Tutorials Caution: Registrants should not pick more than 4 tutorials. |
Title: SNP Discovery and Analysis: Application to Association Studies This workshop will feature an introduction to the discovery and application of single nucleotide polymorphisms (SNPs) in genetic association studies. We will highlight the resources available from the SeattleSNPs-Program for Genomic Applications and the integration of this dataset with other large-scale efforts such as the HapMap. This data will be highlighted with respect to quantitative trait analysis and pharmacogenetics. We will provide an overview of human SNP databases, giving special attention to the practical application of these databases for selecting and genotyping SNPs in different formats. We will also highlight sequencing and genotyping resources and opportunities available to NHLBI investigators.
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Title: Building a Phenome Project: A Physiological Genomics Approach to NHLBI Disorders in the Rat Instructors: Melinda Dwinell & Howard Jacob, Medical College of Wisconsin This tutorial will provide an overview of the tools and resources being generated by PhysGen PGA ( http://pga.mcw.edu ) to map physiological traits to individual chromosomes and/or genes. The first part of the tutorial will review the animal models and the phenotyping strategies currently being used. Strategies and advice on how to use high-throughput phenotyping in individual research labs will be presented. The second part of the tutorial will focus on the available bioinformatics tools being used to visualize and analyze the vast database. This portion will focus on a disease or pathway being characterized in our phenotyping component (heart, lung, kidney, vasculature, and blood function in response to environmental stressors). Integration with the Rat Genome Database ( http://rgd.mcw.edu ) as well as other PGA and non-PGA websites will be used to link the rat phenotyping data with other animal and human models as well as genomic resources for connecting biology to the genome.
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Title: The Baygenomics Mouse Knockout Project Instructor: Alex Nord This tutorial will include an introduction to mouse models and the value of gene knockouts followed by a description of gene trap technology at Baygenomics, genome coverage with Baygenomics cell lines and how to make mice from those cell lines. Also included will be an overview of other resources from Baygenomics including in situ images, GenMAPP and how to navigate the Baygenomics website. Finally, annotation of cell lines and localization on the genome will be covered as well as relevant educational information and Bioinformatics tutorials available through Baygenomics. The International Gene Trap Consortium will also be introduced.
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Title: Comparative Genomics in Biomedical Research Instructors: Dario Boffelli, Jan-Fang Chen The completion of the Human Genome Project and the availability of sequences of the genomes of species ranging from fish to primates have revolutionized biomedical research. This massive availability of comparative sequence data enables biomedical researchers to efficiently sift through large genomic regions to develop and test hypothesis about the function and regulation of genes. The purpose of this tutorial is to bridge the gap between the bench biomedical scientist and the computational and experimental tools that have been developed to use the data generated by the Human Genome Project and other sequencing programs. This tutorial provides a detailed introduction to using genome sequences and comparative genomics to solve problems of interest to biomedical investigators. The practical use of software tools will be illustrated through numerous examples will be drawn from heart, lung and blood disorders. By the end of the tutorial, students should be familiar with 1) principles of experimental design using genomic resources, 2) navigating genome browsers and retrieving data from genome databases, 3) using comparative genomic tools for sifting through large genomic intervals to identify novel genes and gene regulatory elements and 4) experimental approaches to verify computational analyses.
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Title 1: Mouse Mutant Resources for Studying Human Heart, Lung, Blood and Sleep Disorders. Instructor: Carol Bult This tutorial will enable researchers to utilize existing resources of the JAX PGA to link both quantitative trait loci (QTL) and single-gene mutations to gene function and disease and to dissect the genetic variation underlying complex cardiovascular, lung, hematopoietic, and sleep dysfunction. Included will be a demonstration of how to access and use all resources generated by this PGA as well as other relevant tools, how to access mutant mouse resources, phenotypic and genotypic data, and educational and training opportunities offered by The Jax-PGA. |