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Statistical Methods for the Genomic Analysis of Gene Expression Data

基因表达数据的基因组分析的统计方法

基本信息

批准号：
7147679
负责人：
Christina Kendziorski
金额：
$ 20.65万
依托单位：
UNIVERSITY OF WISCONSIN-MADISON
依托单位国家：
美国
项目类别：
财政年份：
2006
资助国家：
美国
起止时间：
2006-07-01 至 2011-06-30
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/7147679
关键词：
data collection methodology /evaluation gene expression microarray technology model design /development quantitative trait loci statistics /biometry

项目摘要

DESCRIPTION (provided by applicant): With advances in DNA sequencing, genotyping, gene annotation,expression profiling, and other high throughput measurement technologies, viable scientific questions are widening in scope and often involve data collected from numerous sources. Statisticians working at the interface of statistics and biology are consequently faced with the challenge of developing analytic methods for investigations involving numerous types of data. 1 important example concerns studies to identify the genetic basis of gene expression (eQTL mapping studies), where relevant data consists of expression measurements, genetic maps, information on co-regulation of transcripts, and on transcription factors and their binding sites. Another collection of studies addresses genetic regulation of physiological systems. The data includes time course expression measurements, physiological variables, and information on co-regulation of transcripts. Expression QTL mapping and time course microarray studies provide fundamental insight into both normal and diseased biological systems. They are being used to identify regulatory genes, to gain insight into the mechanisms of regulation, and to determine ways in which regulation can be modified to promote or maintain a beneficial response. The full extent of biomedical information in these studies cannot be realized without effective statistical methods. The goal of this proposal is to develop, evaluate, and disseminate statistical methods to address questions from these 2 types of studies. This goal will be accomplished through 3 specific aims: the development of methods to identify mapping transcripts and the genomic locations to which they map; the extension of these methods to the cases of both sparse maps and dense maps; and the development of methods to identify temporal paths of expression and affecting covariates. Successful completion of the proposed research will result in substantially improved statistical methods for these 2 important categories of genomic studies.

描述（由申请人提供）：随着DNA测序，基因分型，基因注释，表达谱和其他高通量测量技术的进步，可行的科学问题的范围正在扩大，并且通常涉及从众多来源收集的数据。因此，统计学家在统计学和生物学的界面上工作，面临着为涉及众多类型数据的调查开发分析方法的挑战。一个重要的例子涉及识别基因表达的遗传基础的研究（eQTL作图研究），其中相关数据包括表达测量、遗传图谱、转录物共调控信息、转录因子及其结合位点。另一组研究涉及生理系统的遗传调控。数据包括时间过程表达测量，生理变量和转录本共调节信息。表达QTL定位和时间过程微阵列研究为正常和患病生物系统提供了基本的见解。它们被用于识别调控基因，以深入了解调控机制，并确定可以修改调控以促进或维持有益反应的方法。如果没有有效的统计方法，这些研究中的生物医学信息是无法充分实现的。本提案的目标是开发、评估和传播统计方法来解决这两类研究中的问题。这一目标将通过三个具体目标来实现：开发方法来识别作图转录本和它们所映射的基因组位置；将这些方法推广到稀疏映射和密集映射两种情况；以及识别表达和影响协变量的时间路径的方法的发展。该研究的成功完成将大大改进这两类重要基因组研究的统计方法。