US-UK Cooperative Research: DNA Adducts A Novel and Quantitative Biomarker for Soil Nematodes

美英合作研究：DNA 加合物成为土壤线虫的新型定量生物标志物

• 批准号: 0454159
• 负责人: Deborah Neher
• 金额: --
• 依托单位: University of Vermont & State Agricultural College
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2004
• 资助国家: 美国
• 起止时间: 2004-08-01 至 2006-07-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=0454159&HistoricalAwards=false
• 关键词: US; UK; Cooperative; Research; DNA

0436786NeherThis U.S.-U.K. cooperative research project between Deborah Neher of the University of Toledo and Stephen Sturzenbaum of Cardiff University in the United Kingdom involves investigations of soil nematodes (roundworms) as bioindicators of soil health and environmental contamination. Neher and her colleagues have conducted fundamental experiments to test the reliability, cost-effectiveness, utility and quality assurance of nematode community indices for environmental monitoring. They plan to use changes in nematode DNA as biomarker for rapid detection of sensitive genotypes to broad classes of chemical compounds or specific xenobiotics. The will demonstrate that (1) DNA adducts can be identified and quantified reliably using XL-PCR in a model nematode, Caenorhabditis elegans with validation on field-relevant species, and then (2) quantify concentration-response relationships between contaminant concentration and DNA adduct formation. Intellectual Merit: The project applies PAHs (organic chemicals) as xenobiotics on soil microfauna and an existing biomarker, DNA adducts, to ecological analysis. This technology can serve as a relatively quick and definitive measure of relative sensitivity of soil nematode genotypes to chronic exposure to environmental stressors and contaminants. The objectives are to establish an independent empirical evaluation of assignments for community indices and sensitive genotypes (sequences) that could be targeted by molecular probes. Broader Aspects: Many soils are contaminated with heavy metals worldwide. In contrast, contaminated sites abandoned by industry are laden with organic chemicals such as PAHs or a mixture of metals and organics. Currently, nematode communities are proposed as a national bioindicator of soil health in the State of the Nation's Ecosystems Report in the U.S. The proposed study will develop environmental tools that can be used both to monitor soil quality; and quantify progress of remediation of waste sites and contaminated sediments. The non-specialist may find this a useful and cost effective tool for implementing nematode bioindicators within large-scale environmental monitoring programs of aquatic and terrestrial ecosystems. Furthermore, the approach may be appropriate for studying population genetics and evolutionary change in soil communities.The project takes advantage of Dr. Stephen Sturzenbaum's expertise in quantitative PCR and handling extra-long fragments of DNA, two skills essential to the proposed project. The U.S. PI will master this approach and then U.S. train graduate students in these tools for evaluating soil ecology.

托莱多大学的Deborah Neher和英国卡迪夫大学的Stephen Sturzenbaum开展的这项美英合作研究项目涉及调查土壤线虫(蛔虫)作为土壤健康和环境污染的生物指标。Neher和她的同事们进行了基础实验，以测试用于环境监测的线虫群落指数的可靠性、成本效益、实用性和质量保证。他们计划利用线虫DNA的变化作为生物标记物，快速检测对广泛类别的化合物或特定外源物质的敏感基因类型。本研究将证明：(1)XL-PCR可以可靠地鉴定和定量线虫模型线虫的DNA加合物，并对相关物种进行验证，然后(2)定量污染物浓度和DNA加合物形成之间的浓度-反应关系。智力优势：该项目将多环芳烃(有机化学品)作为土壤微型动物的外来生物，并将现有的生物标记物DNA加合物应用于生态分析。这项技术可以作为土壤线虫基因类型对环境应激源和污染物长期暴露的相对敏感性的相对快速和明确的衡量标准。其目的是建立一项独立的经验评估，以确定可作为分子探针靶标的群落指数和敏感基因(序列)的分配。更广泛的方面：世界各地的许多土壤都被重金属污染。相比之下，工业废弃的受污染场地充满了多环芳烃或金属和有机物的混合物等有机化学品。目前，美国《国家生态系统状况报告》建议将线虫群落作为土壤健康的国家生物指标。这项拟议的研究将开发可用于监测土壤质量和量化废弃地和受污染沉积物修复进展的环境工具。非专家可能会发现，这是在水生和陆地生态系统的大规模环境监测方案中实施线虫生物指标的有用和具有成本效益的工具。此外，这种方法可能适合于研究土壤群落中的种群遗传学和进化变化。该项目利用了Stephen Sturzenbaum博士在定量聚合酶链式反应和处理超长DNA片段方面的专业知识，这两项技能对拟议的项目至关重要。美国PI将掌握这种方法，然后在美国培训研究生使用这些工具来评估土壤生态。