GSEA Class2: Canonical Pathways enriched in each subtypes of mRNAseq_cNMF in CESC-TP
Cervical Squamous Cell Carcinoma and Endocervical Adenocarcinoma (Primary solid tumor)
21 August 2015  |  analyses__2015_08_21
Maintainer Information
Citation Information
doi:10.7908/C1CR5SJN
Maintained by Juok Cho (Broad Institute)
Cite as Broad Institute TCGA Genome Data Analysis Center (2015): GSEA Class2: Canonical Pathways enriched in each subtypes of mRNAseq_cNMF in CESC-TP. Broad Institute of MIT and Harvard. doi:10.7908/C1CR5SJN
Overview
Introduction

This pipeline performs Gene Set Enrichment Analysis (GSEA) using The Broad Institute GSEA tool with MSigDB - Class2: Canonical Pathways gene sets. For a given phenotype subtype, it shows what pathways are significantly enriched in each subtype by comparing gene expression profiles between subtypes. Here, the phenotype is mRNAseq_cNMF subtypes in CESC-TP. This pipeline has the following features:

  1. For each subtype, calculates enrichment scores (ES) using signal to noise (S2N) that checks similarity between subtypes in expression level then calculates p values through permutation test.

  2. Lists pathways significantly enriched in each phenotype subtype and their enrichment scores (ES).

  3. Lists top 20 core genes enriched in each significant gene set and their enrichment scores (ES).

  4. Checks if the top core genes are up-regulated or down-regulated.

  5. Checks if the top core genes are high expressed or low expressed.

  6. Checks if the top core genes are significantly differently expressed genes.

Summary

Table 1.  Get Full Table basic data info

basic data info
Number of Gene Sets: 192
Number of samples: 304
Original number of Gene Sets: 404
Maximum gene set size: 388

Table 2.  Get Full Table pheno data info

phenotype info
pheno.type: 1 - 4 :[ clus1 ] 58
pheno.type: 2 - 4 :[ clus2 ] 105
pheno.type: 3 - 4 :[ clus3 ] 69
pheno.type: 4 - 4 :[ clus4 ] 72

For the expression subtypes of 18187 genes in 305 samples, GSEA found enriched gene sets in each cluster using 304 gene sets in MSigDB canonical pathways. Top enriched gene sets are listed as below.

  • clus1

    • Top enriched gene sets are BIOCARTA NFAT PATHWAY, BIOCARTA WNT PATHWAY, KEGG CYSTEINE AND METHIONINE METABOLISM, KEGG SPLICEOSOME, KEGG OOCYTE MEIOSIS, KEGG CARDIAC MUSCLE CONTRACTION, KEGG VASCULAR SMOOTH MUSCLE CONTRACTION, KEGG WNT SIGNALING PATHWAY, KEGG HEDGEHOG SIGNALING PATHWAY, KEGG TGF BETA SIGNALING PATHWAY

    • And common core enriched genes are PRKACB, ADCY1, ADCY2, ADCY5, EGF, GUCY1A2, GUCY1A3, GUCY1B3, PDGFB, PDGFC

  • clus2

    • Top enriched gene sets are BIOCARTA EGF PATHWAY, BIOCARTA FAS PATHWAY, BIOCARTA FCER1 PATHWAY, BIOCARTA HIVNEF PATHWAY, BIOCARTA IL2RB PATHWAY, BIOCARTA GSK3 PATHWAY, BIOCARTA RACCYCD PATHWAY, BIOCARTA MAPK PATHWAY, BIOCARTA TNFR1 PATHWAY, BIOCARTA TOLL PATHWAY

    • And common core enriched genes are CDKN1A, CHUK, IKBKB, IKBKG, NFKB1, NFKBIA, PIK3CA, PIK3R1, RB1, CASP3

  • clus3

    • Top enriched gene sets are BIOCARTA RHO PATHWAY, KEGG PURINE METABOLISM, KEGG ALANINE ASPARTATE AND GLUTAMATE METABOLISM, KEGG VALINE LEUCINE AND ISOLEUCINE DEGRADATION, KEGG HISTIDINE METABOLISM, KEGG TYROSINE METABOLISM, KEGG SELENOAMINO ACID METABOLISM, KEGG N GLYCAN BIOSYNTHESIS, KEGG O GLYCAN BIOSYNTHESIS, KEGG INOSITOL PHOSPHATE METABOLISM

    • And common core enriched genes are ATP6V0A4, ATP6V0E2, ATP6V1B1, ATP6V1C2, ATP6V1G2, CFTR, KCNQ1, KDELR3, MUC2, PRKCA

  • clus4

    • Top enriched gene sets are BIOCARTA G1 PATHWAY, BIOCARTA INFLAM PATHWAY, BIOCARTA ERK PATHWAY, BIOCARTA INTEGRIN PATHWAY, BIOCARTA IL1R PATHWAY, KEGG PYRIMIDINE METABOLISM, KEGG AMINOACYL TRNA BIOSYNTHESIS, KEGG RIBOSOME, KEGG SPLICEOSOME, KEGG PROTEASOME

    • And common core enriched genes are IL1B, IL6, CASP1, CCL5, IL18, TNF, ACTN1, ACTN3, BCAR1, CAV1

Results
Subtype clus1 enriched pathways

Table 3.  Get Full Table This table shows top 10 pathways which are significantly enriched in cluster clus1. It displays only significant gene sets satisfying nom.p.val.threshold (-1), fwer.p.val.threshold (-1) , fdr.q.val.threshold (0.25) and the default table is sorted by Normalized Enrichment Score (NES). Further details on NES statistics, please visit The Broad GSEA website.

GeneSet(GS) Size(#genes) genes.ES.table ES NES NOM.p.val FDR.q.val FWER.p.val Tag.. Gene.. Signal FDR..median. glob.p.val
BIOCARTA NFAT PATHWAY 49 genes.ES.table 0.52 1.6 0.018 0.82 0.76 0.29 0.17 0.24 0.51 0.28
BIOCARTA WNT PATHWAY 25 genes.ES.table 0.42 1.5 0.087 0.49 0.94 0.08 0.008 0.08 0.38 0.12
KEGG CYSTEINE AND METHIONINE METABOLISM 32 genes.ES.table 0.48 1.5 0.035 0.63 0.91 0.25 0.15 0.21 0.46 0.19
KEGG SPLICEOSOME 125 genes.ES.table 0.35 1.5 0.12 0.52 0.94 0.78 0.54 0.36 0.39 0.13
KEGG OOCYTE MEIOSIS 105 genes.ES.table 0.32 1.4 0.078 0.49 0.95 0.14 0.19 0.12 0.38 0.12
KEGG CARDIAC MUSCLE CONTRACTION 64 genes.ES.table 0.53 1.6 0.01 0.69 0.77 0.28 0.17 0.24 0.44 0.22
KEGG VASCULAR SMOOTH MUSCLE CONTRACTION 106 genes.ES.table 0.55 1.6 0.027 1 0.75 0.4 0.18 0.32 0.65 0.36
KEGG WNT SIGNALING PATHWAY 144 genes.ES.table 0.4 1.4 0.047 0.5 0.96 0.24 0.18 0.2 0.4 0.11
KEGG HEDGEHOG SIGNALING PATHWAY 52 genes.ES.table 0.51 1.4 0.057 0.47 0.96 0.4 0.16 0.34 0.37 0.085
KEGG TGF BETA SIGNALING PATHWAY 83 genes.ES.table 0.47 1.5 0.028 0.56 0.91 0.42 0.26 0.32 0.41 0.16
genes ES table in pathway: BIOCARTA NFAT PATHWAY

Table S1.  Get Full Table This table shows a Running Enrichment Score (RES) of each gene in this pathway, that is, the enrichment score at this point in the ranked list of genes. All genes are ranked by Signal-to-Noise (S2N), a measure of similarity as default and are used to obtain ES matrix of all genes. In this way, GSEA tool uses expression pattern of not only overlapped genes but also not-overlapped genes to produce ES matrix.

Rank GENE SYMBOL DESC LIST.LOC S2N RES CORE_ENRICHMENT
1 TUBB2B TUBB2B TUBB2B 154 0.44 0.032 YES
2 PLCB4 PLCB4 PLCB4 189 0.42 0.07 YES
3 PDGFD PDGFD PDGFD 219 0.41 0.11 YES
4 GUCY1B3 GUCY1B3 GUCY1B3 290 0.39 0.14 YES
5 GUCY1A3 GUCY1A3 GUCY1A3 437 0.36 0.16 YES
6 GRM1 GRM1 GRM1 454 0.36 0.2 YES
7 ADCY5 ADCY5 ADCY5 668 0.32 0.22 YES
8 ADCY1 ADCY1 ADCY1 849 0.3 0.23 YES
9 ADCY2 ADCY2 ADCY2 894 0.29 0.26 YES
10 HTR2A HTR2A HTR2A 896 0.29 0.28 YES
11 PRKG1 PRKG1 PRKG1 920 0.29 0.31 YES
12 GUCY1A2 GUCY1A2 GUCY1A2 1036 0.28 0.33 YES
13 PDGFRA PDGFRA PDGFRA 1127 0.27 0.35 YES
14 TUBA1A TUBA1A TUBA1A 1208 0.26 0.37 YES
15 GJA1 GJA1 GJA1 1256 0.26 0.39 YES
16 TUBB1 TUBB1 TUBB1 1265 0.26 0.42 YES
17 HTR2B HTR2B HTR2B 1332 0.25 0.44 YES
18 PDGFC PDGFC PDGFC 1350 0.25 0.46 YES
19 EGF EGF EGF 1808 0.21 0.45 YES
20 TUBA3E TUBA3E TUBA3E 2102 0.19 0.45 YES
21 PDGFRB PDGFRB PDGFRB 2319 0.18 0.46 YES
22 PLCB1 PLCB1 PLCB1 2564 0.17 0.46 YES
23 PRKACB PRKACB PRKACB 2852 0.15 0.46 YES
24 PDGFB PDGFB PDGFB 2889 0.15 0.47 YES
25 PRKX PRKX PRKX 2977 0.14 0.48 YES
26 DRD2 DRD2 DRD2 3033 0.14 0.49 YES
27 DRD1 DRD1 DRD1 3137 0.14 0.5 YES
28 TUBA8 TUBA8 TUBA8 3194 0.13 0.51 YES
29 TUBA3D TUBA3D TUBA3D 3302 0.13 0.51 YES
30 TUBB4 TUBB4 TUBB4 3384 0.13 0.52 YES
31 HTR2C HTR2C HTR2C 3392 0.13 0.53 YES
32 TUBB3 TUBB3 TUBB3 3421 0.12 0.54 YES
33 TUBB8 TUBB8 TUBB8 3840 0.11 0.53 NO
34 PRKG2 PRKG2 PRKG2 4080 0.1 0.52 NO
35 TUBAL3 TUBAL3 TUBAL3 4104 0.1 0.53 NO
36 ADRB1 ADRB1 ADRB1 4601 0.086 0.51 NO
37 ADCY4 ADCY4 ADCY4 4702 0.084 0.52 NO
38 GNAS GNAS GNAS 5167 0.073 0.5 NO
39 TUBB TUBB TUBB 5685 0.062 0.47 NO
40 PRKCG PRKCG PRKCG 5897 0.059 0.47 NO
41 KRAS KRAS KRAS 6398 0.051 0.44 NO
42 TUBA3C TUBA3C TUBA3C 6464 0.05 0.45 NO
43 TUBB4Q TUBB4Q TUBB4Q 6561 0.049 0.44 NO
44 TUBA1B TUBA1B TUBA1B 7119 0.042 0.42 NO
45 TUBB2A TUBB2A TUBB2A 7186 0.041 0.42 NO
46 MAPK1 MAPK1 MAPK1 7627 0.036 0.4 NO
47 SOS1 SOS1 SOS1 8459 0.027 0.35 NO
48 GRM5 GRM5 GRM5 8739 0.024 0.34 NO
49 LPAR1 LPAR1 LPAR1 9132 0.02 0.32 NO
50 MAP2K5 MAP2K5 MAP2K5 9531 0.016 0.3 NO
51 RAF1 RAF1 RAF1 10070 0.01 0.27 NO
52 GRB2 GRB2 GRB2 10226 0.0085 0.26 NO
53 GNAI2 GNAI2 GNAI2 10280 0.0079 0.26 NO
54 CSNK1D CSNK1D CSNK1D 10541 0.005 0.25 NO
55 NRAS NRAS NRAS 10873 0.0016 0.23 NO
56 HRAS HRAS HRAS 11390 -0.0043 0.2 NO
57 MAP3K2 MAP3K2 MAP3K2 11485 -0.0056 0.2 NO
58 MAPK7 MAPK7 MAPK7 11671 -0.0078 0.19 NO
59 TUBB2C TUBB2C TUBB2C 11886 -0.01 0.18 NO
60 CDK1 CDK1 CDK1 11903 -0.01 0.18 NO
61 ITPR1 ITPR1 ITPR1 11942 -0.011 0.18 NO
62 MAP2K2 MAP2K2 MAP2K2 12197 -0.014 0.16 NO
63 GNA11 GNA11 GNA11 12252 -0.015 0.16 NO
64 GNAI3 GNAI3 GNAI3 12458 -0.018 0.15 NO
65 PRKCA PRKCA PRKCA 12571 -0.019 0.15 NO
66 PRKACA PRKACA PRKACA 12641 -0.02 0.14 NO
67 TUBA1C TUBA1C TUBA1C 13125 -0.028 0.12 NO
68 SRC SRC SRC 13153 -0.028 0.12 NO
69 ADCY6 ADCY6 ADCY6 13817 -0.041 0.09 NO
70 GNAQ GNAQ GNAQ 14074 -0.047 0.08 NO
71 SOS2 SOS2 SOS2 14218 -0.05 0.077 NO
72 PDGFA PDGFA PDGFA 14359 -0.053 0.074 NO
73 MAPK3 MAPK3 MAPK3 14457 -0.056 0.074 NO
74 MAP2K1 MAP2K1 MAP2K1 14637 -0.061 0.07 NO
75 ITPR3 ITPR3 ITPR3 14946 -0.07 0.059 NO
76 ITPR2 ITPR2 ITPR2 14986 -0.072 0.064 NO
77 PLCB3 PLCB3 PLCB3 15034 -0.073 0.068 NO
78 TUBB6 TUBB6 TUBB6 15283 -0.083 0.062 NO
79 PLCB2 PLCB2 PLCB2 15313 -0.084 0.068 NO
80 GNAI1 GNAI1 GNAI1 15615 -0.096 0.061 NO
81 TJP1 TJP1 TJP1 15681 -0.098 0.066 NO
82 PRKCB PRKCB PRKCB 15840 -0.11 0.067 NO
83 ADCY9 ADCY9 ADCY9 15904 -0.11 0.074 NO
84 ADCY7 ADCY7 ADCY7 16291 -0.13 0.065 NO
85 TUBA4A TUBA4A TUBA4A 17178 -0.19 0.034 NO
86 EGFR EGFR EGFR 17398 -0.22 0.043 NO

Figure S1.  Get High-res Image This plot shows mRNAseq_cNMF expression data heatmap (on the left) a RunningEnrichmentScore(RES) plot (on the top right) and a Signal2Noise(S2N) plot (on the bottom right) of genes in the pathway: BIOCARTA NFAT PATHWAY.

Figure S2.  Get High-res Image For the top 5 core enriched genes in the pathway: BIOCARTA NFAT PATHWAY, this volcano plot shows how much they are up/down-regulated and significant. The significance was calculated by empirical bayesian fit

genes ES table in pathway: BIOCARTA WNT PATHWAY

Table S2.  Get Full Table This table shows a Running Enrichment Score (RES) of each gene in this pathway, that is, the enrichment score at this point in the ranked list of genes. All genes are ranked by Signal-to-Noise (S2N), a measure of similarity as default and are used to obtain ES matrix of all genes. In this way, GSEA tool uses expression pattern of not only overlapped genes but also not-overlapped genes to produce ES matrix.

Rank GENE SYMBOL DESC LIST.LOC S2N RES CORE_ENRICHMENT
1 FGF13 FGF13 FGF13 34 0.56 0.06 YES
2 FGFR1 FGFR1 FGFR1 125 0.45 0.11 YES
3 PDGFD PDGFD PDGFD 219 0.41 0.15 YES
4 FGF14 FGF14 FGF14 408 0.36 0.18 YES
5 FGF18 FGF18 FGF18 565 0.34 0.21 YES
6 FGF12 FGF12 FGF12 619 0.33 0.24 YES
7 IGF1 IGF1 IGF1 625 0.33 0.28 YES
8 AKT3 AKT3 AKT3 665 0.32 0.31 YES
9 FGF9 FGF9 FGF9 791 0.3 0.34 YES
10 HGF HGF HGF 870 0.3 0.36 YES
11 PDGFRA PDGFRA PDGFRA 1127 0.27 0.38 YES
12 FGF7 FGF7 FGF7 1244 0.26 0.4 YES
13 PDGFC PDGFC PDGFC 1350 0.25 0.42 YES
14 FGF2 FGF2 FGF2 1351 0.25 0.45 YES
15 EGF EGF EGF 1808 0.21 0.45 YES
16 PIK3R1 PIK3R1 PIK3R1 1834 0.21 0.47 YES
17 FGF17 FGF17 FGF17 1857 0.21 0.5 YES
18 FGF1 FGF1 FGF1 2021 0.2 0.51 YES
19 FGF19 FGF19 FGF19 2279 0.18 0.52 YES
20 PDGFRB PDGFRB PDGFRB 2319 0.18 0.53 YES
21 PDGFB PDGFB PDGFB 2889 0.15 0.52 YES
22 FGF10 FGF10 FGF10 2903 0.15 0.54 YES
23 BRAF BRAF BRAF 3088 0.14 0.54 YES
24 MITF MITF MITF 3298 0.13 0.54 YES
25 PIK3R3 PIK3R3 PIK3R3 3607 0.12 0.54 NO
26 FGF8 FGF8 FGF8 3876 0.11 0.54 NO
27 E2F3 E2F3 E2F3 4707 0.084 0.5 NO
28 CDK4 CDK4 CDK4 4799 0.081 0.5 NO
29 KRAS KRAS KRAS 6398 0.051 0.42 NO
30 TP53 TP53 TP53 7361 0.039 0.37 NO
31 MAPK1 MAPK1 MAPK1 7627 0.036 0.36 NO
32 PIK3R2 PIK3R2 PIK3R2 8069 0.031 0.34 NO
33 PIK3CA PIK3CA PIK3CA 8365 0.028 0.33 NO
34 AKT1 AKT1 AKT1 9331 0.018 0.28 NO
35 PIK3CB PIK3CB PIK3CB 9676 0.014 0.26 NO
36 BAD BAD BAD 9903 0.012 0.25 NO
37 RAF1 RAF1 RAF1 10070 0.01 0.24 NO
38 AKT2 AKT2 AKT2 10426 0.0061 0.22 NO
39 CDK6 CDK6 CDK6 10741 0.0031 0.2 NO
40 NRAS NRAS NRAS 10873 0.0016 0.2 NO
41 FGF22 FGF22 FGF22 10986 0.00039 0.19 NO
42 HRAS HRAS HRAS 11390 -0.0043 0.17 NO
43 CDH1 CDH1 CDH1 12062 -0.012 0.13 NO
44 MAP2K2 MAP2K2 MAP2K2 12197 -0.014 0.13 NO
45 MDM2 MDM2 MDM2 12628 -0.02 0.11 NO
46 ARAF ARAF ARAF 13681 -0.038 0.052 NO
47 CCND1 CCND1 CCND1 13720 -0.039 0.055 NO
48 IGF1R IGF1R IGF1R 13907 -0.043 0.049 NO
49 FGF5 FGF5 FGF5 14006 -0.045 0.049 NO
50 E2F2 E2F2 E2F2 14103 -0.048 0.049 NO
51 PDGFA PDGFA PDGFA 14359 -0.053 0.041 NO
52 MAPK3 MAPK3 MAPK3 14457 -0.056 0.042 NO
53 MAP2K1 MAP2K1 MAP2K1 14637 -0.061 0.039 NO
54 PIK3R5 PIK3R5 PIK3R5 14806 -0.066 0.037 NO
55 PTEN PTEN PTEN 14909 -0.069 0.039 NO
56 RB1 RB1 RB1 15252 -0.081 0.029 NO
57 CDKN1A CDKN1A CDKN1A 15794 -0.1 0.011 NO
58 PIK3CG PIK3CG PIK3CG 16589 -0.15 -0.017 NO
59 PIK3CD PIK3CD PIK3CD 16853 -0.16 -0.013 NO
60 MET MET MET 16896 -0.17 0.0039 NO
61 FGF11 FGF11 FGF11 16965 -0.18 0.02 NO
62 CDKN2A CDKN2A CDKN2A 17200 -0.2 0.029 NO
63 EGFR EGFR EGFR 17398 -0.22 0.043 NO

Figure S3.  Get High-res Image This plot shows mRNAseq_cNMF expression data heatmap (on the left) a RunningEnrichmentScore(RES) plot (on the top right) and a Signal2Noise(S2N) plot (on the bottom right) of genes in the pathway: BIOCARTA WNT PATHWAY.

