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An Ontology for Bacterial Phenotypes

细菌表型本体论

基本信息

批准号：
7760774
负责人：
JAMES C HU
金额：
$ 24.96万
依托单位：
TEXAS A&M UNIVERSITY
依托单位国家：
美国
项目类别：
财政年份：
2010
资助国家：
美国
起止时间：
2010-04-01 至 2013-03-31
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/7760774
关键词：
Alleles Antibiotics Area Awareness Bacteria Bacterial Model Basic Science Biological Biological Models Biological Process Biology Biotechnology Cataloging Catalogs Cell physiology Characteristics Chemicals Clinical Microbiology Code Communicable Diseases Communities Controlled Vocabulary Custom Databases Development Drug resistance Education Education and Outreach Educational Curriculum Escherichia coli Evolution Foundations Gene Targeting Generations Genes Genetic Genome Genome engineering Genotype Goals Graduate Education Health Human Internet Link Liquid substance Literature Methods Microbe Microbiology Mission Modeling Molecular Molecular Genetics Mutation Ontology Organism Pathogenesis Persons Phenotype Pilot Projects Process Protocols documentation Research Infrastructure Research Personnel Resources Site System Terminology Testing United States National Institutes of Health Variant Virulence base biomedical ontology comparative comparative genomics improved interest metagenomic sequencing microbial microbial community mutant outreach protein function public health relevance tool trait web site wiki

项目摘要

DESCRIPTION (provided by applicant): Genome and metagenome sequencing efforts are producing a wealth of new information about microbes. Phenotypes are the observable traits resulting from genotypes and thus are a fundamental aspect of the biology of all organisms. Our ability to fully exploit the power of phenotypes for functional and comparative genomics in basic, applied, and clinical microbiology is hindered by the lack of a controlled terminology to describe and classify them. Ontologies are controlled vocabularies with defined relationships between terms. The overall goal of this project is to build a system for ontology-based annotation of bacterial phenotypes. The project will develop the necessary components and infrastructure, test the system on a well-characterized model system, and involve the relevant scientific communities in its development. The components are: 1) an Ontology for Microbial Phenotypes (OMP). 2) An extension of an existing ontology, the Evidence Code Ontology (ECO) to describe how OMP phenotypes were determined and cross referencing of ECO terms to a methods resource. 3) A pilot project to use the system to catalog phenotypes of mutations from E. coli, a well- understood bacterial model system. 4) a web site to help the scientific community find these new resources for bacterial phenotype annotation. 5) Outreach and education to promote the use of the system and to incorporate it into undergraduate and graduate education in genetics and microbiology. PUBLIC HEALTH RELEVANCE: An improved phenotype annotation system will have broad impacts relevant to the mission of NIH. The ability to correlate differences in gene content with important phenotypic differences between strains or microbial communities can help researchers target genes or organisms likely to be involved in virulence, drug resistance, and other important processes to infectious disease and human health. In addition, it can be used to elucidate the function of proteins involved in pathogenesis through comparative analysis based on phenotypes.

描述（由申请人提供）：基因组和宏基因组测序工作正在产生大量关于微生物的新信息。表型是由基因型产生的可观察的性状，因此是所有生物体生物学的基本方面。我们的能力，以充分利用功能和比较基因组学的基础，应用和临床微生物学的表型的力量是阻碍了缺乏一个受控的术语来描述和分类。本体是术语之间具有定义的关系的受控词汇表。该项目的总体目标是建立一个基于本体的细菌表型注释系统。该项目将开发必要的组件和基础设施，在一个特征明确的模型系统上测试该系统，并让相关科学界参与其开发。这些组件是：1）微生物表型本体（OMP）。2)现有本体的扩展，证据代码本体（ECO）描述如何确定OMP表型和交叉引用ECO术语的方法资源。3)一个试点项目，使用该系统，以目录表型的突变，从大肠杆菌。大肠杆菌，一个众所周知的细菌模型系统。4)一个网站，帮助科学界找到这些新的资源，细菌表型注释。5)推广和教育，以促进该系统的使用，并将其纳入遗传学和微生物学的本科生和研究生教育。公共卫生相关性：改进的表型注释系统将对NIH的使命产生广泛的影响。将基因含量差异与菌株或微生物群落之间的重要表型差异关联起来的能力可以帮助研究人员瞄准可能参与毒力、耐药性以及传染病和人类健康的其他重要过程的基因或生物。此外，它还可用于通过基于表型的比较分析来阐明参与发病机制的蛋白质的功能。