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锥虫的物种概念:从形态学定义到分子定义?

Species concepts for trypanosomes: from morphological to molecular definitions?

作者信息

Gibson Wendy

机构信息

School of Biological Sciences, University of Bristol, Bristol BS8 1UG, UK.

出版信息

Kinetoplastid Biol Dis. 2003 Oct 28;2(1):10. doi: 10.1186/1475-9292-2-10.

DOI:10.1186/1475-9292-2-10
PMID:14613500
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC280663/
Abstract

The way species and subspecies names are applied in African trypanosomes of subgenera Trypanozoon and Nannomonas is reviewed in the light of data from molecular taxonomy. In subgenus Trypanozoon the taxonomic importance of pathogenicity, host range and distribution appear to have been inflated relative to actual levels of genetic divergence. The opposite is true for subgenus Nannomonas, where current taxonomic usage badly underrepresents genetic diversity. Data from molecular characterisation studies are revealing a growing number of genotypes, which may represent distinct taxa. Unfortunately few of these genotypes are yet supported by sufficient biological data to be recognized taxonomically. But we may be missing fundamental epidemiological information, because of our inability to distinguish these trypanosomes in host blood morphologically or in tsetse by their developmental cycle. Molecular taxonomy has led the way in identifying these new genotypes and now offers the key to elucidating the biology of these organisms.

摘要

根据分子分类学数据,对锥虫亚属(Trypanozoon)和纳米锥虫亚属(Nannomonas)的非洲锥虫中物种和亚种名称的应用方式进行了综述。在锥虫亚属中,致病性、宿主范围和分布的分类学重要性相对于实际的遗传分化水平似乎被夸大了。纳米锥虫亚属的情况则相反,目前的分类学应用严重低估了遗传多样性。分子特征研究的数据揭示了越来越多的基因型,这些基因型可能代表不同的分类单元。不幸的是,这些基因型中很少有得到足够生物学数据的支持,从而在分类学上得到认可。但由于我们无法在宿主血液中通过形态学区分这些锥虫,也无法在采采蝇中通过其发育周期来区分,我们可能正在错过基本的流行病学信息。分子分类学在识别这些新基因型方面发挥了引领作用,现在它为阐明这些生物体的生物学特性提供了关键。

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