罗非鱼(Oreochromis Species)线粒体D-Loop和细胞色素b区系统发育及分子分化

E. Ekerette, E. Ikpeme, O. Udensi, M. Ozoje, O. Etukudo, A. Umoyen, So Durosaro, M. Wheto
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引用次数: 2

摘要

了解任何种群的遗传多样性水平是制定保护和改善种群的战略措施的重要必要条件。本研究利用线粒体脱氧核糖核酸(mtDNA)的位移环(D-loop)和细胞色素b区对两个种群(南南Domita和尼日利亚西南部Odeda)的罗非鱼物种的系统发育和分子分化进行了评估。共有28份样本(15份来自南南,13份来自西南)用于遗传分析。使用Quik-gDNATM miniPrep试剂盒从所有样本的组织中提取DNA。对来自两个种群的所有样品中含有高变区的d环进行了测序,而仅对来自南南种群的样品的mtDNA的细胞色素b (Cyt b)区域进行了测序。使用Bioedit软件查看和编辑序列的色谱图。在随后的遗传分析之前,使用分子进化遗传分析(MEGA)软件进行多序列比对。系统发育分析将样本根据种群分为两类。此外,当两个线粒体区域汇集在一起时,它们根据线粒体区域聚集成两个主要组。分子方差分析(AMOVA)显示群体内变异37.32%,群体间变异62.68%,固定指数为0.627 (p < 0.05)。推断南南种群与西南种群D-loop区遗传距离为0.243。母系分析表明,两个种群的罗非鱼的起源可根据线粒体D-loop区追溯到Oreochromis spirilus和Oreochromis leucostictus。本研究结果揭示了罗非鱼种群之间的分子差异,并可能为这一重要物种的遗传改良提供关键信息。
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Phylogenetics and Molecular Divergence of Tilapia Fish (Oreochromis Species) Using Mitochondrial D-Loop and Cytochrome b Regions
Understanding the level of genetic diversity in any population is an important requisite towards strategizing measures for conservation and improvement of stocks. This study focused on the assessment of phylogenetics and molecular divergence of tilapia fish species obtained from two populations (Domita in South-South and Odeda in South-West, Nigeria) using the displacement loop (D-loop) and cytochrome b region of the mitochondrial deoxyribonucleic acid (mtDNA). A total of 28 samples (15 from South-South and 13 from South-West) were used for the genetic analysis. DNA was extracted from the tissue of all the samples using Quik-gDNATM miniPrep kit. The D-loop containing the hypervariable region was sequenced for all samples from the two populations, while cytochrome b (Cyt b) region of mtDNA was only sequenced for samples from South-South population. Chromatograms of the sequences were viewed and edited using Bioedit software. Multiple sequence alignment was carried out using molecular evolutionary genetic analysis (MEGA) software before subsequent genetic analyses. Phylogenetic analysis grouped the samples into two clusters based on population. Also, when the two mitochondrial regions were pooled together, they clustered into two major groups based on mitochondrial regions. Analysis of molecular variance (AMOVA) revealed 37.32% variation within population and 62.68% variation among population with a significant fixation index of 0.627 (p < 0.05). The genetic distance inferred between D-loop regions of South-South and South-West populations was 0.243. Maternal lineage analysis revealed that the origin of tilapia fish from both populations could be traced to Oreochromis spirilus and Oreochromis leucostictus based on mitochondrial D-loop region. The findings of this study revealed molecular divergence among the tilapia populations and may serve as pivot information for the genetic improvement of this important species.
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