线粒体异质性和夏威夷叶蜂（Nesoprosopis）（膜翅目：叶蜂科）的 DNA 条形码。

Mitochondrial heteroplasmy and DNA barcoding in Hawaiian Hylaeus (Nesoprosopis) bees (Hymenoptera: Colletidae).

机构信息

Department of Zoology, School of Natural Sciences, Trinity College Dublin, Dublin 2, Ireland.

出版信息

BMC Evol Biol. 2010 Jun 11;10:174. doi: 10.1186/1471-2148-10-174.

DOI:10.1186/1471-2148-10-174

PMID:20540728

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2891727/

Abstract

BACKGROUND

The past several years have seen a flurry of papers seeking to clarify the utility and limits of DNA barcoding, particularly in areas such as species discovery and paralogy due to nuclear pseudogenes. Heteroplasmy, the coexistence of multiple mitochondrial haplotypes in a single organism, has been cited as a potentially serious problem for DNA barcoding but its effect on identification accuracy has not been tested. In addition, few studies of barcoding have tested a large group of closely-related species with a well-established morphological taxonomy. In this study we examine both of these issues, by densely sampling the Hawaiian Hylaeus bee radiation.

RESULTS

Individuals from 21 of the 49 a priori morphologically-defined species exhibited coding sequence heteroplasmy at levels of 1-6% or more. All homoplasmic species were successfully identified by COI using standard methods of analysis, but only 71% of heteroplasmic species. The success rate in identifying heteroplasmic species was increased to 86% by treating polymorphisms as character states rather than ambiguities. Nuclear pseudogenes (numts) were also present in four species, and were distinguishable from heteroplasmic sequences by patterns of nucleotide and amino acid change.

CONCLUSIONS

Heteroplasmy significantly decreased the reliability of species identification. In addition, the practical issue of dealing with large numbers of polymorphisms- and resulting increased time and labor required - makes the development of DNA barcode databases considerably more complex than has previously been suggested. The impact of heteroplasmy on the utility of DNA barcoding as a bulk specimen identification tool will depend upon its frequency across populations, which remains unknown. However, DNA barcoding is still likely to remain an important identification tool for those species that are difficult or impossible to identify through morphology, as is the case for the ecologically important solitary bee fauna.

摘要

背景

过去几年中，出现了大量试图阐明 DNA 条形码实用性和局限性的论文，特别是在物种发现和核假基因导致的并系等领域。异质现象，即单个生物体中存在多种线粒体单倍型的共存，被认为是 DNA 条形码的一个潜在严重问题，但尚未测试其对鉴定准确性的影响。此外，很少有条形码研究测试了具有完善形态分类学的一大组密切相关的物种。在这项研究中，我们通过密集采样夏威夷 Hylaeus 蜜蜂辐射来检查这两个问题。

结果

在 49 种先验形态定义的物种中，有 21 种个体表现出 1-6%或更高水平的编码序列异质现象。所有同质物种都可以通过 COI 成功识别，使用标准分析方法，但只有 71%的异质物种可以识别。通过将多态性视为特征状态而不是模糊状态，可将异质物种的识别成功率提高到 86%。四个物种中还存在核假基因（numts），并且可以通过核苷酸和氨基酸变化模式将其与异质序列区分开来。

结论

异质现象显著降低了物种鉴定的可靠性。此外，处理大量多态性的实际问题-以及由此增加的时间和劳动力需求-使得 DNA 条码数据库的开发比以前所建议的要复杂得多。异质现象对 DNA 条形码作为批量标本鉴定工具的实用性的影响将取决于其在种群中的频率，这仍然未知。然而，对于那些通过形态学难以或不可能识别的物种，DNA 条形码仍然可能是一种重要的鉴定工具，就像生态重要的独居蜜蜂类群一样。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/87d2/2891727/de71be1cf978/1471-2148-10-174-1.jpg

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线粒体异质性和夏威夷叶蜂（Nesoprosopis）（膜翅目：叶蜂科）的 DNA 条形码。

Mitochondrial heteroplasmy and DNA barcoding in Hawaiian Hylaeus (Nesoprosopis) bees (Hymenoptera: Colletidae).

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

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