APPRAISAL OF THE ENTIRE MITOCHONDRIAL GENOME FOR DNA BARCODING IN BIRDS

Progress in Biological Sciences Pub Date : 2014-12-01 DOI:10.22059/PBS.2014.52297

Leila Nourani, M. Aliabadian

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引用次数: 1

Abstract

DNA barcoding based on a standardized region of 648 base pairs of mitochondrial DNAsequences from Cytochrome C Oxidase 1 (COX1) is proposed for animal species identification.Recent studies suggested that DNA barcoding has been effective for identifying 94% of birdspecies. The proposed threshold of 10 times the average intraspecific variation could be used forthe identification and delimitation of new species. As a different part of the mitochondrial DNAevolves at various mutation rates, they show a variety of capabilities to distinguish taxa tospecies level. In order to compare the efficiency of protein-coding genes (PCGs) in birds, thecomplete genome of 310 birds, including 12 mitochondrial genes (except ND6) and barcodingthe region of COX1, were examined. We concentrated on the intra- and inter-specific variationsand the degree of mutational saturation as criteria for our evaluations. Some genes like ATP8,ND2 and ND5 showed the greatest divergence in intra- and inter-specific variations. Theoverlap between intra- and inter-specific variability for all genes is still troublesome. Our resultsmay have been influenced by the sample size because our data were not representative of allbird species. More additional taxa may shed light more on DNA barcoding candidate genes.

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鸟类线粒体全基因组DNA条形码鉴定

基于细胞色素C氧化酶1 (COX1)线粒体DNA序列648个碱基对的标准化区域，提出了用于动物物种鉴定的DNA条形码。最近的研究表明，DNA条形码已经有效地识别了94%的鸟类。所提出的阈值为种内变异平均值的10倍，可用于新种的鉴定和划分。由于线粒体dna的不同部分以不同的突变率进化，它们表现出区分分类群和物种水平的各种能力。为了比较鸟类蛋白质编码基因(PCGs)的效率，我们检测了310只鸟类的全基因组，包括12个线粒体基因(ND6除外)和COX1区域的条形码。我们集中于种内和种间变异和突变饱和程度作为我们评估的标准。一些基因如ATP8、ND2和ND5在种内和种间变异中表现出最大的差异。所有基因的种内变异性和种间变异性的重叠仍然是一个棘手的问题。我们的结果可能受到样本量的影响，因为我们的数据并不代表所有鸟类。更多额外的分类群可能会为DNA条形码候选基因的研究提供更多线索。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Progress in Biological Sciences

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