Testing the utility of mitochondrial cytochrome oxidase subunit 1 sequences for phylogenetic estimates of relationships between crane (Grus) species

Morphology and biogeography are widely used in animal taxonomy. Recent study has suggested that a DNA-based identification system, using a 648-bp portion of the mitochondrial gene cytochrome oxidase subunit 1 (CO1), also known as the barcoding gene, can aid in the resolution of inferences concerning...

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Veröffentlicht in:	Genetics and molecular research 2011-12, Vol.10 (4), p.4048-4062
Hauptverfasser:	Yu, D B, Chen, R, Kaleri, H A, Jiang, B C, Xu, H X, Du, W-X
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Sprache:	eng
Schlagworte:	Animals Birds - genetics Birds - metabolism DNA Barcoding, Taxonomic DNA, Mitochondrial - chemistry Electron Transport Complex IV - genetics Electron Transport Complex IV - metabolism Evolution, Molecular Genes, Mitochondrial Genetic Variation Mitochondria - enzymology Mitochondria - metabolism Phylogeny Protein Subunits - genetics
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creator	Yu, D B Chen, R Kaleri, H A Jiang, B C Xu, H X Du, W-X
description	Morphology and biogeography are widely used in animal taxonomy. Recent study has suggested that a DNA-based identification system, using a 648-bp portion of the mitochondrial gene cytochrome oxidase subunit 1 (CO1), also known as the barcoding gene, can aid in the resolution of inferences concerning phylogenetic relationships and for identification of species. However, the effectiveness of DNA barcoding for identifying crane species is unknown. We amplified and sequenced 894-bp DNA fragments of CO1 from Grus japonensis (Japanese crane), G. grus (Eurasian crane), G. monacha (hooded crane), G. canadensis (sandhill crane), G. leucogeranus (Siberian crane), and Balearica pavonina (crowned crane), along with those of 15 species obtained from GenBank and DNA barcoding, to construct four algorithms using Tringa stagnatilis, Scolopax rusticola, and T. erythropus as outgroups. The four phylum profiles showed good resolution of the major taxonomic groups. We concluded that reconstruction of the molecular phylogenetic tree can be helpful for classification and that CO1 sequences are suitable for studying the molecular evolution of cranes. Although support for several deeper branches was limited, CO1 data gave remarkably good separations, especially considering that our analysis was based on just a fragment of the gene and that CO1 has generally been viewed as useful only for resolving shallow divergences.
doi_str_mv	10.4238/2011.December.21.7
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We concluded that reconstruction of the molecular phylogenetic tree can be helpful for classification and that CO1 sequences are suitable for studying the molecular evolution of cranes. Although support for several deeper branches was limited, CO1 data gave remarkably good separations, especially considering that our analysis was based on just a fragment of the gene and that CO1 has generally been viewed as useful only for resolving shallow divergences.</abstract><cop>Brazil</cop><pmid>22194213</pmid><doi>10.4238/2011.December.21.7</doi><tpages>15</tpages><oa>free_for_read</oa></addata></record>
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subjects	Animals Birds - genetics Birds - metabolism DNA Barcoding, Taxonomic DNA, Mitochondrial - chemistry Electron Transport Complex IV - genetics Electron Transport Complex IV - metabolism Evolution, Molecular Genes, Mitochondrial Genetic Variation Mitochondria - enzymology Mitochondria - metabolism Phylogeny Protein Subunits - genetics
title	Testing the utility of mitochondrial cytochrome oxidase subunit 1 sequences for phylogenetic estimates of relationships between crane (Grus) species
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