Clustering analysis of microRNA and mRNA expression data from TCGA using maximum edge-weighted matching algorithms
Abstract Background microRNA (miRNA) is a short RNA (~ 22 nt) that regulates gene expression at the posttranscriptional level. Aberration of miRNA expressions could affect their targeting mRNAs involved in cancer-related signaling pathways. We conduct clustering analysis of miRNA and mRNA using expr...
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2019-08-01T00:00:00Z.
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| LEADER | 00000 am a22000003u 4500 | ||
|---|---|---|---|
| 001 | doaj_b00cad032f8d4b4a90efe06b66e4d2b3 | ||
| 042 | |a dc | ||
| 100 | 1 | 0 | |a Lizhong Ding |e author |
| 700 | 1 | 0 | |a Zheyun Feng |e author |
| 700 | 1 | 0 | |a Yongsheng Bai |e author |
| 245 | 0 | 0 | |a Clustering analysis of microRNA and mRNA expression data from TCGA using maximum edge-weighted matching algorithms |
| 260 | |b BMC, |c 2019-08-01T00:00:00Z. | ||
| 500 | |a 10.1186/s12920-019-0562-z | ||
| 500 | |a 1755-8794 | ||
| 520 | |a Abstract Background microRNA (miRNA) is a short RNA (~ 22 nt) that regulates gene expression at the posttranscriptional level. Aberration of miRNA expressions could affect their targeting mRNAs involved in cancer-related signaling pathways. We conduct clustering analysis of miRNA and mRNA using expression data from the Cancer Genome Atlas (TCGA). We combine the Hungarian algorithm and blossom algorithm in graph theory. Data analysis is done using programming language R and Python. Methods We first quantify edge-weights of the miRNA-mRNA pairs by combining their expression correlation coefficient in tumor (T_CC) and correlation coefficient in normal (N_CC). We thereby introduce a bipartite graph partition procedure to identify cluster candidates. Specifically, we propose six weight formulas to quantify the change of miRNA-mRNA expression T_CC relative to N_CC, and apply the traditional hierarchical clustering to subjectively evaluate the different weight formulas of miRNA-mRNA pairs. Among these six different weight formulas, we choose the optimal one, which we define as the integrated mean value weights, to represent the connections between miRNA and mRNAs. Then the Hungarian algorithm and the blossom algorithm are employed on the miRNA-mRNA bipartite graph to passively determine the clusters. The combination of Hungarian and the blossom algorithms is dubbed maximum weighted merger method (MWMM). Results MWMM identifies clusters of different sizes that meet the mathematical criterion that internal connections inside a cluster are relatively denser than external connections outside the cluster and biological criterion that the intra-cluster Gene Ontology (GO) term similarities are larger than the inter-cluster GO term similarities. MWMM is developed using breast invasive carcinoma (BRCA) as training data set, but can also applies to other cancer type data sets. MWMM shows advantage in GO term similarity in most cancer types, when compared to other algorithms. Conclusions miRNAs and mRNAs that are likely to be affected by common underlying causal factors in cancer can be clustered by MWMM approach and potentially be used as candidate biomarkers for different cancer types and provide clues for targets of precision medicine in cancer treatment. | ||
| 546 | |a EN | ||
| 690 | |a Cancer | ||
| 690 | |a miRNAs and mRNAs | ||
| 690 | |a Gene regulation | ||
| 690 | |a BRCA | ||
| 690 | |a TCGA | ||
| 690 | |a Bipartite graph | ||
| 690 | |a Internal medicine | ||
| 690 | |a RC31-1245 | ||
| 690 | |a Genetics | ||
| 690 | |a QH426-470 | ||
| 655 | 7 | |a article |2 local | |
| 786 | 0 | |n BMC Medical Genomics, Vol 12, Iss 1, Pp 1-27 (2019) | |
| 787 | 0 | |n http://link.springer.com/article/10.1186/s12920-019-0562-z | |
| 787 | 0 | |n https://doaj.org/toc/1755-8794 | |
| 856 | 4 | 1 | |u https://doaj.org/article/b00cad032f8d4b4a90efe06b66e4d2b3 |z Connect to this object online. |