Figure S4.  Get High-res Image For the top 5 core enriched genes in the pathway: BIOCARTA WNT PATHWAY, this volcano plot shows how much they are up/down-regulated and significant. The significance was calculated by empirical bayesian fit

genes ES table in pathway: KEGG CYSTEINE AND METHIONINE METABOLISM

Table S3.  Get Full Table This table shows a Running Enrichment Score (RES) of each gene in this pathway, that is, the enrichment score at this point in the ranked list of genes. All genes are ranked by Signal-to-Noise (S2N), a measure of similarity as default and are used to obtain ES matrix of all genes. In this way, GSEA tool uses expression pattern of not only overlapped genes but also not-overlapped genes to produce ES matrix.

Rank GENE SYMBOL DESC LIST.LOC S2N RES CORE_ENRICHMENT
1 PLCB4 PLCB4 PLCB4 189 0.42 0.019 YES
2 KCNMA1 KCNMA1 KCNMA1 241 0.4 0.044 YES
3 KCNMB2 KCNMB2 KCNMB2 281 0.39 0.069 YES
4 GUCY1B3 GUCY1B3 GUCY1B3 290 0.39 0.096 YES
5 MYH11 MYH11 MYH11 334 0.38 0.12 YES
6 ACTG2 ACTG2 ACTG2 373 0.37 0.14 YES
7 PLA2G5 PLA2G5 PLA2G5 376 0.37 0.17 YES
8 GUCY1A3 GUCY1A3 GUCY1A3 437 0.36 0.19 YES
9 NPR2 NPR2 NPR2 484 0.35 0.21 YES
10 KCNMB4 KCNMB4 KCNMB4 499 0.35 0.24 YES
11 ADCY5 ADCY5 ADCY5 668 0.32 0.25 YES
12 KCNMB1 KCNMB1 KCNMB1 723 0.31 0.27 YES
13 PPP1R14A PPP1R14A PPP1R14A 755 0.31 0.29 YES
14 ADCY1 ADCY1 ADCY1 849 0.3 0.3 YES
15 ADCY2 ADCY2 ADCY2 894 0.29 0.32 YES
16 PRKG1 PRKG1 PRKG1 920 0.29 0.34 YES
17 ACTA2 ACTA2 ACTA2 968 0.28 0.36 YES
18 EDNRA EDNRA EDNRA 988 0.28 0.37 YES
19 MYLK MYLK MYLK 1014 0.28 0.39 YES
20 AGTR1 AGTR1 AGTR1 1034 0.28 0.41 YES
21 GUCY1A2 GUCY1A2 GUCY1A2 1036 0.28 0.43 YES
22 CACNA1C CACNA1C CACNA1C 1456 0.24 0.42 YES
23 MRVI1 MRVI1 MRVI1 1662 0.22 0.43 YES
24 MYLK3 MYLK3 MYLK3 1793 0.21 0.44 YES
25 MYL9 MYL9 MYL9 1960 0.2 0.44 YES
26 RAMP2 RAMP2 RAMP2 1966 0.2 0.45 YES
27 CALCRL CALCRL CALCRL 2156 0.19 0.46 YES
28 CACNA1D CACNA1D CACNA1D 2266 0.18 0.46 YES
29 PTGIR PTGIR PTGIR 2431 0.17 0.47 YES
30 ADORA2A ADORA2A ADORA2A 2562 0.17 0.47 YES
31 PLCB1 PLCB1 PLCB1 2564 0.17 0.48 YES
32 ADRA1B ADRA1B ADRA1B 2579 0.16 0.49 YES
33 MYLK2 MYLK2 MYLK2 2764 0.15 0.49 YES
34 PRKACB PRKACB PRKACB 2852 0.15 0.5 YES
35 PLA2G6 PLA2G6 PLA2G6 2891 0.15 0.51 YES
36 AVPR1A AVPR1A AVPR1A 2966 0.14 0.51 YES
37 PRKX PRKX PRKX 2977 0.14 0.52 YES
38 CALD1 CALD1 CALD1 3076 0.14 0.53 YES
39 BRAF BRAF BRAF 3088 0.14 0.54 YES
40 RAMP3 RAMP3 RAMP3 3154 0.14 0.54 YES
41 CALML6 CALML6 CALML6 3290 0.13 0.54 YES
42 PLA2G2A PLA2G2A PLA2G2A 3364 0.13 0.55 YES
43 PLA2G1B PLA2G1B PLA2G1B 3661 0.12 0.54 NO
44 MYL6B MYL6B MYL6B 3844 0.11 0.54 NO
45 ADRA1D ADRA1D ADRA1D 4405 0.092 0.51 NO
46 ADCY4 ADCY4 ADCY4 4702 0.084 0.5 NO
47 GNAS GNAS GNAS 5167 0.073 0.48 NO
48 PRKCG PRKCG PRKCG 5897 0.059 0.44 NO
49 ROCK1 ROCK1 ROCK1 5962 0.058 0.44 NO
50 PLA2G4A PLA2G4A PLA2G4A 5977 0.058 0.45 NO
51 KCNMB3 KCNMB3 KCNMB3 6071 0.056 0.45 NO
52 PLA2G12A PLA2G12A PLA2G12A 6140 0.055 0.45 NO
53 GNA12 GNA12 GNA12 6338 0.052 0.44 NO
54 PLA2G3 PLA2G3 PLA2G3 6538 0.049 0.43 NO
55 RAMP1 RAMP1 RAMP1 7070 0.042 0.4 NO
56 GNA13 GNA13 GNA13 7305 0.04 0.4 NO
57 PPP1R12A PPP1R12A PPP1R12A 7336 0.039 0.4 NO
58 PPP1R12B PPP1R12B PPP1R12B 7488 0.038 0.39 NO
59 CALML5 CALML5 CALML5 7560 0.037 0.39 NO
60 MAPK1 MAPK1 MAPK1 7627 0.036 0.39 NO
61 PPP1CC PPP1CC PPP1CC 7710 0.035 0.39 NO
62 CALM2 CALM2 CALM2 8275 0.029 0.36 NO
63 NPR1 NPR1 NPR1 9161 0.02 0.31 NO
64 PPP1CB PPP1CB PPP1CB 10057 0.01 0.26 NO
65 RAF1 RAF1 RAF1 10070 0.01 0.26 NO
66 CYP4A22 CYP4A22 CYP4A22 10279 0.0079 0.25 NO
67 CALM1 CALM1 CALM1 10411 0.0063 0.24 NO
68 CALML3 CALML3 CALML3 10778 0.0025 0.22 NO
69 CALM3 CALM3 CALM3 10845 0.0019 0.22 NO
70 ARHGEF11 ARHGEF11 ARHGEF11 11326 -0.0036 0.19 NO
71 MYL6 MYL6 MYL6 11656 -0.0077 0.18 NO
72 ITPR1 ITPR1 ITPR1 11942 -0.011 0.16 NO
73 MAP2K2 MAP2K2 MAP2K2 12197 -0.014 0.15 NO
74 GNA11 GNA11 GNA11 12252 -0.015 0.14 NO
75 ARHGEF12 ARHGEF12 ARHGEF12 12511 -0.018 0.13 NO
76 PRKCA PRKCA PRKCA 12571 -0.019 0.13 NO
77 CACNA1F CACNA1F CACNA1F 12607 -0.02 0.13 NO
78 JMJD7-PLA2G4B JMJD7-PLA2G4B JMJD7-PLA2G4B 12620 -0.02 0.13 NO
79 PRKACA PRKACA PRKACA 12641 -0.02 0.13 NO
80 RHOA RHOA RHOA 12953 -0.025 0.12 NO
81 PPP1CA PPP1CA PPP1CA 12956 -0.025 0.12 NO
82 PRKCE PRKCE PRKCE 13298 -0.031 0.1 NO
83 ROCK2 ROCK2 ROCK2 13510 -0.035 0.09 NO
84 CYP4A11 CYP4A11 CYP4A11 13590 -0.036 0.089 NO
85 ARAF ARAF ARAF 13681 -0.038 0.086 NO
86 ADCY6 ADCY6 ADCY6 13817 -0.041 0.082 NO
87 PRKCQ PRKCQ PRKCQ 13986 -0.045 0.075 NO
88 GNAQ GNAQ GNAQ 14074 -0.047 0.074 NO
89 PLA2G10 PLA2G10 PLA2G10 14409 -0.055 0.059 NO
90 MAPK3 MAPK3 MAPK3 14457 -0.056 0.06 NO
91 ARHGEF1 ARHGEF1 ARHGEF1 14506 -0.057 0.062 NO
92 MAP2K1 MAP2K1 MAP2K1 14637 -0.061 0.059 NO
93 ITPR3 ITPR3 ITPR3 14946 -0.07 0.047 NO
94 ITPR2 ITPR2 ITPR2 14986 -0.072 0.049 NO
95 PLCB3 PLCB3 PLCB3 15034 -0.073 0.052 NO
96 PRKCD PRKCD PRKCD 15077 -0.075 0.055 NO
97 PLCB2 PLCB2 PLCB2 15313 -0.084 0.048 NO
98 PRKCH PRKCH PRKCH 15446 -0.089 0.046 NO
99 PLA2G2D PLA2G2D PLA2G2D 15617 -0.096 0.044 NO
100 AVPR1B AVPR1B AVPR1B 15731 -0.1 0.044 NO
101 PRKCB PRKCB PRKCB 15840 -0.11 0.046 NO
102 ADCY9 ADCY9 ADCY9 15904 -0.11 0.05 NO
103 ADCY7 ADCY7 ADCY7 16291 -0.13 0.038 NO
104 ADORA2B ADORA2B ADORA2B 17377 -0.22 -0.0073 NO
105 PLA2G2F PLA2G2F PLA2G2F 17883 -0.32 -0.013 NO
106 PLA2G4E PLA2G4E PLA2G4E 18061 -0.41 0.006 NO

Figure S5.  Get High-res Image This plot shows mRNAseq_cNMF expression data heatmap (on the left) a RunningEnrichmentScore(RES) plot (on the top right) and a Signal2Noise(S2N) plot (on the bottom right) of genes in the pathway: KEGG CYSTEINE AND METHIONINE METABOLISM.

Figure S6.  Get High-res Image For the top 5 core enriched genes in the pathway: KEGG CYSTEINE AND METHIONINE METABOLISM, this volcano plot shows how much they are up/down-regulated and significant. The significance was calculated by empirical bayesian fit

genes ES table in pathway: KEGG SPLICEOSOME

Table S4.  Get Full Table This table shows a Running Enrichment Score (RES) of each gene in this pathway, that is, the enrichment score at this point in the ranked list of genes. All genes are ranked by Signal-to-Noise (S2N), a measure of similarity as default and are used to obtain ES matrix of all genes. In this way, GSEA tool uses expression pattern of not only overlapped genes but also not-overlapped genes to produce ES matrix.

Rank GENE SYMBOL DESC LIST.LOC S2N RES CORE_ENRICHMENT
1 IGF1 IGF1 IGF1 625 0.33 0.036 YES
2 NFATC4 NFATC4 NFATC4 833 0.3 0.09 YES
3 NKX2-5 NKX2-5 NKX2-5 1015 0.28 0.14 YES
4 PRKAR2B PRKAR2B PRKAR2B 1079 0.27 0.2 YES
5 HAND2 HAND2 HAND2 1174 0.26 0.25 YES
6 HAND1 HAND1 HAND1 1336 0.25 0.29 YES
7 FGF2 FGF2 FGF2 1351 0.25 0.35 YES
8 PIK3R1 PIK3R1 PIK3R1 1834 0.21 0.37 YES
9 CAMK4 CAMK4 CAMK4 1859 0.21 0.41 YES
10 GATA4 GATA4 GATA4 2016 0.2 0.44 YES
11 CAMK1G CAMK1G CAMK1G 2425 0.17 0.46 YES
12 AGT AGT AGT 2810 0.15 0.47 YES
13 PRKACB PRKACB PRKACB 2852 0.15 0.5 YES
14 ACTA1 ACTA1 ACTA1 3041 0.14 0.52 YES
15 CAMK1 CAMK1 CAMK1 5443 0.067 0.4 NO
16 NFATC1 NFATC1 NFATC1 6346 0.052 0.37 NO
17 FKBP1A FKBP1A FKBP1A 6660 0.048 0.36 NO
18 PRKAR1B PRKAR1B PRKAR1B 7158 0.041 0.34 NO
19 GSK3B GSK3B GSK3B 7254 0.04 0.34 NO
20 MAPK1 MAPK1 MAPK1 7627 0.036 0.33 NO
21 NFATC3 NFATC3 NFATC3 7717 0.035 0.33 NO
22 PPP3CB PPP3CB PPP3CB 7981 0.032 0.33 NO
23 CALM2 CALM2 CALM2 8275 0.029 0.32 NO
24 PIK3CA PIK3CA PIK3CA 8365 0.028 0.32 NO
25 CREBBP CREBBP CREBBP 8447 0.027 0.32 NO
26 LIF LIF LIF 8569 0.026 0.32 NO
27 NPPA NPPA NPPA 8604 0.026 0.32 NO
28 AKT1 AKT1 AKT1 9331 0.018 0.29 NO
29 RAF1 RAF1 RAF1 10070 0.01 0.25 NO
30 MAPK8 MAPK8 MAPK8 10373 0.0067 0.23 NO
31 CALM1 CALM1 CALM1 10411 0.0063 0.23 NO
32 PRKAR1A PRKAR1A PRKAR1A 10699 0.0034 0.22 NO
33 CALM3 CALM3 CALM3 10845 0.0019 0.21 NO
34 PPP3CA PPP3CA PPP3CA 10974 0.00049 0.2 NO
35 HRAS HRAS HRAS 11390 -0.0043 0.18 NO
36 CTF1 CTF1 CTF1 11452 -0.0052 0.18 NO
37 MAPK14 MAPK14 MAPK14 11462 -0.0054 0.18 NO
38 CALR CALR CALR 11725 -0.0084 0.16 NO
39 EDN1 EDN1 EDN1 12035 -0.012 0.15 NO
40 CSNK1A1 CSNK1A1 CSNK1A1 12756 -0.022 0.12 NO
41 RPS6KB1 RPS6KB1 RPS6KB1 12919 -0.024 0.11 NO
42 F2 F2 F2 13347 -0.032 0.096 NO
43 PPP3CC PPP3CC PPP3CC 13944 -0.044 0.072 NO
44 MAPK3 MAPK3 MAPK3 14457 -0.056 0.056 NO
45 MAP2K1 MAP2K1 MAP2K1 14637 -0.061 0.06 NO
46 PRKAR2A PRKAR2A PRKAR2A 15632 -0.096 0.026 NO
47 NFATC2 NFATC2 NFATC2 16039 -0.12 0.028 NO
48 PIK3CG PIK3CG PIK3CG 16589 -0.15 0.03 NO
49 HBEGF HBEGF HBEGF 17662 -0.26 0.028 NO

Figure S7.  Get High-res Image This plot shows mRNAseq_cNMF expression data heatmap (on the left) a RunningEnrichmentScore(RES) plot (on the top right) and a Signal2Noise(S2N) plot (on the bottom right) of genes in the pathway: KEGG SPLICEOSOME.

Figure S8.  Get High-res Image For the top 5 core enriched genes in the pathway: KEGG SPLICEOSOME, this volcano plot shows how much they are up/down-regulated and significant. The significance was calculated by empirical bayesian fit

genes ES table in pathway: KEGG OOCYTE MEIOSIS

Table S5.  Get Full Table This table shows a Running Enrichment Score (RES) of each gene in this pathway, that is, the enrichment score at this point in the ranked list of genes. All genes are ranked by Signal-to-Noise (S2N), a measure of similarity as default and are used to obtain ES matrix of all genes. In this way, GSEA tool uses expression pattern of not only overlapped genes but also not-overlapped genes to produce ES matrix.

Rank GENE SYMBOL DESC LIST.LOC S2N RES CORE_ENRICHMENT
1 CACNB4 CACNB4 CACNB4 127 0.45 0.064 YES
2 CACNA2D2 CACNA2D2 CACNA2D2 320 0.38 0.11 YES
3 ATP1B2 ATP1B2 ATP1B2 496 0.35 0.16 YES
4 COX4I2 COX4I2 COX4I2 592 0.33 0.2 YES
5 COX7A1 COX7A1 COX7A1 1128 0.27 0.22 YES
6 CACNA2D3 CACNA2D3 CACNA2D3 1165 0.26 0.26 YES
7 CACNA2D1 CACNA2D1 CACNA2D1 1169 0.26 0.3 YES
8 ACTC1 ACTC1 ACTC1 1203 0.26 0.34 YES
9 CACNA1C CACNA1C CACNA1C 1456 0.24 0.36 YES
10 CACNB2 CACNB2 CACNB2 1763 0.22 0.38 YES
11 MYL3 MYL3 MYL3 1823 0.21 0.41 YES
12 RYR2 RYR2 RYR2 2107 0.19 0.42 YES
13 CACNA1D CACNA1D CACNA1D 2266 0.18 0.44 YES
14 SLC8A1 SLC8A1 SLC8A1 2286 0.18 0.47 YES
15 COX8C COX8C COX8C 2452 0.17 0.49 YES
16 ATP1A2 ATP1A2 ATP1A2 2681 0.16 0.5 YES
17 CACNG4 CACNG4 CACNG4 2760 0.16 0.52 YES
18 MYH6 MYH6 MYH6 3028 0.14 0.53 YES
19 TPM1 TPM1 TPM1 4595 0.086 0.46 NO
20 ATP1A3 ATP1A3 ATP1A3 5453 0.067 0.42 NO
21 CACNB3 CACNB3 CACNB3 5760 0.061 0.41 NO
22 TPM2 TPM2 TPM2 5891 0.059 0.41 NO
23 CACNG1 CACNG1 CACNG1 6162 0.054 0.41 NO
24 COX7A2L COX7A2L COX7A2L 6240 0.053 0.41 NO
25 CACNG6 CACNG6 CACNG6 6983 0.044 0.38 NO
26 ATP1A4 ATP1A4 ATP1A4 7218 0.041 0.37 NO
27 COX7A2 COX7A2 COX7A2 7536 0.037 0.36 NO
28 UQCR10 UQCR10 UQCR10 8003 0.032 0.34 NO
29 UQCRFS1 UQCRFS1 UQCRFS1 8376 0.028 0.32 NO
30 COX6A1 COX6A1 COX6A1 8677 0.025 0.31 NO
31 UQCRB UQCRB UQCRB 8932 0.022 0.3 NO
32 COX7C COX7C COX7C 9234 0.019 0.28 NO
33 COX6C COX6C COX6C 9284 0.018 0.28 NO
34 MYH7 MYH7 MYH7 9413 0.017 0.28 NO
35 COX6A2 COX6A2 COX6A2 9448 0.017 0.28 NO
36 CYC1 CYC1 CYC1 9800 0.013 0.26 NO
37 UQCR11 UQCR11 UQCR11 10071 0.01 0.25 NO
38 UQCRH UQCRH UQCRH 10078 0.01 0.25 NO
39 UQCRHL UQCRHL UQCRHL 10197 0.0088 0.25 NO
40 COX6B1 COX6B1 COX6B1 10264 0.0081 0.24 NO
41 ATP1A1 ATP1A1 ATP1A1 10742 0.0031 0.22 NO
42 FXYD2 FXYD2 FXYD2 10924 0.00094 0.21 NO
43 COX5B COX5B COX5B 10925 0.00093 0.21 NO
44 CACNB1 CACNB1 CACNB1 11037 -0.00013 0.2 NO
45 COX7B COX7B COX7B 11623 -0.0073 0.17 NO
46 COX8A COX8A COX8A 11855 -0.0099 0.16 NO
47 COX4I1 COX4I1 COX4I1 11916 -0.011 0.16 NO
48 SLC9A6 SLC9A6 SLC9A6 11975 -0.011 0.16 NO
49 UQCRQ UQCRQ UQCRQ 11991 -0.011 0.16 NO
50 ATP1B3 ATP1B3 ATP1B3 12345 -0.016 0.14 NO
51 COX5A COX5A COX5A 12349 -0.016 0.14 NO
52 UQCRC1 UQCRC1 UQCRC1 12417 -0.017 0.14 NO
53 CACNA1F CACNA1F CACNA1F 12607 -0.02 0.13 NO
54 TPM3 TPM3 TPM3 13381 -0.032 0.097 NO
55 ATP1B1 ATP1B1 ATP1B1 13394 -0.032 0.1 NO
56 MYL2 MYL2 MYL2 13756 -0.04 0.087 NO
57 ATP2A2 ATP2A2 ATP2A2 13940 -0.044 0.084 NO
58 TNNT2 TNNT2 TNNT2 14041 -0.046 0.086 NO
59 TPM4 TPM4 TPM4 15073 -0.075 0.041 NO
60 SLC9A1 SLC9A1 SLC9A1 15104 -0.076 0.051 NO
61 TNNI3 TNNI3 TNNI3 15423 -0.088 0.047 NO
62 TNNC1 TNNC1 TNNC1 16226 -0.13 0.022 NO
63 CACNA2D4 CACNA2D4 CACNA2D4 16891 -0.17 0.012 NO
64 COX6B2 COX6B2 COX6B2 17999 -0.37 0.0094 NO

Figure S9.  Get High-res Image This plot shows mRNAseq_cNMF expression data heatmap (on the left) a RunningEnrichmentScore(RES) plot (on the top right) and a Signal2Noise(S2N) plot (on the bottom right) of genes in the pathway: KEGG OOCYTE MEIOSIS.

