Schizophrenia susceptibility by copy number variation in the Ashkenazim

德系犹太人拷贝数变异对精神分裂症的易感性

• 批准号: 8060470
• 负责人: Stephen T. Warren
• 金额: $ 67.74万
• 依托单位: EMORY UNIVERSITY
• 依托单位国家: 美国
• 财政年份: 2007
• 资助国家: 美国
• 起止时间: 2007-05-15 至 2013-03-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/8060470
• 关键词: Advisory Committees; Alleles; Area; Ashkenazim; Biochemistry; Case-Control Studies; Chromosome Mapping; Chromosomes; Cloning; Code; Collaborations; Commit; Committee Members; Complex; Conserved Sequence; Consultations; Control Groups; Copy Number Polymorphism; Counseling; DNA; DNA Sequence; Data; Data Analyses; Data Quality; Development; Disease; Electronic Mail; Elements; Epidemiologist; Epidemiology; Equilibrium; Evaluation; FMR1; FMRP; Fluorescent in Situ Hybridization; Fragile X Syndrome; Frequencies; Gene Frequency; Generations; Genes; Genetic; Genetic Heterogeneity; Genetic Predisposition to Disease; Genetic Variation; Genome; Genomics; Genotype; Glutamates; Hearing; Heritability; Human; Human Genetics; Human Genome; Individual; Joints; Linkage Disequilibrium; Mental disorders; Mentors; Metaphase; Molecular Biology; Molecular Genetics; National Institute of Mental Health; Neurobiology; Oligonucleotide Microarrays; Oligonucleotides; Ophthalmology; Parents; Patients; Pattern; Pediatrics; Play; Population; Preclinical Drug Evaluation; Predisposition; Psychiatrist; Psychiatry; Publishing; Relative (related person); Research; Research Personnel; Rest; Role; SNP genotyping; Sampling; Scanning; Schizophrenia; Science; Shipping; Ships; Source; Speed; Stretching; Surveys; Telephone; Time; Universities; Variant; Washington; Work; case control; density; follower of religion Jewish; genome-wide; insight; interest; meetings; member; novel strategies; professor; programs; statistics; success; transmission process; willingness

DESCRIPTION (provided by applicant): Schizophrenia (SZ) is a severe psychiatric disorder with a strong genetic susceptibility. Heritability is estimated to be 70-90% for SZ. Intense efforts using both linkage and association studies to identify susceptibility loci thus far have met only limited success. Recently it has been appreciated that widespread copy number variation (CNV), in the form of duplications and deletions, frequently occurs in the human genome and is a largely unsurveyed source of individual genetic variation. CNV may be an unrecognized source of SZ genetic susceptibility and potentially a confounding influence on prior genetic studies. We propose here to survey the entire nonrepetitive human genome, using arrays with oligonucleotide markers at an average spacing of 1.5 kb, in 1,000 unrelated Ashkenazi Jewish SZ cases and controls as well as in parents of 300 of the SZ cases. Using this population isolate to limit genetic heterogeneity, we will identify large (>100 kb) and small (-15 - 100 kb) CNV, both frequent (> 1%) and rare (< 1%). We will confirm selected CNV from each of these four classes by quantitative TaqMan PCR. We will characterize breakpoints by long-range PCR followed by DNA sequencing or by FISH to metaphase chromosomes. Using prior high-density SNP genotyping in four genomic regions in these samples, we will investigate linkage disequilibrium patterns between individual CNVs and flanking SNPs. We will compare the CNV of the 300 trios to confirm genetic transmission and, along with the remaining 200 SZ cases and 500 controls, we will code CNV loci. CNVs with overlapping breakpoints will be initially coded as alleles of one locus but will also be evaluated as distinct loci as well. We expect to identify ~1,700 nonredundant CNVs in this study and we will publicly release this data within one month of its generation. These data will be evaluated by joint analysis of trios, cases, and controls for statistically significant evidence of association of one or more CNV loci with SZ. This study will result in a detailed examination of CNV in the Ashkenazim, providing one of the first large-scale evaluations of CNV in humans, and identify CNV loci that may influence SZ susceptibility. Schizophrenia (SZ) is a severe psychiatric disorder that is caused, at least in part, by variation in the DNA of patients' genomes. A new class of variation is the deletion or duplications of stretches of DNA. Using arrays that can scan the human genome for this "copy number variation", we will examine 1,000 unrelated Ashkenazi Jewish cases and controls as well as in 600 SZ parents. Although SZ is not found at an elevated frequency in individuals of AJ decent, the relative isolation of this population will reduce genome complexity, easing analysis. This study will not only be one of the first large-scale examinations of this type of variation in humans but may also identify variants that may influence whether or not an individual will suffer from SZ.

描述（申请人提供）：精神分裂症（SZ）是一种严重的精神疾病，具有很强的遗传易感性。SZ的遗传率估计为70-90%。利用连锁和关联研究来鉴定易感基因座的努力到目前为止只取得了有限的成功。最近，人们已经认识到，广泛的拷贝数变异（CNV），在复制和缺失的形式，经常发生在人类基因组中，是一个很大程度上未调查的个体遗传变异的来源。CNV可能是SZ遗传易感性的一个未被认识的来源，并可能对先前的遗传学研究产生混杂影响。我们建议在1,000个不相关的德系犹太SZ病例和对照以及300个SZ病例的父母中，使用平均间距为1.5 kb的寡核苷酸标记阵列，调查整个非重复人类基因组。使用该群体分离物来限制遗传异质性，我们将鉴定大的（>100 kb）和小的（约15 - 100 kb）CNV，既常见（> 1%）又罕见（< 1%）。我们将通过定量TaqMan PCR确认从这四类中的每一类中选择的CNV。我们将通过长距离PCR随后进行DNA测序或通过FISH对中期染色体进行断裂点表征。利用这些样本中四个基因组区域的高密度SNP基因分型，我们将研究个体CNVs和侧翼SNP之间的连锁不平衡模式。我们将比较300个三人组的CNV以确认遗传传递，并与剩余的200个SZ病例和500个对照组一起，沿着编码CNV位点。具有重叠断裂点的CNV最初将被编码为一个基因座的等位基因，但也将被评估为不同的基因座。我们希望在这项研究中识别出约1，700个非冗余的CNV，我们将在生成后的一个月内公开发布这些数据。这些数据将通过对三人组、病例组和对照组的联合分析进行评价，以获得一个或多个CNV基因座与SZ相关的统计学显著性证据。这项研究将导致对德系犹太人CNV的详细检查，提供人类CNV的首次大规模评估之一，并确定可能影响SZ易感性的CNV基因座。精神分裂症（SZ）是一种严重的精神疾病，至少部分是由患者基因组的DNA变异引起的。一类新的变异是DNA片段的缺失或复制。使用可以扫描人类基因组的这种“拷贝数变异”的阵列，我们将检查1,000个无关的德系犹太人病例和对照组以及600个SZ父母。虽然SZ在AJ型个体中的频率没有升高，但该群体的相对隔离将降低基因组复杂性，便于分析。这项研究不仅是对人类这种类型变异的首次大规模检查之一，而且还可能确定可能影响个体是否患有SZ的变异。