INRA, UMR CBGP (INRA/IRD/Cirad/Montpellier SupAgro), Campus International de Baillarguet, CS 30016, 34988 Montferrier-sur-Lez cedex, France.
BMC Evol Biol. 2010 Jun 18;10:184. doi: 10.1186/1471-2148-10-184.
Rodents are recognized as hosts for at least 60 zoonotic diseases and may represent a serious threat for human health. In the context of global environmental changes and increasing mobility of humans and animals, contacts between pathogens and potential animal hosts and vectors are modified, amplifying the risk of disease emergence. An accurate identification of each rodent at a specific level is needed in order to understand their implications in the transmission of diseases. Among the Muridae, the Rattini tribe encompasses 167 species inhabiting South East Asia, a hotspot of both biodiversity and emerging and re-emerging diseases. The region faces growing economical development that affects habitats, biodiversity and health. Rat species have been demonstrated as significant hosts of pathogens but are still difficult to recognize at a specific level using morphological criteria. DNA-barcoding methods appear as accurate tools for rat species identification but their use is hampered by the need of reliable identification of reference specimens. In this study, we explore and highlight the limits of the current taxonomy of the Rattini tribe.
We used the DNA sequence information itself as the primary information source to establish group membership and estimate putative species boundaries. We sequenced two mitochondrial and one nuclear genes from 122 rat samples to perform phylogenetic reconstructions. The method of Pons and colleagues (2006) that determines, with no prior expectations, the locations of ancestral nodes defining putative species was then applied to our dataset. To give an appropriate name to each cluster recognized as a putative species, we reviewed information from the literature and obtained sequences from a museum holotype specimen following the ancient DNA criteria.
Using a recently developed methodology, this study succeeds in refining the taxonomy of one of the most difficult groups of mammals. Most of the species expected within the area were retrieved but new putative species limits were also indicated, in particular within Berylmys and Rattus genera, where future taxonomic studies should be directed. Our study lays the foundations to better investigate rodent-born diseases in South East Asia and illustrates the relevance of evolutionary studies for health and medical sciences.
啮齿动物被认为是至少 60 种人畜共患疾病的宿主,可能对人类健康构成严重威胁。在全球环境变化和人类与动物流动性增加的背景下,病原体与潜在动物宿主和媒介之间的接触发生了变化,增加了疾病出现的风险。为了了解它们在疾病传播中的作用,需要在特定水平上准确识别每只啮齿动物。在鼠科中,rattini 部落包括 167 种栖息在东南亚的物种,该地区是生物多样性以及新发和再现疾病的热点地区。该地区面临着经济发展的增长,这影响了栖息地、生物多样性和健康。鼠类已被证明是病原体的重要宿主,但仍难以根据形态学标准在特定水平上识别。DNA 条形码方法似乎是识别鼠种的准确工具,但由于需要可靠地识别参考标本,其使用受到阻碍。在这项研究中,我们探讨并强调了 rattini 部落当前分类学的局限性。
我们使用 DNA 序列信息本身作为主要信息来源来确定群体归属并估计可能的物种界限。我们从 122 个鼠样本中测序了两个线粒体和一个核基因,以进行系统发育重建。然后,应用 Pons 及其同事(2006)的方法,该方法无需先验预测,即可确定定义可能物种的祖先节点的位置,应用于我们的数据集。为了给每个被识别为可能物种的聚类赋予适当的名称,我们查阅了文献信息,并根据古老 DNA 标准从博物馆模式标本中获得了序列。
使用最近开发的方法,本研究成功地细化了哺乳动物中最难分类的群体之一的分类学。该地区预期的大多数物种都被检索到,但也指出了新的可能物种界限,特别是在 Berylmys 和 Rattus 属中,未来的分类学研究应该针对这些属进行。我们的研究为更好地研究东南亚的啮齿动物传播疾病奠定了基础,并说明了进化研究对健康和医学科学的相关性。