Figure S10.  Get High-res Image For the top 5 core enriched genes in the pathway: KEGG OOCYTE MEIOSIS, this volcano plot shows how much they are up/down-regulated and significant. The significance was calculated by empirical bayesian fit

genes ES table in pathway: KEGG CARDIAC MUSCLE CONTRACTION

Table S6.  Get Full Table This table shows a Running Enrichment Score (RES) of each gene in this pathway, that is, the enrichment score at this point in the ranked list of genes. All genes are ranked by Signal-to-Noise (S2N), a measure of similarity as default and are used to obtain ES matrix of all genes. In this way, GSEA tool uses expression pattern of not only overlapped genes but also not-overlapped genes to produce ES matrix.

Rank GENE SYMBOL DESC LIST.LOC S2N RES CORE_ENRICHMENT
1 IGF1 IGF1 IGF1 625 0.33 0.019 YES
2 AKT3 AKT3 AKT3 665 0.32 0.068 YES
3 ADCY5 ADCY5 ADCY5 668 0.32 0.12 YES
4 CPEB1 CPEB1 CPEB1 796 0.3 0.16 YES
5 ADCY1 ADCY1 ADCY1 849 0.3 0.21 YES
6 ADCY2 ADCY2 ADCY2 894 0.29 0.25 YES
7 RPS6KA6 RPS6KA6 RPS6KA6 1365 0.25 0.27 YES
8 MAPK12 MAPK12 MAPK12 1707 0.22 0.28 YES
9 PIK3R1 PIK3R1 PIK3R1 1834 0.21 0.31 YES
10 SPDYA SPDYA SPDYA 2426 0.17 0.31 YES
11 PRKACB PRKACB PRKACB 2852 0.15 0.31 YES
12 PDE3A PDE3A PDE3A 2931 0.14 0.33 YES
13 PRKX PRKX PRKX 2977 0.14 0.35 YES
14 PGR PGR PGR 3020 0.14 0.37 YES
15 BRAF BRAF BRAF 3088 0.14 0.39 YES
16 PIK3R3 PIK3R3 PIK3R3 3607 0.12 0.38 NO
17 PDE3B PDE3B PDE3B 3970 0.11 0.38 NO
18 CCNB3 CCNB3 CCNB3 4607 0.086 0.36 NO
19 ADCY4 ADCY4 ADCY4 4702 0.084 0.36 NO
20 MAD2L2 MAD2L2 MAD2L2 5135 0.074 0.35 NO
21 CDC26 CDC26 CDC26 5975 0.058 0.32 NO
22 BUB1 BUB1 BUB1 6339 0.052 0.3 NO
23 KRAS KRAS KRAS 6398 0.051 0.31 NO
24 ANAPC1 ANAPC1 ANAPC1 6479 0.05 0.31 NO
25 ANAPC11 ANAPC11 ANAPC11 6653 0.048 0.31 NO
26 ANAPC13 ANAPC13 ANAPC13 6842 0.045 0.31 NO
27 HSP90AA1 HSP90AA1 HSP90AA1 6951 0.044 0.31 NO
28 MAPK1 MAPK1 MAPK1 7627 0.036 0.28 NO
29 MAD2L1 MAD2L1 MAD2L1 7631 0.036 0.28 NO
30 MAPK10 MAPK10 MAPK10 7702 0.035 0.28 NO
31 ANAPC5 ANAPC5 ANAPC5 7820 0.034 0.28 NO
32 PIK3R2 PIK3R2 PIK3R2 8069 0.031 0.28 NO
33 CCNA1 CCNA1 CCNA1 8252 0.029 0.27 NO
34 PIK3CA PIK3CA PIK3CA 8365 0.028 0.27 NO
35 ANAPC10 ANAPC10 ANAPC10 8620 0.025 0.26 NO
36 ANAPC7 ANAPC7 ANAPC7 8764 0.024 0.25 NO
37 ANAPC4 ANAPC4 ANAPC4 8879 0.022 0.25 NO
38 FZR1 FZR1 FZR1 8956 0.022 0.25 NO
39 CDC27 CDC27 CDC27 9059 0.021 0.25 NO
40 AKT1 AKT1 AKT1 9331 0.018 0.24 NO
41 CDC25A CDC25A CDC25A 9521 0.016 0.23 NO
42 PIK3CB PIK3CB PIK3CB 9676 0.014 0.22 NO
43 RAF1 RAF1 RAF1 10070 0.01 0.2 NO
44 CDC25C CDC25C CDC25C 10142 0.0094 0.2 NO
45 GNAI2 GNAI2 GNAI2 10280 0.0079 0.19 NO
46 MAPK9 MAPK9 MAPK9 10351 0.007 0.19 NO
47 MAPK8 MAPK8 MAPK8 10373 0.0067 0.19 NO
48 AKT2 AKT2 AKT2 10426 0.0061 0.19 NO
49 CCNB2 CCNB2 CCNB2 10996 0.00031 0.16 NO
50 ANAPC2 ANAPC2 ANAPC2 11203 -0.0021 0.15 NO
51 PLK1 PLK1 PLK1 11359 -0.004 0.14 NO
52 CDC23 CDC23 CDC23 11408 -0.0046 0.14 NO
53 MAPK14 MAPK14 MAPK14 11462 -0.0054 0.14 NO
54 CDK2 CDK2 CDK2 11553 -0.0064 0.13 NO
55 CCNB1 CCNB1 CCNB1 11756 -0.0088 0.12 NO
56 CDK1 CDK1 CDK1 11903 -0.01 0.12 NO
57 CDC16 CDC16 CDC16 12145 -0.013 0.1 NO
58 MAPK11 MAPK11 MAPK11 12161 -0.013 0.1 NO
59 GNAI3 GNAI3 GNAI3 12458 -0.018 0.092 NO
60 PRKACA PRKACA PRKACA 12641 -0.02 0.085 NO
61 CCNA2 CCNA2 CCNA2 13046 -0.026 0.067 NO
62 SPDYC SPDYC SPDYC 13061 -0.027 0.07 NO
63 ADCY3 ADCY3 ADCY3 13196 -0.029 0.068 NO
64 RPS6KA3 RPS6KA3 RPS6KA3 13535 -0.035 0.055 NO
65 ARAF ARAF ARAF 13681 -0.038 0.053 NO
66 CDC25B CDC25B CDC25B 13786 -0.04 0.054 NO
67 ADCY6 ADCY6 ADCY6 13817 -0.041 0.059 NO
68 IGF1R IGF1R IGF1R 13907 -0.043 0.061 NO
69 RPS6KA2 RPS6KA2 RPS6KA2 14161 -0.049 0.055 NO
70 PKMYT1 PKMYT1 PKMYT1 14392 -0.054 0.051 NO
71 MAPK3 MAPK3 MAPK3 14457 -0.056 0.056 NO
72 MAP2K1 MAP2K1 MAP2K1 14637 -0.061 0.057 NO
73 PIK3R5 PIK3R5 PIK3R5 14806 -0.066 0.058 NO
74 RPS6KA1 RPS6KA1 RPS6KA1 14874 -0.068 0.065 NO
75 MAPK13 MAPK13 MAPK13 14900 -0.068 0.075 NO
76 GNAI1 GNAI1 GNAI1 15615 -0.096 0.051 NO
77 ADCY9 ADCY9 ADCY9 15904 -0.11 0.053 NO
78 ADCY7 ADCY7 ADCY7 16291 -0.13 0.053 NO
79 PIK3CG PIK3CG PIK3CG 16589 -0.15 0.06 NO
80 PIK3CD PIK3CD PIK3CD 16853 -0.16 0.073 NO

Figure S11.  Get High-res Image This plot shows mRNAseq_cNMF expression data heatmap (on the left) a RunningEnrichmentScore(RES) plot (on the top right) and a Signal2Noise(S2N) plot (on the bottom right) of genes in the pathway: KEGG CARDIAC MUSCLE CONTRACTION.

Figure S12.  Get High-res Image For the top 5 core enriched genes in the pathway: KEGG CARDIAC MUSCLE CONTRACTION, this volcano plot shows how much they are up/down-regulated and significant. The significance was calculated by empirical bayesian fit

genes ES table in pathway: KEGG VASCULAR SMOOTH MUSCLE CONTRACTION

Table S7.  Get Full Table This table shows a Running Enrichment Score (RES) of each gene in this pathway, that is, the enrichment score at this point in the ranked list of genes. All genes are ranked by Signal-to-Noise (S2N), a measure of similarity as default and are used to obtain ES matrix of all genes. In this way, GSEA tool uses expression pattern of not only overlapped genes but also not-overlapped genes to produce ES matrix.

Rank GENE SYMBOL DESC LIST.LOC S2N RES CORE_ENRICHMENT
1 FGFR1 FGFR1 FGFR1 125 0.45 0.048 YES
2 LEF1 LEF1 LEF1 146 0.44 0.1 YES
3 PDGFD PDGFD PDGFD 219 0.41 0.15 YES
4 IGF1 IGF1 IGF1 625 0.33 0.16 YES
5 AKT3 AKT3 AKT3 665 0.32 0.2 YES
6 BCL2 BCL2 BCL2 930 0.29 0.22 YES
7 PDGFRA PDGFRA PDGFRA 1127 0.27 0.24 YES
8 PDGFC PDGFC PDGFC 1350 0.25 0.26 YES
9 AR AR AR 1428 0.24 0.29 YES
10 TCF7L1 TCF7L1 TCF7L1 1610 0.23 0.31 YES
11 EGF EGF EGF 1808 0.21 0.32 YES
12 PIK3R1 PIK3R1 PIK3R1 1834 0.21 0.34 YES
13 CREB5 CREB5 CREB5 1986 0.2 0.36 YES
14 FGFR2 FGFR2 FGFR2 1990 0.2 0.39 YES
15 PDGFRB PDGFRB PDGFRB 2319 0.18 0.39 YES
16 PDGFB PDGFB PDGFB 2889 0.15 0.38 YES
17 BRAF BRAF BRAF 3088 0.14 0.38 YES
18 SRD5A2 SRD5A2 SRD5A2 3293 0.13 0.39 YES
19 INSRR INSRR INSRR 3316 0.13 0.4 YES
20 PIK3R3 PIK3R3 PIK3R3 3607 0.12 0.4 NO
21 TCF7 TCF7 TCF7 3833 0.11 0.4 NO
22 E2F3 E2F3 E2F3 4707 0.084 0.36 NO
23 CREB3L2 CREB3L2 CREB3L2 4915 0.079 0.36 NO
24 CDKN1B CDKN1B CDKN1B 5294 0.07 0.35 NO
25 CTNNB1 CTNNB1 CTNNB1 5757 0.061 0.33 NO
26 KRAS KRAS KRAS 6398 0.051 0.3 NO
27 HSP90AA1 HSP90AA1 HSP90AA1 6951 0.044 0.28 NO
28 CREB1 CREB1 CREB1 6997 0.043 0.28 NO
29 GSK3B GSK3B GSK3B 7254 0.04 0.27 NO
30 TP53 TP53 TP53 7361 0.039 0.27 NO
31 E2F1 E2F1 E2F1 7409 0.039 0.27 NO
32 CREB3L4 CREB3L4 CREB3L4 7517 0.037 0.27 NO
33 HSP90B1 HSP90B1 HSP90B1 7623 0.036 0.27 NO
34 MAPK1 MAPK1 MAPK1 7627 0.036 0.27 NO
35 EP300 EP300 EP300 7872 0.033 0.26 NO
36 PIK3R2 PIK3R2 PIK3R2 8069 0.031 0.26 NO
37 ATF4 ATF4 ATF4 8123 0.03 0.26 NO
38 CREB3L1 CREB3L1 CREB3L1 8149 0.03 0.26 NO
39 PIK3CA PIK3CA PIK3CA 8365 0.028 0.25 NO
40 CREBBP CREBBP CREBBP 8447 0.027 0.25 NO
41 SOS1 SOS1 SOS1 8459 0.027 0.25 NO
42 KLK3 KLK3 KLK3 8615 0.025 0.25 NO
43 CREB3 CREB3 CREB3 8831 0.023 0.24 NO
44 CCNE2 CCNE2 CCNE2 9142 0.02 0.22 NO
45 AKT1 AKT1 AKT1 9331 0.018 0.22 NO
46 PIK3CB PIK3CB PIK3CB 9676 0.014 0.2 NO
47 BAD BAD BAD 9903 0.012 0.19 NO
48 RAF1 RAF1 RAF1 10070 0.01 0.18 NO
49 MTOR MTOR MTOR 10214 0.0086 0.17 NO
50 GRB2 GRB2 GRB2 10226 0.0085 0.17 NO
51 TCF7L2 TCF7L2 TCF7L2 10258 0.0082 0.17 NO
52 AKT2 AKT2 AKT2 10426 0.0061 0.16 NO
53 CCNE1 CCNE1 CCNE1 10591 0.0046 0.16 NO
54 NRAS NRAS NRAS 10873 0.0016 0.14 NO
55 HRAS HRAS HRAS 11390 -0.0043 0.11 NO
56 CDK2 CDK2 CDK2 11553 -0.0064 0.1 NO
57 FOXO1 FOXO1 FOXO1 12067 -0.012 0.076 NO
58 MAP2K2 MAP2K2 MAP2K2 12197 -0.014 0.071 NO
59 CASP9 CASP9 CASP9 12264 -0.015 0.069 NO
60 IKBKB IKBKB IKBKB 12405 -0.017 0.064 NO
61 MDM2 MDM2 MDM2 12628 -0.02 0.054 NO
62 RELA RELA RELA 12674 -0.02 0.054 NO
63 PDPK1 PDPK1 PDPK1 13142 -0.028 0.031 NO
64 IKBKG IKBKG IKBKG 13396 -0.032 0.021 NO
65 ARAF ARAF ARAF 13681 -0.038 0.01 NO
66 CCND1 CCND1 CCND1 13720 -0.039 0.013 NO
67 CHUK CHUK CHUK 13893 -0.043 0.0086 NO
68 IGF1R IGF1R IGF1R 13907 -0.043 0.013 NO
69 E2F2 E2F2 E2F2 14103 -0.048 0.0082 NO
70 NKX3-1 NKX3-1 NKX3-1 14112 -0.048 0.014 NO
71 SOS2 SOS2 SOS2 14218 -0.05 0.014 NO
72 GSTP1 GSTP1 GSTP1 14278 -0.052 0.017 NO
73 PDGFA PDGFA PDGFA 14359 -0.053 0.019 NO
74 MAPK3 MAPK3 MAPK3 14457 -0.056 0.021 NO
75 NFKBIA NFKBIA NFKBIA 14606 -0.06 0.02 NO
76 MAP2K1 MAP2K1 MAP2K1 14637 -0.061 0.026 NO
77 PIK3R5 PIK3R5 PIK3R5 14806 -0.066 0.024 NO
78 PTEN PTEN PTEN 14909 -0.069 0.027 NO
79 ERBB2 ERBB2 ERBB2 15111 -0.076 0.025 NO
80 RB1 RB1 RB1 15252 -0.081 0.028 NO
81 NFKB1 NFKB1 NFKB1 15268 -0.082 0.037 NO
82 CREB3L3 CREB3L3 CREB3L3 15400 -0.087 0.04 NO
83 CDKN1A CDKN1A CDKN1A 15794 -0.1 0.031 NO
84 PIK3CG PIK3CG PIK3CG 16589 -0.15 0.0052 NO
85 PIK3CD PIK3CD PIK3CD 16853 -0.16 0.011 NO
86 EGFR EGFR EGFR 17398 -0.22 0.0079 NO
87 TGFA TGFA TGFA 17746 -0.28 0.023 NO

Figure S13.  Get High-res Image This plot shows mRNAseq_cNMF expression data heatmap (on the left) a RunningEnrichmentScore(RES) plot (on the top right) and a Signal2Noise(S2N) plot (on the bottom right) of genes in the pathway: KEGG VASCULAR SMOOTH MUSCLE CONTRACTION.

Figure S14.  Get High-res Image For the top 5 core enriched genes in the pathway: KEGG VASCULAR SMOOTH MUSCLE CONTRACTION, this volcano plot shows how much they are up/down-regulated and significant. The significance was calculated by empirical bayesian fit

genes ES table in pathway: KEGG WNT SIGNALING PATHWAY

Table S8.  Get Full Table This table shows a Running Enrichment Score (RES) of each gene in this pathway, that is, the enrichment score at this point in the ranked list of genes. All genes are ranked by Signal-to-Noise (S2N), a measure of similarity as default and are used to obtain ES matrix of all genes. In this way, GSEA tool uses expression pattern of not only overlapped genes but also not-overlapped genes to produce ES matrix.

