评估暴露于致死浓度和亚致死浓度油田化学品的斑马鱼的遗传毒性:DNA 浓度、纯度和遗传影响

Davies Ibienebo Chris, Ebere Samuel Erondu, Davies Imachrist Ibienebo
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摘要

本研究采用静态生物测定和亚致死浓度 0 ml/l、12.8 ml/l、12.8 ml/l 和 0.0 ml/l (对照组)的方法,调查了在暴露于致死浓度(250 ml/l、200 ml/l、150 ml/l、100 ml/l、50 ml/l、25 ml/l和 0.0 ml/l)的二甲苯、柴油(X:D)和油田基乳化剂(O-BE)96 小时后,从珊瑚鱼中提取 DNA 的浓度和纯度:采用静态生物测定法对二甲苯:柴油(X:D)和油田基乳化剂(O-BE)进行了 96 小时的实验,并采用更新生物测定法对亚致死浓度 0 毫升/升(对照组)、12.8 毫升/升、25.6 毫升/升、38.4 毫升/升、51.2 毫升/升和 64.0 毫升/升进行了 28 天的实验。实验使用了 210 只幼鱼。研究采用 PCR 和其他方法分析鱼类样本中的 DNA 浓度和纯度。结果表明,DNA 浓度、纯度和微核的存在都有变化,这表明基因和细胞遗传学对化学品暴露有反应。在 25 ml/l 组中,O-BE 和 X:D 的 DNA 浓度最高,而在 100 ml/l 组中最低。二甲苯和柴油对分子水平的遗传影响此外,还对二甲苯:柴油在分子水平上的遗传影响进行了研究,实验组的排列存在明显差距,表明与未接触化学品的对照组相比,实验组的序列存在明显差异。通过凝胶电泳和序列比对等详细分析,该研究探讨了血细胞中的遗传变异和微核频率,揭示了这些油基物质对非洲鲶鱼的生态毒理学影响和潜在的进化意义。由于水生生物的基因变化会影响种群健康、适应性和生态系统动态,因此了解致死浓度的 O-BE 在鲶鱼体内诱发的基因变异对于评估更广泛的环境影响至关重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Assessment of genotoxicity in Clarias gariepinus exposed to lethal and sub-lethal concentrations of oilfield chemicals: DNA concentration, purity, and genetic implications
This study investigates the concentration and purity of DNA extracted from Clarias gariepinus after exposure to lethal concentrations (250 ml/l, 200 ml/l, 150 ml/l, 100 ml/l, 50 ml/l, 25 ml/l and 0.0 ml/l for the control) of Xylene: Diesel (X:D) and Oilfield-Based Emulsifiers (O-BE) over 96 hours using static bioassays and sub-lethal concentrations 0 ml/l (control), 12.8 ml/l, 25.6 ml/l, 38.4 ml/l, 51.2 ml/l and 64.0 ml/l) using renewal bioassay for 28 days. 210 juveniles were used for the experiment. The study used PCR and other methods to analyse DNA concentrations and purity in the fish samples. The results indicated variations in DNA concentration, purity, and the presence of micronuclei, suggesting genetic and cytogenetic responses to chemical exposures. The highest DNA concentration was recorded in the 25 ml/l group for both O-BE and X:D, while the lowest was in the 100 ml/l group. The genetic effects of Xylene: Diesel on the molecular level were also examined, with significant gaps in the alignments of experimental groups indicating notable differences in the sequences compared to the control group without chemical exposure. Through detailed analyses, including gel electrophoresis and sequence alignment, the study explores genetic variations and micronuclei frequencies in blood cells, shedding light on the ecotoxicological impacts and potential evolutionary implications of these oil-based substances on African catfish. Understanding the genetic variations induced by lethal concentrations of O-BE in Clarias gariepinus is crucial for assessing the broader environmental impact, as genetic changes in aquatic organisms can affect population health, adaptation, and ecosystem dynamics.
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