Copy number analysis (GISTIC2)
View Report | There were 66 tumor samples used in this analysis: 14 significant arm-level results, 2 significant focal amplifications, and 0 significant focal deletions were found.

Correlation between aggregated molecular cancer subtypes and selected clinical features
View Report | Testing the association between subtypes identified by 8 different clustering approaches and 7 clinical features across 25 patients, no significant finding detected with P value < 0.05 and Q value < 0.25.

Correlation between copy number variation genes (focal) and selected clinical features
View Report | Testing the association between copy number variation 2 arm-level results and 7 clinical features across 25 patients, no significant finding detected with Q value < 0.25.

Correlation between copy number variations of arm-level result and selected clinical features
View Report | Testing the association between copy number variation 43 arm-level results and 7 clinical features across 25 patients, no significant finding detected with Q value < 0.25.

Correlation between gene methylation status and clinical features
View Report | Testing the association between 19761 genes and 4 clinical features across 22 samples, statistically thresholded by Q value < 0.05, 2 clinical features related to at least one genes.

Correlation between miRseq expression and clinical features
View Report | Testing the association between 469 genes and 5 clinical features across 25 samples, statistically thresholded by Q value < 0.05, 1 clinical feature related to at least one genes.

Correlation between mRNAseq expression and clinical features
View Report | Testing the association between 17843 genes and 5 clinical features across 25 samples, statistically thresholded by Q value < 0.05, 2 clinical features related to at least one genes.

Clustering of copy number data by focal peak region with log2 ratio: consensus NMF
View Report | The most robust consensus NMF clustering of 66 samples using the 2 copy number focal regions was identified for k = 3 clusters. We computed the clustering for k = 2 to k = 8 and used the cophenetic correlation coefficient to determine the best solution.

Clustering of Methylation: consensus NMF
View Report | The 13852 most variable methylated genes were selected based on variation. The variation cutoff are set for each tumor type empirically by fitting a bimodal distriution. For genes with multiple methylation probes, we chose the most variable one to represent the gene. Consensus NMF clustering of 66 samples and 13852 genes identified 3 subtypes with the stability of the clustering increasing for k = 2 to k = 8 and the average silhouette width calculation for selecting the robust clusters.

Clustering of miRseq mature expression: consensus hierarchical
View Report | We filtered the data to 149 most variable miRs. Consensus average linkage hierarchical clustering of 66 samples and 149 miRs identified 6 subtypes with the stability of the clustering increasing for k = 2 to k = 8 and the average silhouette width calculation for selecting the robust clusters.

Clustering of miRseq mature expression: consensus NMF
View Report | We filtered the data to 149 most variable miRs. Consensus NMF clustering of 66 samples and 149 miRs identified 3 subtypes with the stability of the clustering increasing for k = 2 to k = 8 and the average silhouette width calculation for selecting the robust clusters.

Clustering of miRseq precursor expression: consensus hierarchical
View Report | We filtered the data to 150 most variable miRs. Consensus average linkage hierarchical clustering of 66 samples and 150 miRs identified 2 subtypes with the stability of the clustering increasing for k = 2 to k = 8 and the average silhouette width calculation for selecting the robust clusters.

Clustering of miRseq precursor expression: consensus NMF
View Report | We filtered the data to 150 most variable miRs. Consensus NMF clustering of 66 samples and 150 miRs identified 3 subtypes with the stability of the clustering increasing for k = 2 to k = 8 and the average silhouette width calculation for selecting the robust clusters.

Clustering of mRNAseq gene expression: consensus hierarchical
View Report | The 1500 most variable genes were selected. Consensus average linkage hierarchical clustering of 66 samples and 1500 genes identified 5 subtypes with the stability of the clustering increasing for k = 2 to k = 8 and the average silhouette width calculation for selecting the robust clusters.

Clustering of mRNAseq gene expression: consensus NMF
View Report | The most robust consensus NMF clustering of 66 samples using the 1500 most variable genes was identified for k = 4 clusters. We computed the clustering for k = 2 to k = 8 and used the cophenetic correlation coefficient to determine the best solution.

PARADIGM pathway analysis of mRNASeq expression and copy number data
View Report | There were 17 significant pathways identified in this analysis.

PARADIGM pathway analysis of mRNASeq expression data
View Report | There were 16 significant pathways identified in this analysis.

Correlation between copy number variation genes and molecular subtypes
View Report | Testing the association between copy number variation of 2 peak regions and 8 molecular subtypes across 66 patients, 4 significant findings detected with Q value < 0.25.

Correlation between copy number variations of arm-level result and molecular subtypes
View Report | Testing the association between copy number variation 57 arm-level results and 8 molecular subtypes across 66 patients, 49 significant findings detected with Q value < 0.25.

Correlation between mRNA expression and DNA methylation
View Report | The top 25 correlated methylation probes per gene are displayed. Total number of matched samples = 66. Number of gene expression samples = 66. Number of methylation samples = 66.

Correlations between copy number and mRNAseq expression
View Report | The correlation coefficients in 10, 20, 30, 40, 50, 60, 70, 80, 90 percentiles are 847.7, 2097, 2735, 3338, 3913.5, 4502, 5106, 5746, 6503.3, respectively.