Rank GENE SYMBOL DESC LIST.LOC S2N RES CORE_ENRICHMENT
1 POMC POMC POMC 17 0.58 0.05 YES
2 FZD3 FZD3 FZD3 84 0.48 0.088 YES
3 LEF1 LEF1 LEF1 146 0.44 0.12 YES
4 FZD7 FZD7 FZD7 168 0.43 0.16 YES
5 PLCB4 PLCB4 PLCB4 189 0.42 0.19 YES
6 KIT KIT KIT 233 0.4 0.23 YES
7 WNT6 WNT6 WNT6 493 0.35 0.24 YES
8 TYRP1 TYRP1 TYRP1 603 0.33 0.26 YES
9 ADCY5 ADCY5 ADCY5 668 0.32 0.29 YES
10 ADCY1 ADCY1 ADCY1 849 0.3 0.3 YES
11 ADCY2 ADCY2 ADCY2 894 0.29 0.33 YES
12 CAMK2B CAMK2B CAMK2B 1274 0.26 0.33 YES
13 WNT2 WNT2 WNT2 1305 0.25 0.35 YES
14 EDNRB EDNRB EDNRB 1321 0.25 0.37 YES
15 TCF7L1 TCF7L1 TCF7L1 1610 0.23 0.37 YES
16 WNT5B WNT5B WNT5B 1723 0.22 0.39 YES
17 GNAO1 GNAO1 GNAO1 1771 0.22 0.4 YES
18 FZD2 FZD2 FZD2 1785 0.22 0.42 YES
19 WNT5A WNT5A WNT5A 1819 0.21 0.44 YES
20 WNT11 WNT11 WNT11 2554 0.17 0.41 YES
21 PLCB1 PLCB1 PLCB1 2564 0.17 0.42 YES
22 WNT16 WNT16 WNT16 2685 0.16 0.43 YES
23 PRKACB PRKACB PRKACB 2852 0.15 0.44 YES
24 PRKX PRKX PRKX 2977 0.14 0.44 YES
25 FZD1 FZD1 FZD1 3057 0.14 0.45 YES
26 CALML6 CALML6 CALML6 3290 0.13 0.45 YES
27 FZD8 FZD8 FZD8 3297 0.13 0.46 YES
28 MITF MITF MITF 3298 0.13 0.47 YES
29 TCF7 TCF7 TCF7 3833 0.11 0.45 NO
30 WNT9B WNT9B WNT9B 3878 0.11 0.46 NO
31 DVL2 DVL2 DVL2 4025 0.1 0.46 NO
32 ADCY4 ADCY4 ADCY4 4702 0.084 0.43 NO
33 WNT10B WNT10B WNT10B 4859 0.08 0.43 NO
34 CREB3L2 CREB3L2 CREB3L2 4915 0.079 0.43 NO
35 GNAS GNAS GNAS 5167 0.073 0.42 NO
36 WNT2B WNT2B WNT2B 5263 0.071 0.42 NO
37 CTNNB1 CTNNB1 CTNNB1 5757 0.061 0.4 NO
38 PRKCG PRKCG PRKCG 5897 0.059 0.4 NO
39 KRAS KRAS KRAS 6398 0.051 0.38 NO
40 ASIP ASIP ASIP 6439 0.05 0.38 NO
41 WNT8B WNT8B WNT8B 6794 0.046 0.36 NO
42 CREB1 CREB1 CREB1 6997 0.043 0.35 NO
43 GSK3B GSK3B GSK3B 7254 0.04 0.34 NO
44 DVL3 DVL3 DVL3 7314 0.04 0.34 NO
45 CREB3L4 CREB3L4 CREB3L4 7517 0.037 0.34 NO
46 CALML5 CALML5 CALML5 7560 0.037 0.34 NO
47 MAPK1 MAPK1 MAPK1 7627 0.036 0.34 NO
48 EP300 EP300 EP300 7872 0.033 0.32 NO
49 CAMK2D CAMK2D CAMK2D 8111 0.031 0.32 NO
50 CREB3L1 CREB3L1 CREB3L1 8149 0.03 0.32 NO
51 CALM2 CALM2 CALM2 8275 0.029 0.31 NO
52 CREBBP CREBBP CREBBP 8447 0.027 0.3 NO
53 FZD10 FZD10 FZD10 8743 0.024 0.29 NO
54 CREB3 CREB3 CREB3 8831 0.023 0.29 NO
55 FZD6 FZD6 FZD6 9365 0.017 0.26 NO
56 FZD5 FZD5 FZD5 9595 0.015 0.25 NO
57 FZD4 FZD4 FZD4 9858 0.012 0.23 NO
58 KITLG KITLG KITLG 9899 0.012 0.23 NO
59 FZD9 FZD9 FZD9 9990 0.011 0.23 NO
60 RAF1 RAF1 RAF1 10070 0.01 0.22 NO
61 TCF7L2 TCF7L2 TCF7L2 10258 0.0082 0.22 NO
62 GNAI2 GNAI2 GNAI2 10280 0.0079 0.22 NO
63 CALM1 CALM1 CALM1 10411 0.0063 0.21 NO
64 CAMK2A CAMK2A CAMK2A 10679 0.0038 0.19 NO
65 CALML3 CALML3 CALML3 10778 0.0025 0.19 NO
66 CALM3 CALM3 CALM3 10845 0.0019 0.18 NO
67 NRAS NRAS NRAS 10873 0.0016 0.18 NO
68 HRAS HRAS HRAS 11390 -0.0043 0.16 NO
69 EDN1 EDN1 EDN1 12035 -0.012 0.12 NO
70 MAP2K2 MAP2K2 MAP2K2 12197 -0.014 0.11 NO
71 GNAI3 GNAI3 GNAI3 12458 -0.018 0.1 NO
72 PRKCA PRKCA PRKCA 12571 -0.019 0.096 NO
73 MC1R MC1R MC1R 12612 -0.02 0.096 NO
74 PRKACA PRKACA PRKACA 12641 -0.02 0.096 NO
75 ADCY6 ADCY6 ADCY6 13817 -0.041 0.034 NO
76 GNAQ GNAQ GNAQ 14074 -0.047 0.024 NO
77 MAPK3 MAPK3 MAPK3 14457 -0.056 0.008 NO
78 MAP2K1 MAP2K1 MAP2K1 14637 -0.061 0.0034 NO
79 DVL1 DVL1 DVL1 14717 -0.064 0.0046 NO
80 CAMK2G CAMK2G CAMK2G 14955 -0.07 -0.0025 NO
81 PLCB3 PLCB3 PLCB3 15034 -0.073 -0.00043 NO
82 PLCB2 PLCB2 PLCB2 15313 -0.084 -0.0086 NO
83 WNT3A WNT3A WNT3A 15328 -0.084 -0.002 NO
84 CREB3L3 CREB3L3 CREB3L3 15400 -0.087 0.0016 NO
85 WNT10A WNT10A WNT10A 15435 -0.088 0.0073 NO
86 GNAI1 GNAI1 GNAI1 15615 -0.096 0.0057 NO
87 PRKCB PRKCB PRKCB 15840 -0.11 0.0025 NO
88 WNT3 WNT3 WNT3 15842 -0.11 0.012 NO
89 ADCY9 ADCY9 ADCY9 15904 -0.11 0.018 NO
90 WNT1 WNT1 WNT1 16153 -0.12 0.015 NO
91 WNT4 WNT4 WNT4 16154 -0.12 0.025 NO
92 ADCY7 ADCY7 ADCY7 16291 -0.13 0.029 NO
93 WNT9A WNT9A WNT9A 16740 -0.16 0.018 NO
94 WNT7B WNT7B WNT7B 17705 -0.28 -0.012 NO
95 WNT7A WNT7A WNT7A 18086 -0.44 0.0046 NO

Figure S15.  Get High-res Image This plot shows mRNAseq_cNMF expression data heatmap (on the left) a RunningEnrichmentScore(RES) plot (on the top right) and a Signal2Noise(S2N) plot (on the bottom right) of genes in the pathway: KEGG WNT SIGNALING PATHWAY.

Figure S16.  Get High-res Image For the top 5 core enriched genes in the pathway: KEGG WNT SIGNALING PATHWAY, this volcano plot shows how much they are up/down-regulated and significant. The significance was calculated by empirical bayesian fit

genes ES table in pathway: KEGG HEDGEHOG SIGNALING PATHWAY

Table S9.  Get Full Table This table shows a Running Enrichment Score (RES) of each gene in this pathway, that is, the enrichment score at this point in the ranked list of genes. All genes are ranked by Signal-to-Noise (S2N), a measure of similarity as default and are used to obtain ES matrix of all genes. In this way, GSEA tool uses expression pattern of not only overlapped genes but also not-overlapped genes to produce ES matrix.

Rank GENE SYMBOL DESC LIST.LOC S2N RES CORE_ENRICHMENT
1 TRDMT1 TRDMT1 TRDMT1 238 0.4 0.1 YES
2 CDO1 CDO1 CDO1 358 0.38 0.2 YES
3 CBS CBS CBS 646 0.32 0.28 YES
4 BHMT BHMT BHMT 890 0.29 0.35 YES
5 CTH CTH CTH 1154 0.26 0.41 YES
6 LDHB LDHB LDHB 1661 0.22 0.45 YES
7 MAT1A MAT1A MAT1A 2434 0.17 0.46 YES
8 DNMT3B DNMT3B DNMT3B 2807 0.15 0.48 YES
9 DNMT3A DNMT3A DNMT3A 3499 0.12 0.48 NO
10 TAT TAT TAT 4364 0.093 0.46 NO
11 MTR MTR MTR 4451 0.09 0.48 NO
12 AHCY AHCY AHCY 4934 0.078 0.47 NO
13 APIP APIP APIP 5368 0.069 0.47 NO
14 LDHAL6A LDHAL6A LDHAL6A 8026 0.032 0.33 NO
15 ENOPH1 ENOPH1 ENOPH1 8583 0.026 0.31 NO
16 SMS SMS SMS 8784 0.024 0.3 NO
17 SRM SRM SRM 9730 0.014 0.26 NO
18 ADI1 ADI1 ADI1 9896 0.012 0.25 NO
19 AHCYL1 AHCYL1 AHCYL1 10043 0.01 0.24 NO
20 DNMT1 DNMT1 DNMT1 10453 0.0058 0.22 NO
21 SDS SDS SDS 10865 0.0018 0.2 NO
22 AHCYL2 AHCYL2 AHCYL2 11400 -0.0045 0.17 NO
23 AMD1 AMD1 AMD1 11568 -0.0066 0.17 NO
24 MAT2A MAT2A MAT2A 12239 -0.015 0.13 NO
25 MAT2B MAT2B MAT2B 12480 -0.018 0.12 NO
26 GOT2 GOT2 GOT2 12854 -0.023 0.11 NO
27 GOT1 GOT1 GOT1 12937 -0.025 0.11 NO
28 MPST MPST MPST 14379 -0.054 0.05 NO
29 MTAP MTAP MTAP 14405 -0.055 0.064 NO
30 LDHA LDHA LDHA 14887 -0.068 0.057 NO
31 IL4I1 IL4I1 IL4I1 15205 -0.079 0.062 NO
32 LDHAL6B LDHAL6B LDHAL6B 17954 -0.35 0.012 NO

Figure S17.  Get High-res Image This plot shows mRNAseq_cNMF expression data heatmap (on the left) a RunningEnrichmentScore(RES) plot (on the top right) and a Signal2Noise(S2N) plot (on the bottom right) of genes in the pathway: KEGG HEDGEHOG SIGNALING PATHWAY.

Figure S18.  Get High-res Image For the top 5 core enriched genes in the pathway: KEGG HEDGEHOG SIGNALING PATHWAY, this volcano plot shows how much they are up/down-regulated and significant. The significance was calculated by empirical bayesian fit

genes ES table in pathway: KEGG TGF BETA SIGNALING PATHWAY

Table S10.  Get Full Table This table shows a Running Enrichment Score (RES) of each gene in this pathway, that is, the enrichment score at this point in the ranked list of genes. All genes are ranked by Signal-to-Noise (S2N), a measure of similarity as default and are used to obtain ES matrix of all genes. In this way, GSEA tool uses expression pattern of not only overlapped genes but also not-overlapped genes to produce ES matrix.

Rank GENE SYMBOL DESC LIST.LOC S2N RES CORE_ENRICHMENT
1 THBS4 THBS4 THBS4 16 0.6 0.059 YES
2 ID4 ID4 ID4 91 0.48 0.1 YES
3 LEFTY2 LEFTY2 LEFTY2 291 0.39 0.13 YES
4 COMP COMP COMP 455 0.36 0.16 YES
5 GDF5 GDF5 GDF5 463 0.35 0.19 YES
6 SMAD9 SMAD9 SMAD9 830 0.3 0.2 YES
7 THBS2 THBS2 THBS2 864 0.3 0.23 YES
8 E2F5 E2F5 E2F5 934 0.29 0.26 YES
9 BMP6 BMP6 BMP6 1001 0.28 0.28 YES
10 CHRD CHRD CHRD 1013 0.28 0.31 YES
11 INHBB INHBB INHBB 1064 0.27 0.33 YES
12 BMP8A BMP8A BMP8A 1167 0.26 0.35 YES
13 BMP4 BMP4 BMP4 1486 0.24 0.36 YES
14 NODAL NODAL NODAL 1520 0.23 0.38 YES
15 DCN DCN DCN 1686 0.22 0.39 YES
16 INHBE INHBE INHBE 1820 0.21 0.41 YES
17 TGFB3 TGFB3 TGFB3 2138 0.19 0.41 YES
18 BMP7 BMP7 BMP7 2719 0.16 0.39 YES
19 LEFTY1 LEFTY1 LEFTY1 2753 0.16 0.41 YES
20 GDF6 GDF6 GDF6 2928 0.14 0.41 YES
21 ACVR2B ACVR2B ACVR2B 3121 0.14 0.41 YES
22 INHBC INHBC INHBC 3495 0.12 0.4 YES
23 GDF7 GDF7 GDF7 3703 0.12 0.4 YES
24 SMAD6 SMAD6 SMAD6 3743 0.11 0.42 YES
25 LTBP1 LTBP1 LTBP1 3851 0.11 0.42 YES
26 ACVR2A ACVR2A ACVR2A 3889 0.11 0.43 YES
27 SMAD4 SMAD4 SMAD4 3940 0.11 0.44 YES
28 INHBA INHBA INHBA 4079 0.1 0.44 YES
29 THBS1 THBS1 THBS1 4241 0.096 0.44 YES
30 FST FST FST 4263 0.096 0.45 YES
31 ID3 ID3 ID3 4296 0.095 0.46 YES
32 ZFYVE9 ZFYVE9 ZFYVE9 4433 0.091 0.46 YES
33 ID2 ID2 ID2 4499 0.089 0.46 YES
34 ACVRL1 ACVRL1 ACVRL1 4663 0.085 0.46 YES
35 ACVR1 ACVR1 ACVR1 4677 0.084 0.47 YES
36 SMAD5 SMAD5 SMAD5 4970 0.078 0.46 NO
37 TGFB2 TGFB2 TGFB2 5531 0.065 0.44 NO
38 SMURF2 SMURF2 SMURF2 5559 0.065 0.44 NO
39 SMAD7 SMAD7 SMAD7 5584 0.064 0.45 NO
40 THBS3 THBS3 THBS3 5660 0.063 0.45 NO
41 SKP1 SKP1 SKP1 5879 0.059 0.44 NO
42 BMPR2 BMPR2 BMPR2 5887 0.059 0.45 NO
43 ROCK1 ROCK1 ROCK1 5962 0.058 0.45 NO
44 SMAD1 SMAD1 SMAD1 6064 0.056 0.45 NO
45 CUL1 CUL1 CUL1 6356 0.052 0.44 NO
46 BMPR1B BMPR1B BMPR1B 6960 0.044 0.41 NO
47 MAPK1 MAPK1 MAPK1 7627 0.036 0.38 NO
48 EP300 EP300 EP300 7872 0.033 0.37 NO
49 RBX1 RBX1 RBX1 7979 0.032 0.36 NO
50 CREBBP CREBBP CREBBP 8447 0.027 0.34 NO
51 PPP2R1A PPP2R1A PPP2R1A 8451 0.027 0.34 NO
52 SMAD2 SMAD2 SMAD2 9293 0.018 0.3 NO
53 ZFYVE16 ZFYVE16 ZFYVE16 10089 0.01 0.26 NO
54 BMPR1A BMPR1A BMPR1A 10451 0.0058 0.24 NO
55 AMHR2 AMHR2 AMHR2 11215 -0.0022 0.2 NO
56 PPP2CA PPP2CA PPP2CA 11652 -0.0077 0.17 NO
57 TFDP1 TFDP1 TFDP1 11728 -0.0085 0.17 NO
58 RBL2 RBL2 RBL2 11866 -0.0099 0.16 NO
59 PPP2CB PPP2CB PPP2CB 11982 -0.011 0.16 NO
60 RBL1 RBL1 RBL1 12392 -0.017 0.14 NO
61 TGFBR1 TGFBR1 TGFBR1 12872 -0.024 0.11 NO
62 RPS6KB1 RPS6KB1 RPS6KB1 12919 -0.024 0.11 NO
63 RHOA RHOA RHOA 12953 -0.025 0.11 NO
64 TGFB1 TGFB1 TGFB1 12962 -0.025 0.11 NO
65 E2F4 E2F4 E2F4 13250 -0.03 0.1 NO
66 PITX2 PITX2 PITX2 13480 -0.034 0.092 NO
67 ROCK2 ROCK2 ROCK2 13510 -0.035 0.094 NO
68 BMP8B BMP8B BMP8B 13674 -0.038 0.089 NO
69 PPP2R1B PPP2R1B PPP2R1B 13835 -0.041 0.084 NO
70 SP1 SP1 SP1 14060 -0.046 0.076 NO
71 TGFBR2 TGFBR2 TGFBR2 14431 -0.055 0.062 NO
72 MAPK3 MAPK3 MAPK3 14457 -0.056 0.066 NO
73 SMURF1 SMURF1 SMURF1 14499 -0.057 0.069 NO
74 RPS6KB2 RPS6KB2 RPS6KB2 14607 -0.06 0.069 NO
75 AMH AMH AMH 15155 -0.078 0.047 NO
76 MYC MYC MYC 15228 -0.08 0.051 NO
77 ACVR1C ACVR1C ACVR1C 15819 -0.1 0.029 NO
78 BMP2 BMP2 BMP2 16293 -0.13 0.016 NO
79 IFNG IFNG IFNG 16468 -0.14 0.02 NO
80 SMAD3 SMAD3 SMAD3 16822 -0.16 0.017 NO
81 CDKN2B CDKN2B CDKN2B 17061 -0.18 0.022 NO
82 ID1 ID1 ID1 17157 -0.19 0.036 NO
83 TNF TNF TNF 17237 -0.2 0.052 NO

Figure S19.  Get High-res Image This plot shows mRNAseq_cNMF expression data heatmap (on the left) a RunningEnrichmentScore(RES) plot (on the top right) and a Signal2Noise(S2N) plot (on the bottom right) of genes in the pathway: KEGG TGF BETA SIGNALING PATHWAY.

Figure S20.  Get High-res Image For the top 5 core enriched genes in the pathway: KEGG TGF BETA SIGNALING PATHWAY, this volcano plot shows how much they are up/down-regulated and significant. The significance was calculated by empirical bayesian fit

Fold change

For the top enriched genes, if you want to check whether they are

Expression level

For the top enriched genes, if you want to check whether they are

An expression pattern of top(30%)/middle(30%)/low(30%) in this subtype against other subtypes is available in a heatmap

Significant gene list

For the top enriched genes, if you want to check whether they are

Subtype clus2 enriched pathways

Table 4.  Get Full Table This table shows top 10 pathways which are significantly enriched in cluster clus2. It displays only significant gene sets satisfying nom.p.val.threshold (-1), fwer.p.val.threshold (-1) , fdr.q.val.threshold (0.25) and the default table is sorted by Normalized Enrichment Score (NES). Further details on NES statistics, please visit The Broad GSEA website.

GeneSet(GS) Size(#genes) genes.ES.table ES NES NOM.p.val FDR.q.val FWER.p.val Tag.. Gene.. Signal FDR..median. glob.p.val
BIOCARTA EGF PATHWAY 30 genes.ES.table 0.51 1.6 0.034 0.6 0.72 0.6 0.31 0.42 0.38 0.18
BIOCARTA FAS PATHWAY 29 genes.ES.table 0.49 1.6 0.054 0.58 0.76 0.52 0.29 0.37 0.37 0.17
BIOCARTA FCER1 PATHWAY 37 genes.ES.table 0.52 1.6 0.05 0.55 0.78 0.49 0.28 0.35 0.36 0.15
BIOCARTA HIVNEF PATHWAY 57 genes.ES.table 0.36 1.5 0.12 0.53 0.93 0.68 0.39 0.42 0.4 0.13
BIOCARTA IL2RB PATHWAY 37 genes.ES.table 0.58 1.7 0.038 0.5 0.62 0.6 0.29 0.42 0.26 0.15
BIOCARTA GSK3 PATHWAY 26 genes.ES.table 0.51 1.5 0.057 0.57 0.91 0.54 0.23 0.42 0.41 0.15
BIOCARTA RACCYCD PATHWAY 25 genes.ES.table 0.5 1.9 0.012 0.53 0.2 0.48 0.29 0.34 0 0.16
BIOCARTA MAPK PATHWAY 86 genes.ES.table 0.35 1.6 0.073 0.6 0.84 0.44 0.29 0.31 0.4 0.18
BIOCARTA TNFR1 PATHWAY 28 genes.ES.table 0.51 1.8 0.0059 0.32 0.22 0.71 0.39 0.44 0 0.11
BIOCARTA TOLL PATHWAY 36 genes.ES.table 0.58 1.7 0.0077 0.45 0.5 0.61 0.28 0.44 0.21 0.14
genes ES table in pathway: BIOCARTA EGF PATHWAY

Table S11.  Get Full Table This table shows a Running Enrichment Score (RES) of each gene in this pathway, that is, the enrichment score at this point in the ranked list of genes. All genes are ranked by Signal-to-Noise (S2N), a measure of similarity as default and are used to obtain ES matrix of all genes. In this way, GSEA tool uses expression pattern of not only overlapped genes but also not-overlapped genes to produce ES matrix.

