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布鲁氏菌分类学与进化。

Brucella taxonomy and evolution.

机构信息

Texas A&M University, Veterinary Pathobiology, TAMUs 4467, College Station, TX 77843, USA.

出版信息

Future Microbiol. 2010 Jun;5(6):859-66. doi: 10.2217/fmb.10.52.

DOI:10.2217/fmb.10.52
PMID:20521932
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2923638/
Abstract

Taxonomy and nomenclature represent man-made systems designed to enhance understanding of the relationship between organisms by comparison of discrete sets of properties. Initial efforts at bacterial taxonomy were flawed as a result of the previous use of nonsystematic approaches including common names resulting in confusing and inaccurate nomenclature. A decision was made to start afresh with bacterial nomenclature and to avoid the hazards experienced in the taxonomic classification of higher organisms. This was achieved by developing new rules designed to simplify classification and avoid unnecessary and confusing changes. This article reviews the work of a number of scientists attempting to reconcile new molecular data describing the phylogenetic relationship between Brucella organisms and a broader family of organisms with widely variant phenotypes that include human virulence and host range against a backdrop of strict regulatory requirements that fail to recognize significant differences between organisms with similar nomenclature.

摘要

分类学和命名法是人为设计的系统,旨在通过比较离散的属性集来增强对生物体之间关系的理解。由于先前使用了非系统方法,包括通用名称,导致细菌分类学的最初努力存在缺陷,从而导致命名法混乱且不准确。因此,决定重新开始进行细菌命名法的工作,并避免在高等生物的分类学分类中遇到的危险。这是通过制定新规则来实现的,这些规则旨在简化分类并避免不必要和混乱的更改。本文回顾了一些科学家的工作,这些科学家试图调和新的分子数据,描述布鲁氏菌属生物体与广泛变异表型的更广泛生物体家族之间的系统发育关系,其中包括人类的毒力和宿主范围,而背景是严格的监管要求未能认识到具有相似命名法的生物体之间的显著差异。

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