Literature DB >> 31942979

Phenotype-genotype network construction and characterization: a case study of cardiovascular diseases and associated non-coding RNAs.

Rongrong Wu1, Yuxin Lin1, Xingyun Liu1,2, Chaoying Zhan1, Hongxin He1, Manhong Shi1,3, Zhi Jiang4, Bairong Shen2.   

Abstract

The phenotype-genotype relationship is a key for personalized and precision medicine for complex diseases. To unravel the complexity of the clinical phenotype-genotype network, we used cardiovascular diseases (CVDs) and associated non-coding RNAs (ncRNAs) (i.e. miRNAs, long ncRNAs, etc.) as the case for the study of CVDs at a systems or network level. We first integrated a database of CVDs and ncRNAs (CVDncR, http://sysbio.org.cn/cvdncr/) to construct CVD-ncRNA networks and annotate their clinical associations. To characterize the networks, we then separated the miRNAs into two groups, i.e. universal miRNAs associated with at least two types of CVDs and specific miRNAs related only to one type of CVD. Our analyses indicated two interesting patterns in these CVD-ncRNA networks. First, scale-free features were present within both CVD-miRNA and CVD-lncRNA networks; second, universal miRNAs were more likely to be CVDs biomarkers. These results were confirmed by computational functional analyses. The findings offer theoretical guidance for decoding CVD-ncRNA associations and will facilitate the screening of CVD ncRNA biomarkers. Database URL: http://sysbio.org.cn/cvdncr/.
© The Author(s) 2020. Published by Oxford University Press.

Entities:  

Year:  2020        PMID: 31942979      PMCID: PMC6964217          DOI: 10.1093/database/baz147

Source DB:  PubMed          Journal:  Database (Oxford)        ISSN: 1758-0463            Impact factor:   3.451


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