您的位置: 专家智库 > >

国家自然科学基金(s31071166)

作品数:3 被引量:4H指数:1
发文基金:国家自然科学基金广东省自然科学基金更多>>
相关领域:医药卫生更多>>

文献类型

  • 3篇期刊文章
  • 1篇会议论文

领域

  • 4篇医药卫生

主题

  • 2篇PATHWA...
  • 2篇ED
  • 2篇-B
  • 2篇AS
  • 1篇PATHWA...
  • 1篇PATIEN...
  • 1篇POLYMO...
  • 1篇RISK
  • 1篇SNP
  • 1篇TOOLS
  • 1篇CHD
  • 1篇COR
  • 1篇CORONA...
  • 1篇DATABA...
  • 1篇HE
  • 1篇GENOME...
  • 1篇CANCER...
  • 1篇PROFIL...
  • 1篇HETERO...

传媒

  • 3篇Genomi...
  • 1篇2017年中...

年份

  • 1篇2017
  • 1篇2016
  • 2篇2014
3 条 记 录,以下是 1-4
排序方式:
Identification of Risk Pathways and Functional Modules for Coronary Artery Disease Based on Genome-wide SNP Data被引量:3
2016年
Coronary artery disease (CAD) is a complex human disease, involving multiple genes and their nonlinear interactions, which often act in a modular fashion. Genome-wide single nucleotide polymorphism (SNP) profiling provides an effective technique to unravel these underlying genetic interplays or their functional involvements for CAD. This study aimed to identify the susceptible pathways and modules for CAD based on SNP omics. First, the Wellcome Trust Case Control Consortium (WTCCC) SNP datasets of CAD and control samples were used to assess the joint effect of multiple genetic variants at the pathway level, using logistic kernel machine regression model. Then, an expanded genetic network was constructed by integrating statistical gene-gene interactions involved in these susceptible pathways with their protein protein interaction (PPI) knowledge. Finally, risk functional modules were identified by decomposition of the network. Of 276 KEGG pathways analyzed, 6 pathways were found to have a significant effect on CAD. Other than glycerolipid metabolism, glycosaminoglycan biosynthesis, and cardiac muscle contraction pathways, three pathways related to other diseases were also revealed, including Alzheimer's disease, non-alcoholic fatty liver disease, and Huntington's disease. A genetic epistatic network of 95 genes was further constructed using the abovementioned integrative approach. Of 10 functional modules derived from the network, 6 have been annotated to phospholipase C activity and cell adhesion molecule binding, which also have known functional involvement in Alzheimer's disease. These findings indicate an overlap of the underlying molecular mechanisms between CAD and Alzheimer's disease, thus providing new insights into the molecular basis for CAD and its molecular relationships with other diseases.
Xiang ZhaoYi-Zhao LuanXiaoyu ZuoYe-Da ChenJiheng QinLv JinYiqing TanMeihua LinNaizun ZhangYan LiangShao-Qi Rao
Pathway-based Analysis Tools for Complex Diseases: A Review被引量:1
2014年
Genetic studies are traditionally based on single-gene analysis. The use of these analyses can pose tremendous challenges for elucidating complicated genetic interplays involved in complex human diseases. Modern pathway-based analysis provides a technique, which allows a comprehen- sive understanding of the molecular mechanisms underlying complex diseases. Extensive studies uti- lizing the methods and applications for pathway-based analysis have significantly advanced our capacity to explore large-scale omics data, which has rapidly accumulated in biomedical fields. This article is a comprehensive review of the pathway-based analysis methods the powerful methods with the potential to uncover the biological depths of the complex diseases. The general concepts and procedures for the pathway-based analysis methods are introduced and then, a comprehensive review of the major approaches for this analysis is presented. In addition, a list of available path- way-based analysis software and databases is provided. Finally, future directions and challenges for the methodological development and applications of pathway-based analysis techniques are dis- cussed. This review will provide a useful guide to dissect complex diseases.
Lv JinXiao-Yu ZuoWei-Yang SuXiao-Lei ZhaoMan-Qiong YuanLi-Zhen HanXiang ZhaoYe-Da ChenShao-Qi Rao
Pathway-based Analysis of the Hidden Genetic Heterogeneities in Cancers
2014年
Many cancers apparently showing similar phenotypes are actually distinct at the molecular level,leading to very different responses to the same treatment.It has been recently demonstrated that pathway-based approaches are robust and reliable for genetic analysis of cancers.Nevertheless,it remains unclear whether such function-based approaches are useful in deciphering molecular heterogeneities in cancers.Therefore,we aimed to test this possibility in the present study.First,we used a NCI60 dataset to validate the ability of pathways to correctly partition samples.Next,we applied the proposed method to identify the hidden subtypes in diffuse large B-cell lymphoma (DLBCL).Finally,the clinical significance of the identified subtypes was verified using survival analysis.For the NCI60 dataset,we achieved highly accurate partitions that best fit the clinical cancer phenotypes.Subsequently,for a DLBCL dataset,we identified three hidden subtypes that showed very different 10-year overall survival rates (90%,46% and 20%) and were highly significantly (P =0.008) correlated with the clinical survival rate.This study demonstrated that the pathwaybased approach is promising for unveiling genetic heterogeneities in complex human diseases.
Xiaolei ZhaoShouqiang ZhongXiaoyu ZuoMeihua LinJiheng QinYizhao LuanNaizun ZhangYan LiangShaoqi Rao
Correlation of leptin gene polymorphism and the life quality of CHD patients
<正>Background and Objective:Studies have described that leptin(LEP),which is an important regulator of the ene...
Jingtang ZengJia ShenMin FengShaoqi Rao
文献传递
共1页<1>
聚类工具0