytiscinae was found to be a highly divergent polyphyletic group comprising three distinct clades. This study also revealed that C. brevis is closely related to Cybister japonicus and that the tribe Cybistrini diverged relatively early compared to other tribes in Hydroporinae. These findings are consistent with those of previous studies and provide new insights into the phylogeny of the Dytiscidae family, which has previously shown discrepancies between morphological characteristics and molecular data. The genome-level analyses conducted in this study serve as a valuable foundation for future investigations into the Dysticidae evolutionary history.The mitochondrial genome of Cybister brevis Aubé, 1838, is 16,198 bp long and includes 37 genes that are highly conserved in the family Dytiscidae. Phylogenetic analysis revealed that all genera in Dytiscidae, except Hydroporus and Oreodytes, are monophyletic. The Hydroporini tribe was found to be polyphyletic and closely associated with the Hygrotini, Bidessini, and Hyphydrini tribes. Dytiscinae was found to be a highly divergent polyphyletic group comprising three distinct clades. This study also revealed that C. brevis is closely related to Cybister japonicus and that the tribe Cybistrini diverged relatively early compared to other tribes in Hydroporinae. These findings are consistent with those of previous studies and provide new insights into the phylogeny of the Dytiscidae family, which has previously shown discrepancies between morphological characteristics and molecular data. The genome-level analyses conducted in this study serve as a valuable foundation for future investigations into the Dysticidae evolutionary history. The mitochondrial genome of Aubé, 1838, is 16,198 bp long and includes 37 genes that are highly conserved in the family Dytiscidae. Phylogenetic analysis revealed that all genera in Dytiscidae, except and , are monophyletic. The Hydroporini tribe was found to be polyphyletic and closely associated with the Hygrotini, Bidessini, and Hyphydrini tribes. Dytiscinae was found to be a highly divergent polyphyletic group comprising three distinct clades. This study also revealed that is closely related to and that the tribe Cybistrini diverged relatively early compared to other tribes in Hydroporinae. These findings are consistent with those of previous studies and provide new insights into the phylogeny of the Dytiscidae family, which has previously shown discrepancies between morphological characteristics and molecular data. The genome-level analyses conducted in this study serve as a valuable foundation for future investigations into the Dysticidae evolutionary history. The mitochondrial genome of Cybister brevis Aubé, 1838, is 16,198 bp long and includes 37 genes that are highly conserved in the family Dytiscidae. Phylogenetic analysis revealed that all genera in Dytiscidae, except Hydroporus and Oreodytes, are monophyletic. The Hydroporini tribe was found to be polyphyletic and closely associated with the Hygrotini, Bidessini, and Hyphydrini tribes. Dytiscinae was found to be a highly divergent polyphyletic group comprising three distinct clades. This study also revealed that C. brevis is closely related to Cybister japonicus and that the tribe Cybistrini diverged relatively early compared to other tribes in Hydroporinae. These findings are consistent with those of previous studies and provide new insights into the phylogeny of the Dytiscidae family, which has previously shown discrepancies between morphological characteristics and molecular data. The genome-level analyses conducted in this study serve as a valuable foundation for future investigations into the Dysticidae evolutionary history. AbstractThe mitochondrial genome of Cybister brevis Aubé, 1838, is 16,198 bp long and includes 37 genes that are highly conserved in the family Dytiscidae. Phylogenetic analysis revealed that all genera in Dytiscidae, except Hydroporus and Oreodytes, are monophyletic. The Hydroporini tribe was found to be polyphyletic and closely associated with the Hygrotini, Bidessini, and Hyphydrini tribes. Dytiscinae was found to be a highly divergent polyphyletic group comprising three distinct clades. This study also revealed that C. brevis is closely related to Cybister japonicus and that the tribe Cybistrini diverged relatively early compared to other tribes in Hydroporinae. These findings are consistent with those of previous studies and provide new insights into the phylogeny of the Dytiscidae family, which has previously shown discrepancies between morphological characteristics and molecular data. The genome-level analyses conducted in this study serve as a valuable foundation for future investigations into the Dysticidae evolutionary history. |
| Author | Min, Dong-Won Ko, Min-Hee Oh, Dae-Ju Jung, Yong-Hwan |
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| Snippet | The mitochondrial genome of
Aubé, 1838, is 16,198 bp long and includes 37 genes that are highly conserved in the family Dytiscidae. Phylogenetic analysis... The mitochondrial genome of Cybister brevis Aubé, 1838, is 16,198 bp long and includes 37 genes that are highly conserved in the family Dytiscidae.... AbstractThe mitochondrial genome of Cybister brevis Aubé, 1838, is 16,198 bp long and includes 37 genes that are highly conserved in the family Dytiscidae.... |
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| SubjectTerms | Bats Biodiversity Cybister Cybister brevis Dytiscidae evolutionary history Genes Genomes Insects Mitochondrial DNA mitochondrial genome Morphology Phylogenetics Phylogeny Physical characteristics Proteins Research centers Software Transfer RNA |
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| Title | Complete mitochondrial genome of the diving beetle, Cybister brevis Aubé, 1838 (Coleoptera, Dytiscidae) from Jeju Island |
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