Rank GENE SYMBOL DESC LIST.LOC S2N RES CORE_ENRICHMENT
1 CDKN1A CDKN1A CDKN1A 2032 0.15 -0.001 YES
2 PIK3CA PIK3CA PIK3CA 2332 0.13 0.081 YES
3 PIK3R1 PIK3R1 PIK3R1 2798 0.11 0.14 YES
4 RAC1 RAC1 RAC1 3034 0.1 0.2 YES
5 NFKB1 NFKB1 NFKB1 3157 0.097 0.26 YES
6 RB1 RB1 RB1 3215 0.095 0.33 YES
7 NFKBIA NFKBIA NFKBIA 3299 0.091 0.4 YES
8 IKBKB IKBKB IKBKB 3819 0.075 0.42 YES
9 IKBKG IKBKG IKBKG 4329 0.062 0.44 YES
10 CHUK CHUK CHUK 4941 0.049 0.44 YES
11 CDK6 CDK6 CDK6 4961 0.049 0.48 YES
12 TFDP1 TFDP1 TFDP1 5219 0.044 0.5 YES
13 HRAS HRAS HRAS 5898 0.032 0.48 NO
14 RAF1 RAF1 RAF1 6475 0.024 0.47 NO
15 MAPK1 MAPK1 MAPK1 6533 0.023 0.48 NO
16 RELA RELA RELA 7514 0.01 0.44 NO
17 CDK2 CDK2 CDK2 8031 0.0036 0.41 NO
18 CCNE1 CCNE1 CCNE1 8422 -0.0012 0.39 NO
19 MAPK3 MAPK3 MAPK3 8658 -0.0045 0.38 NO
20 AKT1 AKT1 AKT1 9841 -0.019 0.33 NO
21 RHOA RHOA RHOA 10081 -0.022 0.33 NO
22 PAK1 PAK1 PAK1 10425 -0.027 0.34 NO
23 CDKN1B CDKN1B CDKN1B 11010 -0.035 0.33 NO
24 CDK4 CDK4 CDK4 11490 -0.042 0.33 NO
25 CCND1 CCND1 CCND1 11837 -0.047 0.35 NO

Figure S21.  Get High-res Image This plot shows mRNAseq_cNMF expression data heatmap (on the left) a RunningEnrichmentScore(RES) plot (on the top right) and a Signal2Noise(S2N) plot (on the bottom right) of genes in the pathway: BIOCARTA EGF PATHWAY.

Figure S22.  Get High-res Image For the top 5 core enriched genes in the pathway: BIOCARTA EGF PATHWAY, this volcano plot shows how much they are up/down-regulated and significant. The significance was calculated by empirical bayesian fit

genes ES table in pathway: BIOCARTA FAS PATHWAY

Table S12.  Get Full Table This table shows a Running Enrichment Score (RES) of each gene in this pathway, that is, the enrichment score at this point in the ranked list of genes. All genes are ranked by Signal-to-Noise (S2N), a measure of similarity as default and are used to obtain ES matrix of all genes. In this way, GSEA tool uses expression pattern of not only overlapped genes but also not-overlapped genes to produce ES matrix.

Rank GENE SYMBOL DESC LIST.LOC S2N RES CORE_ENRICHMENT
1 BAG4 BAG4 BAG4 2144 0.14 -0.0076 YES
2 MAP3K1 MAP3K1 MAP3K1 2185 0.14 0.099 YES
3 CRADD CRADD CRADD 2368 0.13 0.19 YES
4 RB1 RB1 RB1 3215 0.095 0.22 YES
5 JUN JUN JUN 3223 0.094 0.29 YES
6 CASP3 CASP3 CASP3 3867 0.074 0.31 YES
7 PAK2 PAK2 PAK2 4199 0.065 0.34 YES
8 MAP2K4 MAP2K4 MAP2K4 4445 0.06 0.38 YES
9 MAPK8 MAPK8 MAPK8 4862 0.05 0.39 YES
10 ARHGDIB ARHGDIB ARHGDIB 5088 0.046 0.42 YES
11 TRADD TRADD TRADD 5308 0.042 0.44 YES
12 TNF TNF TNF 5719 0.035 0.44 YES
13 CASP2 CASP2 CASP2 5732 0.035 0.47 YES
14 RIPK1 RIPK1 RIPK1 5947 0.031 0.48 YES
15 TNFRSF1A TNFRSF1A TNFRSF1A 6348 0.026 0.48 YES
16 LMNB2 LMNB2 LMNB2 6551 0.023 0.48 YES
17 DFFA DFFA DFFA 6707 0.021 0.49 YES
18 PRKDC PRKDC PRKDC 7060 0.016 0.48 YES
19 LMNA LMNA LMNA 7099 0.016 0.5 YES
20 LMNB1 LMNB1 LMNB1 7102 0.016 0.51 YES
21 CASP8 CASP8 CASP8 8153 0.002 0.45 NO
22 PARP1 PARP1 PARP1 8554 -0.003 0.43 NO
23 MAP3K7 MAP3K7 MAP3K7 9432 -0.014 0.39 NO
24 SPTAN1 SPTAN1 SPTAN1 9475 -0.015 0.4 NO
25 FADD FADD FADD 9640 -0.017 0.41 NO
26 MADD MADD MADD 10196 -0.024 0.4 NO
27 PAK1 PAK1 PAK1 10425 -0.027 0.4 NO
28 DFFB DFFB DFFB 10674 -0.03 0.41 NO

Figure S23.  Get High-res Image This plot shows mRNAseq_cNMF expression data heatmap (on the left) a RunningEnrichmentScore(RES) plot (on the top right) and a Signal2Noise(S2N) plot (on the bottom right) of genes in the pathway: BIOCARTA FAS PATHWAY.

Figure S24.  Get High-res Image For the top 5 core enriched genes in the pathway: BIOCARTA FAS PATHWAY, this volcano plot shows how much they are up/down-regulated and significant. The significance was calculated by empirical bayesian fit

genes ES table in pathway: BIOCARTA FCER1 PATHWAY

Table S13.  Get Full Table This table shows a Running Enrichment Score (RES) of each gene in this pathway, that is, the enrichment score at this point in the ranked list of genes. All genes are ranked by Signal-to-Noise (S2N), a measure of similarity as default and are used to obtain ES matrix of all genes. In this way, GSEA tool uses expression pattern of not only overlapped genes but also not-overlapped genes to produce ES matrix.

Rank GENE SYMBOL DESC LIST.LOC S2N RES CORE_ENRICHMENT
1 TP53AIP1 TP53AIP1 TP53AIP1 104 0.54 0.096 YES
2 SERPINB5 SERPINB5 SERPINB5 269 0.42 0.16 YES
3 SFN SFN SFN 842 0.26 0.18 YES
4 PERP PERP PERP 899 0.26 0.23 YES
5 SESN3 SESN3 SESN3 917 0.25 0.27 YES
6 PMAIP1 PMAIP1 PMAIP1 1277 0.21 0.29 YES
7 TP73 TP73 TP73 1762 0.17 0.3 YES
8 CD82 CD82 CD82 1788 0.17 0.32 YES
9 ZMAT3 ZMAT3 ZMAT3 1826 0.16 0.35 YES
10 CCNE2 CCNE2 CCNE2 1940 0.16 0.38 YES
11 CDKN1A CDKN1A CDKN1A 2032 0.15 0.4 YES
12 CDKN2A CDKN2A CDKN2A 2450 0.13 0.4 YES
13 GADD45A GADD45A GADD45A 2704 0.11 0.41 YES
14 MDM2 MDM2 MDM2 3024 0.1 0.41 YES
15 ATR ATR ATR 3217 0.095 0.42 YES
16 IGF1 IGF1 IGF1 3275 0.092 0.43 YES
17 SHISA5 SHISA5 SHISA5 3309 0.091 0.44 YES
18 FAS FAS FAS 3696 0.078 0.44 YES
19 SESN2 SESN2 SESN2 3791 0.076 0.45 YES
20 CASP3 CASP3 CASP3 3867 0.074 0.46 YES
21 SESN1 SESN1 SESN1 4315 0.062 0.44 NO
22 CDK1 CDK1 CDK1 4431 0.06 0.45 NO
23 DDB2 DDB2 DDB2 4767 0.053 0.44 NO
24 CDK6 CDK6 CDK6 4961 0.049 0.44 NO
25 RFWD2 RFWD2 RFWD2 5024 0.047 0.44 NO
26 PPM1D PPM1D PPM1D 5194 0.044 0.44 NO
27 RRM2B RRM2B RRM2B 5314 0.042 0.44 NO
28 TP53 TP53 TP53 6063 0.03 0.41 NO
29 RRM2 RRM2 RRM2 6155 0.028 0.41 NO
30 BID BID BID 6309 0.026 0.4 NO
31 SIAH1 SIAH1 SIAH1 6371 0.026 0.41 NO
32 CASP9 CASP9 CASP9 6831 0.019 0.38 NO
33 MDM4 MDM4 MDM4 7046 0.016 0.38 NO
34 TP53I3 TP53I3 TP53I3 7130 0.015 0.37 NO
35 CYCS CYCS CYCS 7274 0.013 0.37 NO
36 CCNG2 CCNG2 CCNG2 7681 0.0081 0.35 NO
37 CDK2 CDK2 CDK2 8031 0.0036 0.33 NO
38 PTEN PTEN PTEN 8034 0.0036 0.33 NO
39 CASP8 CASP8 CASP8 8153 0.002 0.32 NO
40 LRDD LRDD LRDD 8184 0.0017 0.32 NO
41 CCNE1 CCNE1 CCNE1 8422 -0.0012 0.31 NO
42 CCNB2 CCNB2 CCNB2 8445 -0.0015 0.31 NO
43 APAF1 APAF1 APAF1 8619 -0.004 0.3 NO
44 CCNB1 CCNB1 CCNB1 8647 -0.0044 0.3 NO
45 CHEK2 CHEK2 CHEK2 8817 -0.0065 0.29 NO
46 TNFRSF10B TNFRSF10B TNFRSF10B 8894 -0.0075 0.29 NO
47 RCHY1 RCHY1 RCHY1 9188 -0.011 0.27 NO
48 BAI1 BAI1 BAI1 9918 -0.02 0.24 NO
49 EI24 EI24 EI24 10168 -0.024 0.23 NO
50 CCND3 CCND3 CCND3 10451 -0.027 0.22 NO
51 BAX BAX BAX 10639 -0.03 0.21 NO
52 TSC2 TSC2 TSC2 10782 -0.032 0.21 NO
53 ATM ATM ATM 10913 -0.034 0.21 NO
54 GTSE1 GTSE1 GTSE1 11006 -0.035 0.21 NO
55 CCNG1 CCNG1 CCNG1 11243 -0.038 0.2 NO
56 CCNB3 CCNB3 CCNB3 11410 -0.041 0.2 NO
57 CDK4 CDK4 CDK4 11490 -0.042 0.21 NO
58 CCND2 CCND2 CCND2 11768 -0.046 0.2 NO
59 RPRM RPRM RPRM 11835 -0.047 0.2 NO
60 CCND1 CCND1 CCND1 11837 -0.047 0.21 NO
61 CHEK1 CHEK1 CHEK1 12015 -0.05 0.21 NO
62 SERPINE1 SERPINE1 SERPINE1 12481 -0.057 0.2 NO
63 GADD45B GADD45B GADD45B 12625 -0.059 0.2 NO
64 BBC3 BBC3 BBC3 14939 -0.12 0.096 NO
65 IGFBP3 IGFBP3 IGFBP3 15341 -0.14 0.1 NO
66 GADD45G GADD45G GADD45G 15487 -0.14 0.12 NO
67 THBS1 THBS1 THBS1 15724 -0.16 0.14 NO

Figure S25.  Get High-res Image This plot shows mRNAseq_cNMF expression data heatmap (on the left) a RunningEnrichmentScore(RES) plot (on the top right) and a Signal2Noise(S2N) plot (on the bottom right) of genes in the pathway: BIOCARTA FCER1 PATHWAY.

Figure S26.  Get High-res Image For the top 5 core enriched genes in the pathway: BIOCARTA FCER1 PATHWAY, this volcano plot shows how much they are up/down-regulated and significant. The significance was calculated by empirical bayesian fit

genes ES table in pathway: BIOCARTA HIVNEF PATHWAY

Table S14.  Get Full Table This table shows a Running Enrichment Score (RES) of each gene in this pathway, that is, the enrichment score at this point in the ranked list of genes. All genes are ranked by Signal-to-Noise (S2N), a measure of similarity as default and are used to obtain ES matrix of all genes. In this way, GSEA tool uses expression pattern of not only overlapped genes but also not-overlapped genes to produce ES matrix.

Rank GENE SYMBOL DESC LIST.LOC S2N RES CORE_ENRICHMENT
1 TLR10 TLR10 TLR10 146 0.5 0.14 YES
2 TLR7 TLR7 TLR7 684 0.29 0.2 YES
3 TLR6 TLR6 TLR6 1115 0.23 0.25 YES
4 TLR2 TLR2 TLR2 1388 0.2 0.29 YES
5 LY96 LY96 LY96 1586 0.18 0.34 YES
6 TLR3 TLR3 TLR3 1758 0.17 0.38 YES
7 TOLLIP TOLLIP TOLLIP 1839 0.16 0.42 YES
8 MAP3K1 MAP3K1 MAP3K1 2185 0.14 0.45 YES
9 NFKB1 NFKB1 NFKB1 3157 0.097 0.42 YES
10 JUN JUN JUN 3223 0.094 0.45 YES
11 NFKBIA NFKBIA NFKBIA 3299 0.091 0.47 YES
12 MYD88 MYD88 MYD88 3712 0.078 0.47 YES
13 IKBKB IKBKB IKBKB 3819 0.075 0.49 YES
14 TLR4 TLR4 TLR4 3928 0.072 0.5 YES
15 CD14 CD14 CD14 3995 0.07 0.52 YES
16 IKBKG IKBKG IKBKG 4329 0.062 0.52 YES
17 MAP2K4 MAP2K4 MAP2K4 4445 0.06 0.54 YES
18 FOS FOS FOS 4521 0.058 0.55 YES
19 TRAF6 TRAF6 TRAF6 4612 0.056 0.56 YES
20 MAPK8 MAPK8 MAPK8 4862 0.05 0.56 YES
21 CHUK CHUK CHUK 4941 0.049 0.57 YES
22 TLR9 TLR9 TLR9 5137 0.045 0.58 YES
23 EIF2AK2 EIF2AK2 EIF2AK2 5455 0.04 0.57 NO
24 IRAK1 IRAK1 IRAK1 6299 0.026 0.53 NO
25 TAB2 TAB2 TAB2 6572 0.023 0.52 NO
26 RELA RELA RELA 7514 0.01 0.48 NO
27 TAB1 TAB1 TAB1 7537 0.01 0.48 NO
28 ECSIT ECSIT ECSIT 7587 0.0094 0.48 NO
29 ELK1 ELK1 ELK1 7768 0.007 0.47 NO
30 MAPK14 MAPK14 MAPK14 8064 0.0033 0.46 NO
31 MAP3K14 MAP3K14 MAP3K14 8419 -0.0012 0.44 NO
32 MAP3K7 MAP3K7 MAP3K7 9432 -0.014 0.38 NO
33 TIRAP TIRAP TIRAP 10427 -0.027 0.34 NO
34 MAP2K3 MAP2K3 MAP2K3 12821 -0.063 0.22 NO
35 MAP2K6 MAP2K6 MAP2K6 14127 -0.093 0.18 NO
36 PGLYRP1 PGLYRP1 PGLYRP1 15294 -0.14 0.16 NO

Figure S27.  Get High-res Image This plot shows mRNAseq_cNMF expression data heatmap (on the left) a RunningEnrichmentScore(RES) plot (on the top right) and a Signal2Noise(S2N) plot (on the bottom right) of genes in the pathway: BIOCARTA HIVNEF PATHWAY.

Figure S28.  Get High-res Image For the top 5 core enriched genes in the pathway: BIOCARTA HIVNEF PATHWAY, this volcano plot shows how much they are up/down-regulated and significant. The significance was calculated by empirical bayesian fit

genes ES table in pathway: BIOCARTA IL2RB PATHWAY

Table S15.  Get Full Table This table shows a Running Enrichment Score (RES) of each gene in this pathway, that is, the enrichment score at this point in the ranked list of genes. All genes are ranked by Signal-to-Noise (S2N), a measure of similarity as default and are used to obtain ES matrix of all genes. In this way, GSEA tool uses expression pattern of not only overlapped genes but also not-overlapped genes to produce ES matrix.

Rank GENE SYMBOL DESC LIST.LOC S2N RES CORE_ENRICHMENT
1 PIK3CG PIK3CG PIK3CG 924 0.25 0.033 YES
2 SYK SYK SYK 1243 0.21 0.086 YES
3 MYC MYC MYC 1293 0.21 0.15 YES
4 IL2RB IL2RB IL2RB 1479 0.19 0.21 YES
5 FASLG FASLG FASLG 1524 0.19 0.27 YES
6 IKZF3 IKZF3 IKZF3 1725 0.17 0.31 YES
7 STAT5A STAT5A STAT5A 1827 0.16 0.36 YES
8 IL2RA IL2RA IL2RA 1916 0.16 0.41 YES
9 IL2RG IL2RG IL2RG 2083 0.15 0.45 YES
10 PIK3CA PIK3CA PIK3CA 2332 0.13 0.48 YES
11 BCL2 BCL2 BCL2 2760 0.11 0.49 YES
12 PIK3R1 PIK3R1 PIK3R1 2798 0.11 0.52 YES
13 SOCS1 SOCS1 SOCS1 3372 0.089 0.52 YES
14 FAS FAS FAS 3696 0.078 0.53 YES
15 JAK3 JAK3 JAK3 4427 0.06 0.51 YES
16 FOS FOS FOS 4521 0.058 0.53 YES
17 RPS6KB1 RPS6KB1 RPS6KB1 4692 0.054 0.53 YES
18 CFLAR CFLAR CFLAR 4747 0.053 0.55 YES
19 CRKL CRKL CRKL 4748 0.053 0.57 YES
20 PTPN6 PTPN6 PTPN6 5052 0.047 0.56 YES
21 CBL CBL CBL 5150 0.045 0.57 YES
22 NMI NMI NMI 5351 0.042 0.58 YES
23 JAK1 JAK1 JAK1 5630 0.037 0.57 NO
24 HRAS HRAS HRAS 5898 0.032 0.57 NO
25 SOS1 SOS1 SOS1 6124 0.029 0.57 NO
26 RAF1 RAF1 RAF1 6475 0.024 0.56 NO
27 MAPK1 MAPK1 MAPK1 6533 0.023 0.56 NO
28 STAT5B STAT5B STAT5B 6703 0.021 0.56 NO
29 GRB2 GRB2 GRB2 7685 0.008 0.51 NO
30 PPIA PPIA PPIA 7749 0.0072 0.51 NO
31 MAPK3 MAPK3 MAPK3 8658 -0.0045 0.46 NO
32 IRS1 IRS1 IRS1 9054 -0.0094 0.44 NO
33 SHC1 SHC1 SHC1 9758 -0.018 0.41 NO
34 AKT1 AKT1 AKT1 9841 -0.019 0.41 NO
35 SOCS3 SOCS3 SOCS3 10874 -0.033 0.36 NO
36 BCL2L1 BCL2L1 BCL2L1 11701 -0.045 0.33 NO
37 BAD BAD BAD 13471 -0.076 0.26 NO

Figure S29.  Get High-res Image This plot shows mRNAseq_cNMF expression data heatmap (on the left) a RunningEnrichmentScore(RES) plot (on the top right) and a Signal2Noise(S2N) plot (on the bottom right) of genes in the pathway: BIOCARTA IL2RB PATHWAY.

