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基于线粒体和核DNA数据,采用系统发育地理学的序列分析方法研究濒危鱼类奎氏精器鱼(Zoogoneticus quitzeoensis,Bean,1898)(鲤齿目:古氏鳉科)的进化历史。

Evolutionary history of the endangered fish Zoogoneticus quitzeoensis (Bean, 1898) (Cyprinodontiformes: Goodeidae) using a sequential approach to phylogeography based on mitochondrial and nuclear DNA data.

作者信息

Domínguez-Domínguez Omar, Alda Fernando, de León Gerardo Pérez-Ponce, García-Garitagoitia José Luis, Doadrio Ignacio

机构信息

Posgrado en Ciencias del Mar y Limnología, ICMyL, Universidad Nacional Autónoma de México, C. P. 04510, DF México, México.

出版信息

BMC Evol Biol. 2008 May 26;8:161. doi: 10.1186/1471-2148-8-161.

DOI:10.1186/1471-2148-8-161
PMID:18503717
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2435552/
Abstract

BACKGROUND

Tectonic, volcanic and climatic events that produce changes in hydrographic systems are the main causes of diversification and speciation of freshwater fishes. Elucidate the evolutionary history of freshwater fishes permits to infer theories on the biotic and geological evolution of a region, which can further be applied to understand processes of population divergence, speciation and for conservation purposes. The freshwater ecosystems in Central Mexico are characterized by their genesis dynamism, destruction, and compartmentalization induced by intense geologic activity and climatic changes since the early Miocene. The endangered goodeid Zoogoneticus quitzeoensis is widely distributed across Central México, thus making it a good model for phylogeographic analyses in this area.

RESULTS

We addressed the phylogeography, evolutionary history and genetic structure of populations of Z. quitzeoensis through a sequential approach, based on both microsatellite and mitochondrial cytochrome b sequences. Most haplotypes were private to particular locations. All the populations analysed showed a remarkable number of haplotypes. The level of gene diversity within populations was Hd = 0.987 (0.714 - 1.00). However, in general the nucleotide diversity was low, pi = 0.0173 (0.0015 - 0.0049). Significant genetic structure was found among populations at the mitochondrial and nuclear level (PhiST = 0.836 and FST = 0.262, respectively). We distinguished two well-defined mitochondrial lineages that were separated ca. 3.3 million years ago (Mya). The time since expansion was ca. 1.5 x 10(6) years ago for Lineage I and ca. 860,000 years ago for Lineage II. Also, genetic patterns of differentiation, between and within lineages, are described at different historical timescales.

CONCLUSION

Our mtDNA data indicates that the evolution of the different genetic groups is more related to ancient geological and climatic events (Middle Pliocene, ca. 3.3 Mya) than to the current hydrographic configuration of the basins. In general, mitochondrial and nuclear data supported the same relationships between populations, with the exception of some reduced populations in highly polluted basins (Lower Lerma River), where the effects of genetic drift are suggested by the different analyses at the nuclear and mitochondrial level. Further, our findings are of special interest for the conservation of this endangered species.

摘要

背景

导致水文系统变化的构造、火山和气候事件是淡水鱼类多样化和物种形成的主要原因。阐明淡水鱼类的进化历史有助于推断一个地区生物和地质进化的理论,这可进一步用于理解种群分化、物种形成过程以及用于保护目的。自中新世早期以来,墨西哥中部的淡水生态系统以其强烈地质活动和气候变化所引发的起源动态、破坏和分隔为特征。濒危的古氏鱼Zoogoneticus quitzeoensis广泛分布于墨西哥中部,因此使其成为该地区系统发育地理学分析的良好模型。

结果

我们通过基于微卫星和线粒体细胞色素b序列的顺序方法,研究了Z. quitzeoensis种群的系统发育地理学、进化历史和遗传结构。大多数单倍型是特定地点特有的。所有分析的种群都显示出大量的单倍型。种群内的基因多样性水平为Hd = 0.987(0.714 - 1.00)。然而,总体而言核苷酸多样性较低,pi = 0.0173(0.0015 - 0.0049)。在种群间的线粒体和核水平上发现了显著的遗传结构(PhiST分别为0.836和FST为0.262)。我们区分出两个界限分明的线粒体谱系,它们大约在330万年前(百万年前)分开。谱系I的扩张时间约为150万年前,谱系II的扩张时间约为86万年前。此外,还描述了不同历史时间尺度上谱系间和谱系内的遗传分化模式。

结论

我们的线粒体DNA数据表明,不同遗传群体的进化与古代地质和气候事件(上新世中期,约330万年前)的关系比与当前流域的水文格局更为密切。总体而言,线粒体和核数据支持种群间相同的关系,但高度污染流域(莱尔马河下游)的一些数量减少的种群除外,在这些种群中,核和线粒体水平的不同分析表明存在遗传漂变的影响。此外,我们的研究结果对于保护这种濒危物种具有特别的意义。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/066d/2435552/20ce79067405/1471-2148-8-161-6.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/066d/2435552/e785ff8619bc/1471-2148-8-161-1.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/066d/2435552/de6a93e4d3c2/1471-2148-8-161-5.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/066d/2435552/20ce79067405/1471-2148-8-161-6.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/066d/2435552/e785ff8619bc/1471-2148-8-161-1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/066d/2435552/ff879d3ae33c/1471-2148-8-161-2.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/066d/2435552/f8bfd63751d2/1471-2148-8-161-3.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/066d/2435552/20ce79067405/1471-2148-8-161-6.jpg

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