Statistical Genomics and Systems Biology Workshop

统计基因组学和系统生物学研讨会

基本信息

批准号：
8657457
负责人：
Steve Horvath
金额：
$ 18.47万
依托单位：
UNIVERSITY OF CALIFORNIA LOS ANGELES
依托单位国家：
美国
项目类别：
财政年份：
2013
资助国家：
美国
起止时间：
2013-05-01 至 2017-04-30
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/8657457
关键词：
Address Bioinformatics Biological Biology Biomedical Research California Clinical Research Collaborations Complex Computational Biology Computer software Computers Data Data Analyses Data Set Diagnosis Disease Disease model Distance Learning Educational process of instructing Educational workshop Environment Exercise Experimental Genetics Feedback Funding Gene Expression Generations Genes Genetic Genetic Variation Genomics Goals Grant Human Genome Project Imagery Instruction Interdisciplinary Study Internet Knowledge Learning Life Los Angeles Mathematics Meta-Analysis Methods Mining Modeling Monitor Network-based Neurosciences Ontology Participant Pathway Analysis Pathway interactions Phenotype Physics Proteins Public Health Research Personnel Resources SNP genotyping Scientist Simulate Slide Social Sciences Software Tools Solutions Students Surveys System Systems Biology Teaching Method Testing Time Training Transcript Translational Research United States National Institutes of Health Universities Variant Vocabulary Weight analytical method base computer based statistical methods computer science data sharing deep sequencing density design experience gene discovery genetic analysis graduate student human disease innovation instructor interest lectures neuropsychiatry next generation programs public health relevance rare variant satisfaction statistics success theories tool trait transcriptome sequencing

项目摘要

DESCRIPTION (provided by applicant): The human genome project and its offshoots have dramatically increased the amount of genetic data available to researchers. Interdisciplinary studies that bring together biologists and quantitative scientists are critical to mine the vast amount of public data and understand the genetic basis of human disease and variation. New quantitative methods have revolutionized the analysis of high dimensional genomic data sets. We have over 18 years of NIH-funded experience developing these leading-edge methods, and over ten years experience teaching these methods to genetic researchers in intensive summer workshops. Our continuing goal is to create tools and workshops to train the next generation of genomic scientists to mine, analyze, and share data, which will advance the understanding, diagnosis, and treatment of disease, and promote public health. As part of this educational endeavor, we propose to offer an intensive week-long workshop in the theory and practice of statistical genomics and systems biology (with an emphasis on network methods). The participants will spend much of their time performing hands-on exercises with widely used, state-of-the-art applications our group has developed for discovering genes that influence disease traits. We will use real and simulated data sets that will journey from classic linkage and association tests to the analysis of high-density SNP genotypes, RNA-seq transcript counts, rare variants from deep sequencing, and network analysis methods,. The participants will range from graduate students to senior researchers, both quantitative and non-quantitative, and from many fields, including biology, genetics, clinical and biomedical research, interdisciplinary and translational sciences, bioinformatics, statistics, computational biology, computer science, applied mathematics, physics, and social science. We plan to bring together quantitative, biological, and interdisciplinary researchers and give them an understanding of the issues and the vocabulary of quantitative genomics so that they can communicate and collaborate effectively and productively. Without understanding and close collaboration between quantitative and qualitative scientists, solutions to the challenges of modern genomics will elude us. The workshops will be offered on the campus of the University of California, Los Angeles, and all materials will also be offered remotely, through our Distance Learning Initiative. In successive years the emphasis will alternate between statistical genomics and systems biology, but each year both topics will be addressed. The focal topic each year will be covered in an intensive five-day course, with computer exercises. The secondary topic will be covered in an optional two-day module either before or after the primary topic. All course materials, plus additional resources, will be available throughout the year to course alumni and any interested researcher. Feedback and interaction with the course instructors will also be available throughout the year in the Distance Learning environment.

描述（由申请人提供）：人类基因组项目及其分支大大增加了研究人员可用的遗传数据量。将生物学家和定量科学家融合在一起的跨学科研究对于挖掘大量公共数据并了解人类疾病和变异的遗传基础至关重要。新的定量方法彻底改变了对高维基因组数据集的分析。我们拥有超过18年的NIH资助经验，开发了这些领先的方法，并且十多年的经验在密集的夏季研讨会上向遗传研究人员讲授这些方法。我们持续的目标是创建工具和研讨会，以培训下一代基因组科学家来挖掘，分析和共享数据，从而提高对疾病的理解，诊断和治疗，并促进公共卫生。作为这项教育努力的一部分，我们建议在统计基因组学和系统生物学的理论和实践中提供长达一周的研讨会（重点是网络方法）。参与者将花费大量时间进行动手练习，并通过我们小组开发的广泛使用的最先进的应用程序来发现影响疾病特征的基因。我们将使用实际和模拟的数据集，这些数据集将从经典链接和对高密度SNP基因型，RNA-Seq转录本数，深度测序的稀有变体和网络分析方法的分析进行了结合测试。参与者的范围从研究生到数量和非定量研究人员，以及许多领域，包括生物学，遗传学，临床和生物医学研究，跨学科和转化科学，生物信息学，统计学，计算生物学，计算机生物学，计算机科学，应用数学，物理学和社会科学。我们计划将定量，生物学和跨学科研究人员汇总在一起，并使他们了解定量基因组学的问题和词汇，以便他们可以有效，有效地进行交流和协作。在定量和定性科学家之间的理解和密切合作的情况下，应对现代基因组学挑战的解决方案将掩盖我们。这些研讨会将在加利福尼亚大学，洛杉矶分校的校园内提供，所有材料也将通过我们的远程学习计划远程提供。在连续的几年中，统计基因组学和系统生物学之间的重点将交替出现，但是每年都将解决这两个主题。每年的焦点主题将通过计算机练习为期五天的密集课程。次要主题将在主要主题之前或之后的可选为期两天的模块中介绍。所有课程材料以及其他资源将全年提供校友和任何感兴趣的研究人员。在远程学习环境中，全年也将提供与课程讲师的反馈和互动。