Figure S30.  Get High-res Image For the top 5 core enriched genes in the pathway: BIOCARTA IL2RB PATHWAY, this volcano plot shows how much they are up/down-regulated and significant. The significance was calculated by empirical bayesian fit

genes ES table in pathway: BIOCARTA GSK3 PATHWAY

Table S16.  Get Full Table This table shows a Running Enrichment Score (RES) of each gene in this pathway, that is, the enrichment score at this point in the ranked list of genes. All genes are ranked by Signal-to-Noise (S2N), a measure of similarity as default and are used to obtain ES matrix of all genes. In this way, GSEA tool uses expression pattern of not only overlapped genes but also not-overlapped genes to produce ES matrix.

Rank GENE SYMBOL DESC LIST.LOC S2N RES CORE_ENRICHMENT
1 EGFR EGFR EGFR 1174 0.22 0.039 YES
2 PRKCB PRKCB PRKCB 1182 0.22 0.14 YES
3 STAT5A STAT5A STAT5A 1827 0.16 0.18 YES
4 STAT4 STAT4 STAT4 2165 0.14 0.23 YES
5 MAP3K1 MAP3K1 MAP3K1 2185 0.14 0.3 YES
6 PIK3CA PIK3CA PIK3CA 2332 0.13 0.35 YES
7 PIK3R1 PIK3R1 PIK3R1 2798 0.11 0.38 YES
8 JUN JUN JUN 3223 0.094 0.4 YES
9 STAT6 STAT6 STAT6 3841 0.074 0.4 YES
10 STAT1 STAT1 STAT1 4265 0.064 0.4 YES
11 MAP2K4 MAP2K4 MAP2K4 4445 0.06 0.42 YES
12 FOS FOS FOS 4521 0.058 0.44 YES
13 STAT3 STAT3 STAT3 4711 0.054 0.46 YES
14 MAPK8 MAPK8 MAPK8 4862 0.05 0.48 YES
15 MAP2K1 MAP2K1 MAP2K1 4994 0.048 0.49 YES
16 STAT2 STAT2 STAT2 5174 0.045 0.5 YES
17 RASA1 RASA1 RASA1 5578 0.038 0.5 YES
18 JAK1 JAK1 JAK1 5630 0.037 0.51 YES
19 SOS1 SOS1 SOS1 6124 0.029 0.5 NO
20 CSNK2A1 CSNK2A1 CSNK2A1 6288 0.026 0.5 NO
21 RAF1 RAF1 RAF1 6475 0.024 0.5 NO
22 STAT5B STAT5B STAT5B 6703 0.021 0.5 NO
23 SRF SRF SRF 7432 0.011 0.46 NO
24 GRB2 GRB2 GRB2 7685 0.008 0.46 NO
25 ELK1 ELK1 ELK1 7768 0.007 0.45 NO
26 PLCG1 PLCG1 PLCG1 8590 -0.0036 0.41 NO
27 MAPK3 MAPK3 MAPK3 8658 -0.0045 0.41 NO
28 SHC1 SHC1 SHC1 9758 -0.018 0.36 NO
29 EGF EGF EGF 10442 -0.027 0.33 NO
30 PRKCA PRKCA PRKCA 16421 -0.2 0.096 NO

Figure S31.  Get High-res Image This plot shows mRNAseq_cNMF expression data heatmap (on the left) a RunningEnrichmentScore(RES) plot (on the top right) and a Signal2Noise(S2N) plot (on the bottom right) of genes in the pathway: BIOCARTA GSK3 PATHWAY.

Figure S32.  Get High-res Image For the top 5 core enriched genes in the pathway: BIOCARTA GSK3 PATHWAY, this volcano plot shows how much they are up/down-regulated and significant. The significance was calculated by empirical bayesian fit

genes ES table in pathway: BIOCARTA RACCYCD PATHWAY

Table S17.  Get Full Table This table shows a Running Enrichment Score (RES) of each gene in this pathway, that is, the enrichment score at this point in the ranked list of genes. All genes are ranked by Signal-to-Noise (S2N), a measure of similarity as default and are used to obtain ES matrix of all genes. In this way, GSEA tool uses expression pattern of not only overlapped genes but also not-overlapped genes to produce ES matrix.

Rank GENE SYMBOL DESC LIST.LOC S2N RES CORE_ENRICHMENT
1 PTPN13 PTPN13 PTPN13 530 0.32 0.14 YES
2 FASLG FASLG FASLG 1524 0.19 0.19 YES
3 MAP3K1 MAP3K1 MAP3K1 2185 0.14 0.23 YES
4 RB1 RB1 RB1 3215 0.095 0.22 YES
5 JUN JUN JUN 3223 0.094 0.28 YES
6 FAS FAS FAS 3696 0.078 0.29 YES
7 CASP3 CASP3 CASP3 3867 0.074 0.32 YES
8 CASP10 CASP10 CASP10 4072 0.068 0.35 YES
9 PAK2 PAK2 PAK2 4199 0.065 0.38 YES
10 CASP7 CASP7 CASP7 4307 0.063 0.4 YES
11 MAP2K4 MAP2K4 MAP2K4 4445 0.06 0.43 YES
12 CFLAR CFLAR CFLAR 4747 0.053 0.44 YES
13 MAPK8 MAPK8 MAPK8 4862 0.05 0.46 YES
14 ARHGDIB ARHGDIB ARHGDIB 5088 0.046 0.47 YES
15 FAF1 FAF1 FAF1 5255 0.043 0.49 YES
16 LMNB2 LMNB2 LMNB2 6551 0.023 0.43 NO
17 DFFA DFFA DFFA 6707 0.021 0.43 NO
18 PRKDC PRKDC PRKDC 7060 0.016 0.42 NO
19 LMNA LMNA LMNA 7099 0.016 0.43 NO
20 CASP8 CASP8 CASP8 8153 0.002 0.37 NO
21 PARP1 PARP1 PARP1 8554 -0.003 0.35 NO
22 MAP3K7 MAP3K7 MAP3K7 9432 -0.014 0.31 NO
23 SPTAN1 SPTAN1 SPTAN1 9475 -0.015 0.31 NO
24 FADD FADD FADD 9640 -0.017 0.31 NO
25 PAK1 PAK1 PAK1 10425 -0.027 0.28 NO
26 DFFB DFFB DFFB 10674 -0.03 0.29 NO
27 DAXX DAXX DAXX 11167 -0.037 0.28 NO
28 RIPK2 RIPK2 RIPK2 14274 -0.098 0.16 NO
29 CASP6 CASP6 CASP6 14291 -0.098 0.21 NO

Figure S33.  Get High-res Image This plot shows mRNAseq_cNMF expression data heatmap (on the left) a RunningEnrichmentScore(RES) plot (on the top right) and a Signal2Noise(S2N) plot (on the bottom right) of genes in the pathway: BIOCARTA RACCYCD PATHWAY.

Figure S34.  Get High-res Image For the top 5 core enriched genes in the pathway: BIOCARTA RACCYCD PATHWAY, this volcano plot shows how much they are up/down-regulated and significant. The significance was calculated by empirical bayesian fit

genes ES table in pathway: BIOCARTA MAPK PATHWAY

Table S18.  Get Full Table This table shows a Running Enrichment Score (RES) of each gene in this pathway, that is, the enrichment score at this point in the ranked list of genes. All genes are ranked by Signal-to-Noise (S2N), a measure of similarity as default and are used to obtain ES matrix of all genes. In this way, GSEA tool uses expression pattern of not only overlapped genes but also not-overlapped genes to produce ES matrix.

Rank GENE SYMBOL DESC LIST.LOC S2N RES CORE_ENRICHMENT
1 FCER1A FCER1A FCER1A 524 0.32 0.075 YES
2 BTK BTK BTK 607 0.3 0.17 YES
3 PIK3CG PIK3CG PIK3CG 924 0.25 0.23 YES
4 PRKCB PRKCB PRKCB 1182 0.22 0.29 YES
5 SYK SYK SYK 1243 0.21 0.35 YES
6 FCER1G FCER1G FCER1G 1576 0.18 0.39 YES
7 MAP3K1 MAP3K1 MAP3K1 2185 0.14 0.4 YES
8 PIK3CA PIK3CA PIK3CA 2332 0.13 0.44 YES
9 PIK3R1 PIK3R1 PIK3R1 2798 0.11 0.45 YES
10 JUN JUN JUN 3223 0.094 0.46 YES
11 LYN LYN LYN 3454 0.086 0.47 YES
12 NFATC3 NFATC3 NFATC3 3595 0.082 0.49 YES
13 PAK2 PAK2 PAK2 4199 0.065 0.48 YES
14 PPP3CC PPP3CC PPP3CC 4430 0.06 0.48 YES
15 MAP2K4 MAP2K4 MAP2K4 4445 0.06 0.5 YES
16 FOS FOS FOS 4521 0.058 0.52 YES
17 MAPK8 MAPK8 MAPK8 4862 0.05 0.51 YES
18 MAP2K1 MAP2K1 MAP2K1 4994 0.048 0.52 YES
19 MAP2K7 MAP2K7 MAP2K7 6019 0.03 0.47 NO
20 SOS1 SOS1 SOS1 6124 0.029 0.48 NO
21 RAF1 RAF1 RAF1 6475 0.024 0.47 NO
22 MAPK1 MAPK1 MAPK1 6533 0.023 0.47 NO
23 CALM1 CALM1 CALM1 6786 0.02 0.46 NO
24 NFATC2 NFATC2 NFATC2 6990 0.017 0.46 NO
25 GRB2 GRB2 GRB2 7685 0.008 0.42 NO
26 ELK1 ELK1 ELK1 7768 0.007 0.42 NO
27 NFATC1 NFATC1 NFATC1 7847 0.006 0.42 NO
28 VAV1 VAV1 VAV1 8063 0.0033 0.41 NO
29 PPP3CA PPP3CA PPP3CA 8201 0.0015 0.4 NO
30 PLCG1 PLCG1 PLCG1 8590 -0.0036 0.38 NO
31 PPP3CB PPP3CB PPP3CB 8651 -0.0045 0.38 NO
32 MAPK3 MAPK3 MAPK3 8658 -0.0045 0.38 NO
33 SHC1 SHC1 SHC1 9758 -0.018 0.32 NO
34 PLA2G4A PLA2G4A PLA2G4A 10139 -0.023 0.31 NO
35 CALM2 CALM2 CALM2 12131 -0.051 0.22 NO
36 CALM3 CALM3 CALM3 13062 -0.067 0.19 NO
37 NFATC4 NFATC4 NFATC4 17386 -0.3 0.043 NO

Figure S35.  Get High-res Image This plot shows mRNAseq_cNMF expression data heatmap (on the left) a RunningEnrichmentScore(RES) plot (on the top right) and a Signal2Noise(S2N) plot (on the bottom right) of genes in the pathway: BIOCARTA MAPK PATHWAY.

Figure S36.  Get High-res Image For the top 5 core enriched genes in the pathway: BIOCARTA MAPK PATHWAY, this volcano plot shows how much they are up/down-regulated and significant. The significance was calculated by empirical bayesian fit

genes ES table in pathway: BIOCARTA TNFR1 PATHWAY

Table S19.  Get Full Table This table shows a Running Enrichment Score (RES) of each gene in this pathway, that is, the enrichment score at this point in the ranked list of genes. All genes are ranked by Signal-to-Noise (S2N), a measure of similarity as default and are used to obtain ES matrix of all genes. In this way, GSEA tool uses expression pattern of not only overlapped genes but also not-overlapped genes to produce ES matrix.

Rank GENE SYMBOL DESC LIST.LOC S2N RES CORE_ENRICHMENT
1 MAPK10 MAPK10 MAPK10 437 0.35 0.03 YES
2 RPS6KA5 RPS6KA5 RPS6KA5 473 0.34 0.079 YES
3 CEBPA CEBPA CEBPA 1006 0.24 0.087 YES
4 MAP3K6 MAP3K6 MAP3K6 1093 0.23 0.12 YES
5 MAP4K1 MAP4K1 MAP4K1 1098 0.23 0.15 YES
6 MYC MYC MYC 1293 0.21 0.17 YES
7 MAP3K8 MAP3K8 MAP3K8 1334 0.2 0.2 YES
8 MAPK6 MAPK6 MAPK6 1800 0.16 0.2 YES
9 MAP3K9 MAP3K9 MAP3K9 2004 0.15 0.21 YES
10 MAP3K5 MAP3K5 MAP3K5 2184 0.14 0.22 YES
11 MAP3K1 MAP3K1 MAP3K1 2185 0.14 0.25 YES
12 MKNK2 MKNK2 MKNK2 2803 0.11 0.23 YES
13 RAC1 RAC1 RAC1 3034 0.1 0.23 YES
14 NFKB1 NFKB1 NFKB1 3157 0.097 0.24 YES
15 JUN JUN JUN 3223 0.094 0.25 YES
16 MEF2A MEF2A MEF2A 3292 0.091 0.26 YES
17 NFKBIA NFKBIA NFKBIA 3299 0.091 0.27 YES
18 TGFB1 TGFB1 TGFB1 3582 0.082 0.27 YES
19 MAX MAX MAX 3713 0.078 0.28 YES
20 IKBKB IKBKB IKBKB 3819 0.075 0.28 YES
21 MKNK1 MKNK1 MKNK1 3908 0.072 0.29 YES
22 MAP3K2 MAP3K2 MAP3K2 3996 0.07 0.29 YES
23 MAPK13 MAPK13 MAPK13 4097 0.068 0.3 YES
24 SP1 SP1 SP1 4118 0.067 0.31 YES
25 PAK2 PAK2 PAK2 4199 0.065 0.31 YES
26 STAT1 STAT1 STAT1 4265 0.064 0.32 YES
27 MAP4K5 MAP4K5 MAP4K5 4321 0.062 0.33 YES
28 MAP2K4 MAP2K4 MAP2K4 4445 0.06 0.33 YES
29 FOS FOS FOS 4521 0.058 0.33 YES
30 RPS6KB1 RPS6KB1 RPS6KB1 4692 0.054 0.33 YES
31 MAPK8 MAPK8 MAPK8 4862 0.05 0.33 YES
32 CHUK CHUK CHUK 4941 0.049 0.33 YES
33 MAP2K1 MAP2K1 MAP2K1 4994 0.048 0.34 YES
34 MAPK7 MAPK7 MAPK7 5013 0.048 0.34 YES
35 RPS6KA3 RPS6KA3 RPS6KA3 5099 0.046 0.35 YES
36 MAPKAPK2 MAPKAPK2 MAPKAPK2 5214 0.044 0.35 YES
37 TRADD TRADD TRADD 5308 0.042 0.35 YES
38 RPS6KA4 RPS6KA4 RPS6KA4 5328 0.042 0.35 YES
39 MAP3K10 MAP3K10 MAP3K10 5509 0.039 0.35 NO
40 HRAS HRAS HRAS 5898 0.032 0.33 NO
41 LOC729991-MEF2B LOC729991-MEF2B LOC729991-MEF2B 5914 0.032 0.34 NO
42 RIPK1 RIPK1 RIPK1 5947 0.031 0.34 NO
43 MAP2K7 MAP2K7 MAP2K7 6019 0.03 0.34 NO
44 BRAF BRAF BRAF 6244 0.027 0.33 NO
45 MAP3K4 MAP3K4 MAP3K4 6374 0.025 0.33 NO
46 RAF1 RAF1 RAF1 6475 0.024 0.33 NO
47 MAPK1 MAPK1 MAPK1 6533 0.023 0.33 NO
48 MAP3K3 MAP3K3 MAP3K3 6674 0.021 0.32 NO
49 MAPKAPK3 MAPKAPK3 MAPKAPK3 6919 0.018 0.31 NO
50 CREB1 CREB1 CREB1 7050 0.016 0.31 NO
51 RPS6KB2 RPS6KB2 RPS6KB2 7201 0.014 0.3 NO
52 MAP3K13 MAP3K13 MAP3K13 7230 0.014 0.3 NO
53 MAP2K5 MAP2K5 MAP2K5 7347 0.012 0.3 NO
54 MAP4K2 MAP4K2 MAP4K2 7450 0.011 0.29 NO
55 RELA RELA RELA 7514 0.01 0.29 NO
56 MAPK11 MAPK11 MAPK11 7577 0.0096 0.29 NO
57 GRB2 GRB2 GRB2 7685 0.008 0.29 NO
58 ELK1 ELK1 ELK1 7768 0.007 0.28 NO
59 MAPK14 MAPK14 MAPK14 8064 0.0033 0.27 NO
60 MAP2K2 MAP2K2 MAP2K2 8160 0.0019 0.26 NO
61 MAP3K11 MAP3K11 MAP3K11 8322 0.000025 0.25 NO
62 MAP3K14 MAP3K14 MAP3K14 8419 -0.0012 0.25 NO
63 MAPK3 MAPK3 MAPK3 8658 -0.0045 0.24 NO
64 RPS6KA1 RPS6KA1 RPS6KA1 8938 -0.008 0.22 NO
65 TRAF2 TRAF2 TRAF2 9010 -0.0089 0.22 NO
66 MAP3K7 MAP3K7 MAP3K7 9432 -0.014 0.2 NO
67 TGFBR1 TGFBR1 TGFBR1 9476 -0.015 0.2 NO
68 MEF2D MEF2D MEF2D 9490 -0.015 0.2 NO
69 SHC1 SHC1 SHC1 9758 -0.018 0.19 NO
70 TGFB3 TGFB3 TGFB3 9942 -0.021 0.18 NO
71 ARAF ARAF ARAF 9950 -0.021 0.18 NO
72 MAPKAPK5 MAPKAPK5 MAPKAPK5 10334 -0.026 0.16 NO
73 PAK1 PAK1 PAK1 10425 -0.027 0.16 NO
74 MAP4K3 MAP4K3 MAP4K3 10860 -0.033 0.14 NO
75 MAP4K4 MAP4K4 MAP4K4 10918 -0.034 0.15 NO
76 DAXX DAXX DAXX 11167 -0.037 0.14 NO
77 MAPK9 MAPK9 MAPK9 11445 -0.041 0.13 NO
78 ATF2 ATF2 ATF2 11476 -0.042 0.14 NO
79 RAPGEF2 RAPGEF2 RAPGEF2 12636 -0.06 0.08 NO
80 MAP2K3 MAP2K3 MAP2K3 12821 -0.063 0.079 NO
81 MAP2K6 MAP2K6 MAP2K6 14127 -0.093 0.022 NO
82 RPS6KA2 RPS6KA2 RPS6KA2 16009 -0.17 -0.056 NO
83 MAP3K12 MAP3K12 MAP3K12 16696 -0.22 -0.06 NO
84 MAPK4 MAPK4 MAPK4 16749 -0.23 -0.028 NO
85 MAPK12 MAPK12 MAPK12 17674 -0.34 -0.027 NO
86 TGFB2 TGFB2 TGFB2 17716 -0.36 0.025 NO

Figure S37.  Get High-res Image This plot shows mRNAseq_cNMF expression data heatmap (on the left) a RunningEnrichmentScore(RES) plot (on the top right) and a Signal2Noise(S2N) plot (on the bottom right) of genes in the pathway: BIOCARTA TNFR1 PATHWAY.

Figure S38.  Get High-res Image For the top 5 core enriched genes in the pathway: BIOCARTA TNFR1 PATHWAY, this volcano plot shows how much they are up/down-regulated and significant. The significance was calculated by empirical bayesian fit

genes ES table in pathway: BIOCARTA TOLL PATHWAY

Table S20.  Get Full Table This table shows a Running Enrichment Score (RES) of each gene in this pathway, that is, the enrichment score at this point in the ranked list of genes. All genes are ranked by Signal-to-Noise (S2N), a measure of similarity as default and are used to obtain ES matrix of all genes. In this way, GSEA tool uses expression pattern of not only overlapped genes but also not-overlapped genes to produce ES matrix.

