Tools for Genetic and Genomic Studies in the Dog

狗的遗传和基因组研究工具

• 批准号: 7848368
• 负责人: GREGORY M ACLAND
• 金额: $ 34.16万
• 依托单位: CORNELL UNIVERSITY
• 依托单位国家: 美国
• 财政年份: 2008
• 资助国家: 美国
• 起止时间: 2008-08-01 至 2012-05-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/7848368
• 关键词: 8 year old; Affect; Aggressive behavior; Anatomy; Animal Hospitals; Animal Model; Animals; Applications Grants; Archives; Bar Codes; Behavior; Bioinformatics; Biology; Biomedical Research; Blood specimen; Breeding; California; Canis familiaris; Cataloging; Catalogs; Chromosome Mapping; Clinical; Collaborations; Collection; Communities; Complex; Computer Simulation; Cost Sharing; DNA; Data; Databases; Development; Diagnosis; Disease; Disease susceptibility; Dog Diseases; Dysplasia; Ensure; Fee-for-Service Plans; Funding; Future; Gene Mutation; Genes; Genetic; Genetic Heterogeneity; Genetic Models; Genetic Variation; Genome; Genomics; Genotype; Goals; Grant; Granulomatous; Haplotypes; Health; Hepatic; Hereditary Disease; Hospitals; Human; Indium; Individual; Inherited; Internet; Mammals; Maps; Medical; Medical Genetics; Medicine; Modeling; Molecular; Morphology; Mus; Pathologic; Patients; Phenotype; Physiological; Population; Principal Investigator; Process; Qualifying; Records; Research Personnel; Resources; Retinitis Pigmentosa; Review Committee; Role; Sampling; Scientist; Screening procedure; Services; Single Nucleotide Polymorphism; Single Nucleotide Polymorphism Map; Site; Structure; Surveys; Ulcerative Colitis; Universities; University Hospitals; Variant; Visit; Vocabulary; base; case control; cost; density; disease diagnosis; empowered; genetic analysis; genetic pedigree; genome sequencing; genome-wide; human disease; interest; large bowel Crohn' s disease; man; programs; repository; research study; tool; trait

DESCRIPTION (provided by applicant): Recent developments in dog (Canis familiaris) genomics have catapulted this species to the status of a model organism, with major advantages for the study of complex genetic diseases and traits relevant to the human condition. Its rapid rise in genomics was fueled by a 7.6X genome sequence, the identification of over 2 million single nucleotide polymorphisms (SNPs), and a commercial SNP microarray with over 125,000 loci. These developments converge with the enormous phenotypic variation between different breeds, the recent establishment of many breeds by line breeding that has yielded an advantageous haplotype structure for genetic analyses, greater physiologic and anatomic relationship to human diseases than other animal models, and excellent pedigree records. The main barrier to fully exploit this model for genetic studies is ready access to sufficient numbers of control and affected animals relevant to the traits of interest. The Cornell University Hospital for Animals (CUHA) admits - 15,000 canine patients (5,000 new visits) each year. We propose to create a DNA repository from selected pure-breed dogs admitted to our hospital accurately diagnosed with complex diseases and traits of strong biomedical interest. A conservative estimate is that approximately 2,000 DNA samples per year will be added to our existing collection, and a subset of up to 400 cases and controls per year will be subjected to high-density SNP genotyping. Initially, we will map loci for owner-directed aggression, rod-cone dystrophy, hepatic microvascular dysplasia, and granulomatous (ulcerative) colitis in specific breeds of dog. We will prospectively accumulate phenotypic data for the same specific breed controls. A standard phenotype screen will be performed on dogs over 8 years of age belonging to the same breeds admitted with the 12 most frequently diagnosed diseases in our hospital. We will encourage the canine genetic mapping community to submit requests for SNP genotyping of their cases and controls, on a cost-sharing basis. The Cornell Medical Genetic Archive will purchase an equal number of mapping arrays as supported by this grant application. Future mapping studies will concentrate on complex diseases of dogs among those breeds most frequently admitted to our hospital under the advice of highly qualified, external consultants. The SNP genotypes and accompanying phenotypes will be uploaded to the University of California Santa Cruz (UCSC) Genome Bioinformatics mirror and ported to the original UCSC site. We will help alleviate the need for scientists to repetitively collect control samples and we will provide SNP genotypes to allow in silico analyses at minimum cost. By combining a large collection of well phenotyped samples with SNP genotypes, this resource will facilitate the genetic analysis of complex traits, make the canine model accessible to a wide cadre of scientists, and empower the dog as an indispensable element in biomedical research.

描述（由申请人提供）：犬（Canis familiaris）基因组学的最新发展使该物种成为模式生物，对于研究复杂的遗传疾病和与人类状况相关的性状具有重大优势。它在基因组学中的迅速崛起是由7.6X基因组序列，超过200万个单核苷酸多态性（SNP）的鉴定和超过125，000个位点的商业SNP微阵列推动的。这些发展与不同品种之间的巨大表型变异、最近通过品系育种建立的许多品种（其产生了用于遗传分析的有利单倍型结构）、与人类疾病的生理和解剖关系比其他动物模型更大以及优良的系谱记录汇合。充分利用这一模型进行遗传研究的主要障碍是容易获得足够数量的对照动物和与感兴趣性状相关的受影响动物。康奈尔大学动物医院（CUHA）每年收治15，000名犬类患者（5，000名新患者）。我们建议创建一个DNA库，从选定的纯种狗承认我们的医院准确诊断为复杂的疾病和强烈的生物医学兴趣的特点。保守估计，每年大约有2,000份DNA样本将被添加到我们现有的收集中，每年将有多达400例病例和对照的子集进行高密度SNP基因分型。最初，我们将绘制特定品种狗的主人导向攻击、杆锥营养不良、肝微血管发育不良和肉芽肿性（溃疡性）结肠炎的基因座。我们将前瞻性地积累相同特定品种对照的表型数据。将对8岁以上的犬进行标准表型筛选，这些犬属于我院收治的12种最常诊断疾病的同一品种。我们将鼓励犬遗传图谱社区在费用分摊的基础上提交其病例和对照的SNP基因分型请求。康奈尔医学遗传档案馆将购买同等数量的映射阵列作为本赠款申请的支持。未来的映射研究将集中在复杂的疾病的狗在这些品种最经常承认我们的医院的建议下，高素质的外部顾问。SNP基因型和伴随的表型将上传到加州大学圣克鲁斯（UCSC）基因组生物信息学镜像，并移植到原始UCSC站点。我们将帮助减轻科学家重复收集对照样本的需求，我们将提供SNP基因型，以便以最低成本进行计算机分析。通过将大量表型样本与SNP基因型相结合，该资源将促进复杂性状的遗传分析，使犬模型可供广大科学家使用，并使犬成为生物医学研究中不可或缺的元素。