用于基于表达的各种类型基因组学数据整合的贝叶斯方法。

Elizabeth M Jennings, Jeffrey S Morris, Raymond J Carroll, Ganiraju C Manyam, Veerabhadran Baladandayuthapani
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引用次数: 26

摘要

:我们提出了使用分层贝叶斯分析框架整合多个基因组平台数据的方法,该框架结合了平台之间的生物学关系,以识别其表达与癌症临床结果相关的基因。这种综合方法结合了所有平台的信息,提高了发现这些预测基因的统计能力,并进一步提供了有关基因影响结果的机制信息。我们通过模拟证明了这种方法使用的收缩估计的优势,最后,我们将我们的方法应用于多型胶质母细胞瘤数据集,并确定了几个可能与患者生存相关的基因。我们发现12个阳性预后标记与9个基因相关,13个阴性预后标记与九个基因相关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Bayesian methods for expression-based integration of various types of genomics data.

Bayesian methods for expression-based integration of various types of genomics data.

Bayesian methods for expression-based integration of various types of genomics data.

Bayesian methods for expression-based integration of various types of genomics data.

: We propose methods to integrate data across several genomic platforms using a hierarchical Bayesian analysis framework that incorporates the biological relationships among the platforms to identify genes whose expression is related to clinical outcomes in cancer. This integrated approach combines information across all platforms, leading to increased statistical power in finding these predictive genes, and further provides mechanistic information about the manner in which the gene affects the outcome. We demonstrate the advantages of the shrinkage estimation used by this approach through a simulation, and finally, we apply our method to a Glioblastoma Multiforme dataset and identify several genes potentially associated with the patients' survival. We find 12 positive prognostic markers associated with nine genes and 13 negative prognostic markers associated with nine genes.

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