Rank GENE SYMBOL DESC LIST.LOC S2N RES CORE_ENRICHMENT
1 PLA2G4F PLA2G4F PLA2G4F 115 0.54 0.049 YES
2 PLA2G4E PLA2G4E PLA2G4E 230 0.44 0.088 YES
3 PLD1 PLD1 PLD1 613 0.3 0.097 YES
4 VAV3 VAV3 VAV3 687 0.29 0.12 YES
5 DNM1 DNM1 DNM1 719 0.28 0.15 YES
6 NCF1 NCF1 NCF1 820 0.26 0.17 YES
7 DOCK2 DOCK2 DOCK2 839 0.26 0.2 YES
8 PTPRC PTPRC PTPRC 874 0.26 0.22 YES
9 PIK3CG PIK3CG PIK3CG 924 0.25 0.25 YES
10 FCGR2C FCGR2C FCGR2C 1027 0.24 0.26 YES
11 PIK3R5 PIK3R5 PIK3R5 1091 0.23 0.28 YES
12 WAS WAS WAS 1167 0.22 0.3 YES
13 PRKCB PRKCB PRKCB 1182 0.22 0.33 YES
14 SYK SYK SYK 1243 0.21 0.34 YES
15 FCGR2B FCGR2B FCGR2B 1281 0.21 0.36 YES
16 HCK HCK HCK 1547 0.19 0.37 YES
17 WASF3 WASF3 WASF3 1903 0.16 0.36 YES
18 PLCG2 PLCG2 PLCG2 1990 0.15 0.38 YES
19 INPP5D INPP5D INPP5D 2040 0.15 0.39 YES
20 FCGR1A FCGR1A FCGR1A 2067 0.15 0.4 YES
21 PIK3CA PIK3CA PIK3CA 2332 0.13 0.4 YES
22 PLA2G4D PLA2G4D PLA2G4D 2466 0.12 0.41 YES
23 PLD2 PLD2 PLD2 2527 0.12 0.42 YES
24 PIK3CD PIK3CD PIK3CD 2743 0.11 0.42 YES
25 PIK3R1 PIK3R1 PIK3R1 2798 0.11 0.42 YES
26 FCGR3A FCGR3A FCGR3A 2838 0.11 0.43 YES
27 WASF2 WASF2 WASF2 2940 0.1 0.44 YES
28 RAC1 RAC1 RAC1 3034 0.1 0.44 YES
29 PPAP2A PPAP2A PPAP2A 3182 0.096 0.44 YES
30 FCGR2A FCGR2A FCGR2A 3414 0.088 0.44 YES
31 LYN LYN LYN 3454 0.086 0.45 YES
32 LAT LAT LAT 3605 0.081 0.45 YES
33 PIK3CB PIK3CB PIK3CB 3615 0.081 0.46 YES
34 ARF6 ARF6 ARF6 3753 0.076 0.46 YES
35 PRKCE PRKCE PRKCE 3972 0.071 0.45 NO
36 ARPC2 ARPC2 ARPC2 4238 0.064 0.44 NO
37 LIMK2 LIMK2 LIMK2 4274 0.063 0.45 NO
38 RPS6KB1 RPS6KB1 RPS6KB1 4692 0.054 0.43 NO
39 CDC42 CDC42 CDC42 4732 0.053 0.43 NO
40 CRKL CRKL CRKL 4748 0.053 0.44 NO
41 MAP2K1 MAP2K1 MAP2K1 4994 0.048 0.43 NO
42 ARPC5L ARPC5L ARPC5L 5075 0.046 0.43 NO
43 ARPC1A ARPC1A ARPC1A 5503 0.039 0.41 NO
44 PPAP2B PPAP2B PPAP2B 5627 0.037 0.41 NO
45 WASL WASL WASL 5643 0.037 0.41 NO
46 PRKCD PRKCD PRKCD 5700 0.036 0.41 NO
47 MARCKS MARCKS MARCKS 5843 0.033 0.41 NO
48 PIK3R2 PIK3R2 PIK3R2 5962 0.031 0.4 NO
49 ASAP3 ASAP3 ASAP3 6056 0.03 0.4 NO
50 ARPC5 ARPC5 ARPC5 6087 0.029 0.4 NO
51 LIMK1 LIMK1 LIMK1 6098 0.029 0.4 NO
52 ASAP1 ASAP1 ASAP1 6103 0.029 0.41 NO
53 RAC2 RAC2 RAC2 6105 0.029 0.41 NO
54 RAF1 RAF1 RAF1 6475 0.024 0.39 NO
55 MAPK1 MAPK1 MAPK1 6533 0.023 0.39 NO
56 GSN GSN GSN 6555 0.023 0.39 NO
57 PIP5K1C PIP5K1C PIP5K1C 6854 0.019 0.38 NO
58 ARPC3 ARPC3 ARPC3 6980 0.017 0.37 NO
59 DNM2 DNM2 DNM2 7142 0.015 0.37 NO
60 CRK CRK CRK 7208 0.014 0.36 NO
61 WASF1 WASF1 WASF1 7374 0.012 0.36 NO
62 DNM3 DNM3 DNM3 7485 0.011 0.35 NO
63 PIK3R3 PIK3R3 PIK3R3 7543 0.01 0.35 NO
64 SPHK1 SPHK1 SPHK1 7683 0.0081 0.34 NO
65 PIP5K1A PIP5K1A PIP5K1A 7737 0.0074 0.34 NO
66 PIKFYVE PIKFYVE PIKFYVE 7863 0.0058 0.33 NO
67 AKT2 AKT2 AKT2 8007 0.004 0.33 NO
68 VAV1 VAV1 VAV1 8063 0.0033 0.32 NO
69 PLCG1 PLCG1 PLCG1 8590 -0.0036 0.3 NO
70 MAPK3 MAPK3 MAPK3 8658 -0.0045 0.29 NO
71 DNM1L DNM1L DNM1L 8745 -0.0056 0.29 NO
72 AKT1 AKT1 AKT1 9841 -0.019 0.23 NO
73 ARPC4 ARPC4 ARPC4 9926 -0.02 0.23 NO
74 GAB2 GAB2 GAB2 9951 -0.021 0.23 NO
75 PPAP2C PPAP2C PPAP2C 9959 -0.021 0.23 NO
76 PLA2G4A PLA2G4A PLA2G4A 10139 -0.023 0.22 NO
77 PAK1 PAK1 PAK1 10425 -0.027 0.21 NO
78 CFL1 CFL1 CFL1 10449 -0.027 0.21 NO
79 SCIN SCIN SCIN 10888 -0.033 0.19 NO
80 MYO10 MYO10 MYO10 11366 -0.04 0.17 NO
81 PLA2G6 PLA2G6 PLA2G6 12099 -0.051 0.13 NO
82 SPHK2 SPHK2 SPHK2 12607 -0.059 0.11 NO
83 PIP4K2B PIP4K2B PIP4K2B 12795 -0.062 0.11 NO
84 AKT3 AKT3 AKT3 12998 -0.066 0.1 NO
85 VASP VASP VASP 13464 -0.076 0.084 NO
86 ARPC1B ARPC1B ARPC1B 13690 -0.081 0.08 NO
87 ASAP2 ASAP2 ASAP2 13929 -0.088 0.076 NO
88 AMPH AMPH AMPH 14582 -0.11 0.05 NO
89 MARCKSL1 MARCKSL1 MARCKSL1 14592 -0.11 0.061 NO
90 CFL2 CFL2 CFL2 16249 -0.19 -0.011 NO
91 PRKCA PRKCA PRKCA 16421 -0.2 0.00015 NO
92 VAV2 VAV2 VAV2 16538 -0.21 0.015 NO
93 PIP5K1B PIP5K1B PIP5K1B 17129 -0.26 0.01 NO
94 PRKCG PRKCG PRKCG 18041 -0.46 0.0071 NO

Figure S39.  Get High-res Image This plot shows mRNAseq_cNMF expression data heatmap (on the left) a RunningEnrichmentScore(RES) plot (on the top right) and a Signal2Noise(S2N) plot (on the bottom right) of genes in the pathway: BIOCARTA TOLL PATHWAY.

Figure S40.  Get High-res Image For the top 5 core enriched genes in the pathway: BIOCARTA TOLL PATHWAY, this volcano plot shows how much they are up/down-regulated and significant. The significance was calculated by empirical bayesian fit

Fold change

For the top enriched genes, if you want to check whether they are

Expression level

For the top enriched genes, if you want to check whether they are

An expression pattern of top(30%)/middle(30%)/low(30%) in this subtype against other subtypes is available in a heatmap

Significant gene list

For the top enriched genes, if you want to check whether they are

Subtype clus3 enriched pathways

Table 5.  Get Full Table This table shows top 10 pathways which are significantly enriched in cluster clus3. It displays only significant gene sets satisfying nom.p.val.threshold (-1), fwer.p.val.threshold (-1) , fdr.q.val.threshold (0.25) and the default table is sorted by Normalized Enrichment Score (NES). Further details on NES statistics, please visit The Broad GSEA website.

GeneSet(GS) Size(#genes) genes.ES.table ES NES NOM.p.val FDR.q.val FWER.p.val Tag.. Gene.. Signal FDR..median. glob.p.val
BIOCARTA RHO PATHWAY 31 genes.ES.table 0.4 1.5 0.066 0.37 0.85 0.032 0.0011 0.032 0.26 0.066
KEGG PURINE METABOLISM 150 genes.ES.table 0.38 1.5 0.019 0.47 0.85 0.22 0.18 0.18 0.34 0.11
KEGG ALANINE ASPARTATE AND GLUTAMATE METABOLISM 30 genes.ES.table 0.5 1.5 0.042 0.4 0.94 0.33 0.16 0.28 0.31 0.069
KEGG VALINE LEUCINE AND ISOLEUCINE DEGRADATION 43 genes.ES.table 0.41 1.5 0.068 0.41 0.85 0.54 0.36 0.34 0.3 0.083
KEGG HISTIDINE METABOLISM 28 genes.ES.table 0.51 1.4 0.088 0.51 0.99 0.39 0.19 0.32 0.42 0.1
KEGG TYROSINE METABOLISM 39 genes.ES.table 0.49 1.3 0.091 0.54 0.99 0.18 0.05 0.17 0.47 0.12
KEGG SELENOAMINO ACID METABOLISM 25 genes.ES.table 0.58 1.7 0.014 0.29 0.61 0.48 0.31 0.33 0.17 0.057
KEGG N GLYCAN BIOSYNTHESIS 45 genes.ES.table 0.53 1.8 0.0094 0.18 0.27 0.49 0.31 0.34 0 0.044
KEGG O GLYCAN BIOSYNTHESIS 28 genes.ES.table 0.6 1.5 0.044 0.45 0.92 0.57 0.18 0.47 0.35 0.085
KEGG INOSITOL PHOSPHATE METABOLISM 53 genes.ES.table 0.36 1.3 0.16 0.53 0.99 0.26 0.22 0.21 0.47 0.11
genes ES table in pathway: BIOCARTA RHO PATHWAY

Table S21.  Get Full Table This table shows a Running Enrichment Score (RES) of each gene in this pathway, that is, the enrichment score at this point in the ranked list of genes. All genes are ranked by Signal-to-Noise (S2N), a measure of similarity as default and are used to obtain ES matrix of all genes. In this way, GSEA tool uses expression pattern of not only overlapped genes but also not-overlapped genes to produce ES matrix.

Rank GENE SYMBOL DESC LIST.LOC S2N RES CORE_ENRICHMENT
1 CFTR CFTR CFTR 117 0.73 0.086 YES
2 KCNQ1 KCNQ1 KCNQ1 171 0.68 0.17 YES
3 ATP6V1B1 ATP6V1B1 ATP6V1B1 353 0.57 0.23 YES
4 ATP6V1C2 ATP6V1C2 ATP6V1C2 474 0.52 0.29 YES
5 MUC2 MUC2 MUC2 539 0.5 0.35 YES
6 PRKCG PRKCG PRKCG 743 0.43 0.39 YES
7 ATP6V0A4 ATP6V0A4 ATP6V0A4 912 0.39 0.43 YES
8 KDELR3 KDELR3 KDELR3 938 0.38 0.48 YES
9 SLC12A2 SLC12A2 SLC12A2 979 0.37 0.52 YES
10 ATP6V1G2 ATP6V1G2 ATP6V1G2 1311 0.31 0.55 YES
11 PRKCA PRKCA PRKCA 1701 0.26 0.56 YES
12 ATP6V0E2 ATP6V0E2 ATP6V0E2 1770 0.26 0.59 YES
13 TCIRG1 TCIRG1 TCIRG1 4020 0.11 0.48 NO
14 KDELR2 KDELR2 KDELR2 4338 0.095 0.47 NO
15 PDIA4 PDIA4 PDIA4 4653 0.085 0.46 NO
16 KDELR1 KDELR1 KDELR1 4930 0.078 0.46 NO
17 ADCY9 ADCY9 ADCY9 5598 0.059 0.43 NO
18 ARF1 ARF1 ARF1 7389 0.025 0.33 NO
19 SEC61B SEC61B SEC61B 7396 0.025 0.34 NO
20 ATP6AP1 ATP6AP1 ATP6AP1 7516 0.023 0.33 NO
21 GNAS GNAS GNAS 7687 0.02 0.32 NO
22 SEC61A1 SEC61A1 SEC61A1 7774 0.019 0.32 NO
23 SEC61A2 SEC61A2 SEC61A2 7880 0.017 0.32 NO
24 ATP6V0A1 ATP6V0A1 ATP6V0A1 8416 0.0093 0.29 NO
25 ATP6V0A2 ATP6V0A2 ATP6V0A2 8810 0.0038 0.27 NO
26 ATP6V0B ATP6V0B ATP6V0B 9089 0.00019 0.25 NO
27 ACTG1 ACTG1 ACTG1 9218 -0.0018 0.25 NO
28 TJP1 TJP1 TJP1 9361 -0.0038 0.24 NO
29 TJP2 TJP2 TJP2 9552 -0.0065 0.23 NO
30 SEC61G SEC61G SEC61G 10844 -0.026 0.16 NO
31 ATP6V0E1 ATP6V0E1 ATP6V0E1 11015 -0.028 0.16 NO
32 ATP6V0D1 ATP6V0D1 ATP6V0D1 11270 -0.031 0.15 NO
33 ATP6V0C ATP6V0C ATP6V0C 11356 -0.033 0.15 NO
34 ATP6V1C1 ATP6V1C1 ATP6V1C1 11467 -0.034 0.14 NO
35 PRKACB PRKACB PRKACB 11598 -0.036 0.14 NO
36 ACTB ACTB ACTB 11957 -0.042 0.13 NO
37 ATP6V1A ATP6V1A ATP6V1A 12247 -0.047 0.12 NO
38 PRKACA PRKACA PRKACA 12438 -0.05 0.11 NO
39 ATP6V1F ATP6V1F ATP6V1F 12781 -0.057 0.1 NO
40 ATP6V1H ATP6V1H ATP6V1H 12951 -0.06 0.1 NO
41 ATP6V1E1 ATP6V1E1 ATP6V1E1 13469 -0.072 0.08 NO
42 PLCG1 PLCG1 PLCG1 13891 -0.082 0.067 NO
43 ATP6V1G1 ATP6V1G1 ATP6V1G1 13910 -0.082 0.077 NO
44 ATP6V1B2 ATP6V1B2 ATP6V1B2 14134 -0.088 0.076 NO
45 PRKCB PRKCB PRKCB 14160 -0.089 0.085 NO
46 ATP6V1D ATP6V1D ATP6V1D 14195 -0.09 0.095 NO
47 ATP6V1E2 ATP6V1E2 ATP6V1E2 14782 -0.11 0.076 NO
48 ERO1L ERO1L ERO1L 15095 -0.12 0.075 NO
49 PRKX PRKX PRKX 16431 -0.2 0.027 NO
50 PLCG2 PLCG2 PLCG2 16900 -0.25 0.033 NO
51 ATP6V0D2 ATP6V0D2 ATP6V0D2 17170 -0.29 0.055 NO

Figure S41.  Get High-res Image This plot shows mRNAseq_cNMF expression data heatmap (on the left) a RunningEnrichmentScore(RES) plot (on the top right) and a Signal2Noise(S2N) plot (on the bottom right) of genes in the pathway: BIOCARTA RHO PATHWAY.

Figure S42.  Get High-res Image For the top 5 core enriched genes in the pathway: BIOCARTA RHO PATHWAY, this volcano plot shows how much they are up/down-regulated and significant. The significance was calculated by empirical bayesian fit

genes ES table in pathway: KEGG PURINE METABOLISM

Table S22.  Get Full Table This table shows a Running Enrichment Score (RES) of each gene in this pathway, that is, the enrichment score at this point in the ranked list of genes. All genes are ranked by Signal-to-Noise (S2N), a measure of similarity as default and are used to obtain ES matrix of all genes. In this way, GSEA tool uses expression pattern of not only overlapped genes but also not-overlapped genes to produce ES matrix.

Rank GENE SYMBOL DESC LIST.LOC S2N RES CORE_ENRICHMENT
1 MGAT3 MGAT3 MGAT3 379 0.56 0.11 YES
2 ST6GAL1 ST6GAL1 ST6GAL1 407 0.55 0.23 YES
3 ALG11 ALG11 ALG11 1196 0.33 0.26 YES
4 MGAT4A MGAT4A MGAT4A 1493 0.28 0.31 YES
5 MAN1C1 MAN1C1 MAN1C1 1743 0.26 0.36 YES
6 DPM3 DPM3 DPM3 2716 0.17 0.34 YES
7 DPAGT1 DPAGT1 DPAGT1 3410 0.13 0.34 YES
8 ALG5 ALG5 ALG5 3484 0.13 0.36 YES
9 ALG10B ALG10B ALG10B 3542 0.13 0.39 YES
10 FUT8 FUT8 FUT8 3855 0.11 0.4 YES
11 ALG1 ALG1 ALG1 3922 0.11 0.42 YES
12 STT3A STT3A STT3A 4051 0.1 0.44 YES
13 ALG8 ALG8 ALG8 4081 0.1 0.46 YES
14 ALG14 ALG14 ALG14 4450 0.091 0.46 YES
15 MGAT5 MGAT5 MGAT5 4625 0.086 0.47 YES
16 ALG13 ALG13 ALG13 4678 0.085 0.48 YES
17 ALG9 ALG9 ALG9 4689 0.085 0.5 YES
18 MAN2A2 MAN2A2 MAN2A2 5112 0.072 0.5 YES
19 ALG12 ALG12 ALG12 5299 0.067 0.5 YES
20 ALG10 ALG10 ALG10 5313 0.067 0.52 YES
21 MGAT4B MGAT4B MGAT4B 5316 0.066 0.53 YES
22 ALG6 ALG6 ALG6 5563 0.06 0.53 YES
23 STT3B STT3B STT3B 6379 0.043 0.5 NO
24 MOGS MOGS MOGS 6398 0.043 0.5 NO
25 B4GALT1 B4GALT1 B4GALT1 6426 0.042 0.51 NO
26 RPN2 RPN2 RPN2 6614 0.039 0.51 NO
27 DAD1 DAD1 DAD1 6748 0.036 0.51 NO
28 RPN1 RPN1 RPN1 6958 0.033 0.51 NO
29 ALG2 ALG2 ALG2 6971 0.033 0.52 NO
30 MAN1A2 MAN1A2 MAN1A2 7671 0.02 0.48 NO
31 DDOST DDOST DDOST 8243 0.012 0.45 NO
32 MAN1B1 MAN1B1 MAN1B1 8517 0.0077 0.44 NO
33 GANAB GANAB GANAB 8849 0.0032 0.42 NO
34 MAN1A1 MAN1A1 MAN1A1 9561 -0.0066 0.38 NO
35 DPM2 DPM2 DPM2 10448 -0.02 0.34 NO
36 MGAT5B MGAT5B MGAT5B 10656 -0.023 0.33 NO
37 ALG3 ALG3 ALG3 10722 -0.024 0.34 NO
38 MGAT2 MGAT2 MGAT2 10745 -0.024 0.34 NO
39 MAN2A1 MAN2A1 MAN2A1 10876 -0.026 0.34 NO
40 DPM1 DPM1 DPM1 11263 -0.031 0.32 NO
41 B4GALT3 B4GALT3 B4GALT3 11277 -0.032 0.33 NO
42 MGAT1 MGAT1 MGAT1 11786 -0.039 0.31 NO
43 DOLPP1 DOLPP1 DOLPP1 12350 -0.049 0.29 NO
44 B4GALT2 B4GALT2 B4GALT2 12684 -0.055 0.29 NO
45 TUSC3 TUSC3 TUSC3 13511 -0.073 0.26 NO

Figure S43.  Get High-res Image This plot shows mRNAseq_cNMF expression data heatmap (on the left) a RunningEnrichmentScore(RES) plot (on the top right) and a Signal2Noise(S2N) plot (on the bottom right) of genes in the pathway: KEGG PURINE METABOLISM.

