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ITS2 (Internal transcribed spacer 2)是位于核糖体5.8S和28S基因之间的非编码序列。为了探讨该片段的多样性特征以及进化模式,本研究选取了鲈形目(Perciformes) 5科11种鱼类为研究对象,共获得了444条ITS2克隆序列,其长度范围为332~515 bp。比较种内不同序列的长度发现,金带细鲹(Selaroides leptolepis)在种内存在24 bp的差异,剑鱼(Xiphias gladius)在种内存在32 bp的差异,这2种鱼类的差异较为明显;其余9种鱼类的长度相对比较保守,长度差异小于14 bp。依据11种鱼类的保守位点数、变异位点数、简约信息位点数、单倍型数、保守位点比例、单倍型多样性指数、核苷酸多样性等特征分析发现,种内存在着不同程度差异,特别是金带细鲹的ITS2序列存在着Type A、Type B和Type C 3种类型,各类型间差异较大。根据序列的多样性特征推断,金带细鲹和剑鱼的进化方式为非协同进化;蓝圆鲹(Decapterus maruadsi)、大甲鲹(Megalaspis cordyla)、吉打副叶鲹(Alepes djedaba)和日本竹筴鱼(Trachurus japonicas)的长度和变异位点均存在着一定程度的差异,但差异并不明显,视为不严格的协同进化;泰拉鰆鲹(Scomberoides tala)、布氏鲳鲹(Trachinotus blochii)、尖吻鲈(Lates calcarifer)、射水鱼(Toxotes chatareus)和军曹鱼(Rachycentron canadum) 5种鱼类为协同进化;另外,协同和非协同进化状态与分类系统没有相关性。序列比对发现,大甲鲹种内存在着由协同进化方式演变为非严格的协同进化方式的过度序列;在金带细鲹的3个不同个体中,序列间存在着从协同进化、非严格的协同进化演变为非协同进化的3种进化方式。基于ITS2序列构建的11种鱼类的邻接系统树显示,每种鱼类的克隆都分别按种单独聚为一支,鲹科7属鱼类各属也是单独聚支,表明ITS2不仅可以用在种类的分子鉴定,同时也可以作为分子标记应用于鲹科和属级水平的系统关系研究。  相似文献   
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5科11种鱼类ITS1特征分析及其在系统分类研究中的适用性   总被引:3,自引:0,他引:3  
为了探讨ITS1作为分子标记用于鱼类系统演化的适用性,实验选取鲈形目5科11种鱼类为研究对象,包括尖吻鲈科、射水鱼科、军曹鱼科、剑鱼科和鲹科。通过克隆和测序等技术共获得了348条ITS1序列,长度范围为442~661 bp;通过对所有序列的长度、变异位点数量、GC含量、核苷酸多样性及单倍型多样性指数等遗传特征比较分析发现,11种鱼类ITS1序列无论是在种内还是在种间,长度和序列都表现出较为明显的多态性。特别是在军曹鱼中,70条克隆的长度范围为648~661 bp,但有一条序列存在55 bp缺失,结合该序列的GC含量,二级结构和最小自由能,推断该序列为假基因。以鮣为外类群,基于核糖体ITS1序列构建的邻接树显示在物种种类水平上,不同个体的克隆都按种类聚支,ITS1可以用于该类群物种的区分;在属级水平上,ITS1将11属鱼类完全区分开,能够用于属级水平的区分;在科级水平上,虽然鲹科分为2支的分子结果和形态分类存在差异,但ITS1构建的系统关系与线粒体分子标记构建的系统进化树相似。研究表明,核糖体ITS1可以作为一种有效的分子标记用于研究鱼类的系统分类研究,并且不同的分类阶元其解析能力不同,这将为鱼类核糖体的研究提供科学依据。  相似文献   
3.
鲈形目线粒体DNA蛋白编码基因的适用性分析   总被引:1,自引:0,他引:1  
[目的]对线粒体DNA 13种蛋白质编码基因的系统进化分析能力进行了评估。[方法]单个基因和基因拼接序列比较,综合考虑序列的信息量和邻位连接法构建系统进化树的置信度。[结果]按分类阶元不同将基因都分成不同的4等。在鲈形目的科间阶元,最好的为ND6和cox2 好的序列为ND5和ND4 ND4L、ND3和ATP8差 包括Cyt b、cox1在内的其余6种基因为中等 在属内种间阶元,最好的为ATP6和cox2 好的序列为ND2和cox1 ND6、ND3和ATP8差 包括Cyt b在内的其余6种基因为中等。另外,分析揭示序列长度的增加可以提高系统进化树的置信度,且属内物种间比较时序列长度的影响小于高级阶元。[结论]线粒体DNA蛋白质编码基因的信息分布具不均一性,需分类阶元选择最佳基因和组合。  相似文献   
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Patterns of commercial fish catches over the period from 1984 to 2006 were studied in the Loreto region and in Iquitos, which is the most important town of the region and the principal fish marketplace of the Peruvian Amazon. Despite important inter-annual variations, the overall fish landings have significantly increased in the region during this period. The same three species dominated the catches during the whole period (Prochilodus nigricans, Potamorhina altamazonica and Psectrogaster amazonica), making up about 62% of the catches. However, the number of species exploited by commercial fisheries increased considerably during the 22 years of this study (from about 21 species in 1984 to over 65 in 2006), although part of the difference may be accounted for by a better identification of individual species nowadays. At the same time, the large high-valued species, such as Arapaima gigas, Colossoma macropomum and Brachyplatystoma rousseauxii, declined significantly and were replaced by smaller, short-lived and lower-valued species. Catches of the silver Arahuana (Osteoglossum bicirrhosum) also declined significantly during the studied period, strengthening recent warnings about the species’ conservation status (Moreau and Coomes, Oryx 40:152–160, 2006). The relative proportions of the trophic groups (detritivores, omnivores and piscivores) remained relatively constant over the study period, but there were significant changes in the relative abundances of the species groups. The proportion of the dominant group, the Characiformes, which averaged about 81% of the catches, increased between 1984 and 2006, whereas the proportion of the Siluriformes and Perciformes remained constant. On the other hand, the proportion of Osteoglossiformes, represented only by two well known species (Arapaima gigas and Osteoglossum bicirrhosum), declined sharply during the same period. Important differences were observed between the landings of Iquitos and the landing of the whole Loreto region, indicating that conclusions drawn from the study of the Iquitos landings cannot be extrapolated to the whole landings of the Loreto region. The most important difference was the decreasing fish landings in Iquitos, whereas the total landings increased in the Loreto region at the same time. Potential causes of this phenomenon are discussed. Decreasing fish abundance around Iquitos (because of a higher fishing pressure) and a behavioural adaptation of fishermen to better law enforcement in Iquitos are likely explanations to be further investigated.  相似文献   
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