Figure S44.  Get High-res Image For the top 5 core enriched genes in the pathway: KEGG PURINE METABOLISM, this volcano plot shows how much they are up/down-regulated and significant. The significance was calculated by empirical bayesian fit

genes ES table in pathway: KEGG ALANINE ASPARTATE AND GLUTAMATE METABOLISM

Table S23.  Get Full Table This table shows a Running Enrichment Score (RES) of each gene in this pathway, that is, the enrichment score at this point in the ranked list of genes. All genes are ranked by Signal-to-Noise (S2N), a measure of similarity as default and are used to obtain ES matrix of all genes. In this way, GSEA tool uses expression pattern of not only overlapped genes but also not-overlapped genes to produce ES matrix.

Rank GENE SYMBOL DESC LIST.LOC S2N RES CORE_ENRICHMENT
1 AQP2 AQP2 AQP2 46 0.88 0.17 YES
2 CREB3L1 CREB3L1 CREB3L1 110 0.74 0.3 YES
3 CREB3L4 CREB3L4 CREB3L4 1577 0.28 0.28 YES
4 ADCY6 ADCY6 ADCY6 1705 0.26 0.32 YES
5 AVPR2 AVPR2 AVPR2 1870 0.24 0.36 YES
6 CREB5 CREB5 CREB5 1905 0.24 0.4 YES
7 DYNC2LI1 DYNC2LI1 DYNC2LI1 2174 0.22 0.43 YES
8 AQP4 AQP4 AQP4 2190 0.22 0.47 YES
9 CREB3L2 CREB3L2 CREB3L2 2617 0.18 0.48 YES
10 CREB3L3 CREB3L3 CREB3L3 3249 0.14 0.47 NO
11 CREB3 CREB3 CREB3 4245 0.098 0.44 NO
12 NSF NSF NSF 4547 0.088 0.44 NO
13 ADCY9 ADCY9 ADCY9 5598 0.059 0.39 NO
14 VAMP2 VAMP2 VAMP2 5607 0.059 0.4 NO
15 RAB11B RAB11B RAB11B 6990 0.032 0.33 NO
16 RAB5A RAB5A RAB5A 7461 0.024 0.31 NO
17 GNAS GNAS GNAS 7687 0.02 0.3 NO
18 RAB5C RAB5C RAB5C 7876 0.018 0.29 NO
19 DCTN1 DCTN1 DCTN1 9499 -0.0059 0.21 NO
20 DYNC1LI2 DYNC1LI2 DYNC1LI2 9744 -0.0095 0.2 NO
21 ARHGDIA ARHGDIA ARHGDIA 9872 -0.011 0.19 NO
22 CREB1 CREB1 CREB1 10154 -0.016 0.18 NO
23 DYNLL2 DYNLL2 DYNLL2 10180 -0.016 0.18 NO
24 RAB11A RAB11A RAB11A 10389 -0.019 0.17 NO
25 DYNC1LI1 DYNC1LI1 DYNC1LI1 11079 -0.029 0.14 NO
26 DYNC1I2 DYNC1I2 DYNC1I2 11288 -0.032 0.13 NO
27 RAB5B RAB5B RAB5B 11311 -0.032 0.14 NO
28 DCTN5 DCTN5 DCTN5 11434 -0.034 0.14 NO
29 DYNC2H1 DYNC2H1 DYNC2H1 11493 -0.034 0.14 NO
30 PRKACB PRKACB PRKACB 11598 -0.036 0.14 NO
31 STX4 STX4 STX4 12011 -0.043 0.13 NO
32 PRKACA PRKACA PRKACA 12438 -0.05 0.11 NO
33 DCTN6 DCTN6 DCTN6 12725 -0.056 0.11 NO
34 DYNC1H1 DYNC1H1 DYNC1H1 12871 -0.059 0.11 NO
35 DCTN2 DCTN2 DCTN2 13010 -0.061 0.12 NO
36 DCTN4 DCTN4 DCTN4 13542 -0.073 0.1 NO
37 ARHGDIB ARHGDIB ARHGDIB 14181 -0.089 0.083 NO
38 DYNLL1 DYNLL1 DYNLL1 14201 -0.09 0.1 NO
39 PRKX PRKX PRKX 16431 -0.2 0.016 NO
40 DYNC1I1 DYNC1I1 DYNC1I1 16442 -0.2 0.054 NO
41 AQP3 AQP3 AQP3 16554 -0.22 0.089 NO

Figure S45.  Get High-res Image This plot shows mRNAseq_cNMF expression data heatmap (on the left) a RunningEnrichmentScore(RES) plot (on the top right) and a Signal2Noise(S2N) plot (on the bottom right) of genes in the pathway: KEGG ALANINE ASPARTATE AND GLUTAMATE METABOLISM.

Figure S46.  Get High-res Image For the top 5 core enriched genes in the pathway: KEGG ALANINE ASPARTATE AND GLUTAMATE METABOLISM, this volcano plot shows how much they are up/down-regulated and significant. The significance was calculated by empirical bayesian fit

genes ES table in pathway: KEGG VALINE LEUCINE AND ISOLEUCINE DEGRADATION

Table S24.  Get Full Table This table shows a Running Enrichment Score (RES) of each gene in this pathway, that is, the enrichment score at this point in the ranked list of genes. All genes are ranked by Signal-to-Noise (S2N), a measure of similarity as default and are used to obtain ES matrix of all genes. In this way, GSEA tool uses expression pattern of not only overlapped genes but also not-overlapped genes to produce ES matrix.

Rank GENE SYMBOL DESC LIST.LOC S2N RES CORE_ENRICHMENT
1 GGT1 GGT1 GGT1 852 0.4 0.11 YES
2 PAPSS2 PAPSS2 PAPSS2 855 0.4 0.26 YES
3 GGT6 GGT6 GGT6 1376 0.3 0.36 YES
4 GGT7 GGT7 GGT7 1963 0.24 0.41 YES
5 CTH CTH CTH 2001 0.23 0.5 YES
6 CBS CBS CBS 2564 0.18 0.54 YES
7 HEMK1 HEMK1 HEMK1 3229 0.14 0.56 YES
8 AHCYL2 AHCYL2 AHCYL2 4202 0.099 0.55 YES
9 SCLY SCLY SCLY 5032 0.075 0.53 YES
10 AHCYL1 AHCYL1 AHCYL1 5157 0.071 0.55 YES
11 WBSCR22 WBSCR22 WBSCR22 5528 0.061 0.56 YES
12 MAT2A MAT2A MAT2A 5614 0.059 0.57 YES
13 AHCY AHCY AHCY 6611 0.039 0.54 NO
14 SEPHS1 SEPHS1 SEPHS1 7326 0.026 0.51 NO
15 TRMT11 TRMT11 TRMT11 7592 0.022 0.5 NO
16 LCMT1 LCMT1 LCMT1 7886 0.017 0.49 NO
17 LCMT2 LCMT2 LCMT2 7939 0.016 0.5 NO
18 METTL2B METTL2B METTL2B 8106 0.014 0.49 NO
19 METTL6 METTL6 METTL6 9439 -0.005 0.42 NO
20 PAPSS1 PAPSS1 PAPSS1 9538 -0.0064 0.42 NO
21 MAT1A MAT1A MAT1A 9952 -0.012 0.4 NO
22 MAT2B MAT2B MAT2B 10316 -0.018 0.39 NO
23 MARS MARS MARS 10970 -0.028 0.36 NO
24 MARS2 MARS2 MARS2 12124 -0.045 0.32 NO
25 GGT5 GGT5 GGT5 12228 -0.047 0.33 NO

Figure S47.  Get High-res Image This plot shows mRNAseq_cNMF expression data heatmap (on the left) a RunningEnrichmentScore(RES) plot (on the top right) and a Signal2Noise(S2N) plot (on the bottom right) of genes in the pathway: KEGG VALINE LEUCINE AND ISOLEUCINE DEGRADATION.

Figure S48.  Get High-res Image For the top 5 core enriched genes in the pathway: KEGG VALINE LEUCINE AND ISOLEUCINE DEGRADATION, this volcano plot shows how much they are up/down-regulated and significant. The significance was calculated by empirical bayesian fit

genes ES table in pathway: KEGG HISTIDINE METABOLISM

Table S25.  Get Full Table This table shows a Running Enrichment Score (RES) of each gene in this pathway, that is, the enrichment score at this point in the ranked list of genes. All genes are ranked by Signal-to-Noise (S2N), a measure of similarity as default and are used to obtain ES matrix of all genes. In this way, GSEA tool uses expression pattern of not only overlapped genes but also not-overlapped genes to produce ES matrix.

Rank GENE SYMBOL DESC LIST.LOC S2N RES CORE_ENRICHMENT
1 MPV17L MPV17L MPV17L 583 0.48 0.022 YES
2 SLC27A2 SLC27A2 SLC27A2 624 0.46 0.072 YES
3 PIPOX PIPOX PIPOX 887 0.39 0.1 YES
4 PECR PECR PECR 899 0.39 0.15 YES
5 PHYH PHYH PHYH 962 0.37 0.18 YES
6 DDO DDO DDO 1016 0.36 0.22 YES
7 ACSL5 ACSL5 ACSL5 1130 0.34 0.26 YES
8 AGXT AGXT AGXT 1504 0.28 0.27 YES
9 DECR2 DECR2 DECR2 1984 0.23 0.27 YES
10 PEX11G PEX11G PEX11G 2251 0.21 0.28 YES
11 CAT CAT CAT 2369 0.2 0.29 YES
12 FAR2 FAR2 FAR2 2414 0.19 0.31 YES
13 NUDT12 NUDT12 NUDT12 2687 0.18 0.32 YES
14 ABCD3 ABCD3 ABCD3 2706 0.17 0.34 YES
15 NOS2 NOS2 NOS2 2739 0.17 0.35 YES
16 PXMP2 PXMP2 PXMP2 2767 0.17 0.37 YES
17 PEX11A PEX11A PEX11A 3046 0.15 0.37 YES
18 CRAT CRAT CRAT 3217 0.14 0.38 YES
19 PXMP4 PXMP4 PXMP4 3317 0.14 0.39 YES
20 BAAT BAAT BAAT 3590 0.12 0.39 YES
21 PEX7 PEX7 PEX7 3808 0.11 0.39 YES
22 GSTK1 GSTK1 GSTK1 3943 0.11 0.4 YES
23 IDH1 IDH1 IDH1 4044 0.1 0.4 YES
24 HMGCL HMGCL HMGCL 4076 0.1 0.41 YES
25 ACSL4 ACSL4 ACSL4 4317 0.096 0.41 NO
26 PEX11B PEX11B PEX11B 4929 0.078 0.38 NO
27 HACL1 HACL1 HACL1 4969 0.077 0.39 NO
28 HAO2 HAO2 HAO2 5015 0.076 0.4 NO
29 MLYCD MLYCD MLYCD 5362 0.065 0.39 NO
30 PEX6 PEX6 PEX6 5416 0.064 0.39 NO
31 AMACR AMACR AMACR 5608 0.059 0.39 NO
32 ACOT8 ACOT8 ACOT8 5777 0.055 0.38 NO
33 PEX2 PEX2 PEX2 5946 0.052 0.38 NO
34 PEX1 PEX1 PEX1 6061 0.05 0.38 NO
35 SCP2 SCP2 SCP2 6113 0.049 0.38 NO
36 GNPAT GNPAT GNPAT 6127 0.048 0.39 NO
37 ABCD1 ABCD1 ABCD1 6263 0.046 0.38 NO
38 ABCD4 ABCD4 ABCD4 6395 0.043 0.38 NO
39 PRDX5 PRDX5 PRDX5 6730 0.037 0.37 NO
40 PEX16 PEX16 PEX16 6827 0.035 0.37 NO
41 ACOX1 ACOX1 ACOX1 6865 0.034 0.37 NO
42 PEX26 PEX26 PEX26 7227 0.028 0.35 NO
43 ACAA1 ACAA1 ACAA1 7320 0.026 0.35 NO
44 IDH2 IDH2 IDH2 7659 0.02 0.33 NO
45 HSD17B4 HSD17B4 HSD17B4 7660 0.02 0.34 NO
46 ECH1 ECH1 ECH1 7908 0.017 0.32 NO
47 ACSL3 ACSL3 ACSL3 8197 0.013 0.31 NO
48 PEX19 PEX19 PEX19 9291 -0.0029 0.25 NO
49 SOD1 SOD1 SOD1 9422 -0.0049 0.24 NO
50 EHHADH EHHADH EHHADH 9949 -0.012 0.22 NO
51 MPV17 MPV17 MPV17 10421 -0.019 0.19 NO
52 PMVK PMVK PMVK 10461 -0.02 0.19 NO
53 SLC25A17 SLC25A17 SLC25A17 10560 -0.021 0.19 NO
54 AGPS AGPS AGPS 10595 -0.022 0.19 NO
55 PEX10 PEX10 PEX10 11283 -0.032 0.16 NO
56 PEX13 PEX13 PEX13 11347 -0.032 0.16 NO
57 PRDX1 PRDX1 PRDX1 11394 -0.033 0.16 NO
58 PAOX PAOX PAOX 11963 -0.042 0.13 NO
59 PEX12 PEX12 PEX12 12077 -0.044 0.13 NO
60 DHRS4 DHRS4 DHRS4 12157 -0.045 0.13 NO
61 PEX3 PEX3 PEX3 12264 -0.047 0.13 NO
62 PEX5 PEX5 PEX5 12333 -0.049 0.13 NO
63 PEX14 PEX14 PEX14 12582 -0.053 0.12 NO
64 FAR1 FAR1 FAR1 13679 -0.077 0.071 NO
65 ACOX3 ACOX3 ACOX3 14035 -0.086 0.061 NO
66 ABCD2 ABCD2 ABCD2 14037 -0.086 0.071 NO
67 PECI PECI PECI 14272 -0.092 0.068 NO
68 SOD2 SOD2 SOD2 14305 -0.093 0.077 NO
69 NUDT19 NUDT19 NUDT19 14831 -0.11 0.061 NO
70 MVK MVK MVK 14980 -0.12 0.066 NO
71 ACSL1 ACSL1 ACSL1 15319 -0.13 0.063 NO
72 XDH XDH XDH 15618 -0.15 0.063 NO
73 ACSL6 ACSL6 ACSL6 16065 -0.18 0.058 NO
74 EPHX2 EPHX2 EPHX2 16901 -0.25 0.041 NO
75 CROT CROT CROT 16923 -0.26 0.069 NO

Figure S49.  Get High-res Image This plot shows mRNAseq_cNMF expression data heatmap (on the left) a RunningEnrichmentScore(RES) plot (on the top right) and a Signal2Noise(S2N) plot (on the bottom right) of genes in the pathway: KEGG HISTIDINE METABOLISM.

Figure S50.  Get High-res Image For the top 5 core enriched genes in the pathway: KEGG HISTIDINE METABOLISM, this volcano plot shows how much they are up/down-regulated and significant. The significance was calculated by empirical bayesian fit

genes ES table in pathway: KEGG TYROSINE METABOLISM

Table S26.  Get Full Table This table shows a Running Enrichment Score (RES) of each gene in this pathway, that is, the enrichment score at this point in the ranked list of genes. All genes are ranked by Signal-to-Noise (S2N), a measure of similarity as default and are used to obtain ES matrix of all genes. In this way, GSEA tool uses expression pattern of not only overlapped genes but also not-overlapped genes to produce ES matrix.

Rank GENE SYMBOL DESC LIST.LOC S2N RES CORE_ENRICHMENT
1 ENTPD8 ENTPD8 ENTPD8 23 0.97 0.044 YES
2 PDE4C PDE4C PDE4C 156 0.7 0.07 YES
3 ENPP3 ENPP3 ENPP3 229 0.64 0.096 YES
4 FHIT FHIT FHIT 375 0.56 0.11 YES
5 NME5 NME5 NME5 397 0.55 0.14 YES
6 AK7 AK7 AK7 433 0.54 0.16 YES
7 GMPR GMPR GMPR 494 0.51 0.18 YES
8 PDE8B PDE8B PDE8B 502 0.51 0.21 YES
9 ENTPD2 ENTPD2 ENTPD2 508 0.5 0.23 YES
10 PDE11A PDE11A PDE11A 529 0.5 0.25 YES
11 ENPP1 ENPP1 ENPP1 585 0.48 0.27 YES
12 PDE9A PDE9A PDE9A 723 0.43 0.28 YES
13 GDA GDA GDA 731 0.43 0.3 YES
14 PAPSS2 PAPSS2 PAPSS2 855 0.4 0.32 YES
15 PDE3A PDE3A PDE3A 921 0.38 0.33 YES
16 ADCY2 ADCY2 ADCY2 994 0.37 0.34 YES
17 PDE4A PDE4A PDE4A 1563 0.28 0.32 YES
18 GUCY2C GUCY2C GUCY2C 1581 0.28 0.34 YES
19 PDE5A PDE5A PDE5A 1594 0.27 0.35 YES
20 NPR2 NPR2 NPR2 1611 0.27 0.36 YES
21 ADCY6 ADCY6 ADCY6 1705 0.26 0.37 YES
22 PDE6B PDE6B PDE6B 1778 0.26 0.38 YES
23 ADCY4 ADCY4 ADCY4 2327 0.2 0.36 YES
24 NT5E NT5E NT5E 2346 0.2 0.36 YES
25 ADCY5 ADCY5 ADCY5 2492 0.19 0.36 YES
26 ENTPD6 ENTPD6 ENTPD6 2693 0.18 0.36 YES
27 NT5M NT5M NT5M 2816 0.17 0.36 YES
28 AK1 AK1 AK1 2897 0.16 0.37 YES
29 PDE7B PDE7B PDE7B 2999 0.16 0.37 YES
30 NME4 NME4 NME4 3039 0.15 0.37 YES
31 PDE4D PDE4D PDE4D 3098 0.15 0.38 YES
32 PDE10A PDE10A PDE10A 3223 0.14 0.38 YES
33 NME3 NME3 NME3 3228 0.14 0.38 YES
34 PFAS PFAS PFAS 3369 0.14 0.38 NO
35 CANT1 CANT1 CANT1 3487 0.13 0.38 NO
36 NPR1 NPR1 NPR1 3634 0.12 0.38 NO
37 GUCY1B3 GUCY1B3 GUCY1B3 3713 0.12 0.38 NO
38 PDE1A PDE1A PDE1A 3944 0.11 0.37 NO
39 GUCY1A2 GUCY1A2 GUCY1A2 4404 0.093 0.35 NO
40 NME7 NME7 NME7 4582 0.087 0.34 NO
41 NUDT9 NUDT9 NUDT9 5004 0.076 0.32 NO
42 POLR3GL POLR3GL POLR3GL 5035 0.075 0.33 NO
43 AMPD1 AMPD1 AMPD1 5081 0.073 0.33 NO
44 PRPS2 PRPS2 PRPS2 5279 0.067 0.32 NO
45 ADCY9 ADCY9 ADCY9 5598 0.059 0.31 NO
46 POLD3 POLD3 POLD3 5704 0.057 0.3 NO
47 NT5C2 NT5C2 NT5C2 5790 0.055 0.3 NO
48 ATIC ATIC ATIC 5813 0.054 0.3 NO
49 POLR2H POLR2H POLR2H 5837 0.054 0.3 NO
50 POLD4 POLD4 POLD4 5869 0.053 0.3 NO
51 NT5C1B NT5C1B NT5C1B 5980 0.051 0.3 NO
52 GUCY1A3 GUCY1A3 GUCY1A3 6170 0.047 0.29 NO
53 POLA2 POLA2 POLA2 6202 0.047 0.29 NO
54 NME6 NME6 NME6 6846 0.035 0.26 NO
55 ENTPD5 ENTPD5 ENTPD5 6902 0.034 0.26 NO
56 ENTPD4 ENTPD4 ENTPD4 6964 0.033 0.26 NO
57 POLR2L POLR2L POLR2L 7081 0.031 0.25 NO
58 PDE6D PDE6D PDE6D 7140 0.03 0.25 NO
59 IMPDH2 IMPDH2 IMPDH2 7226 0.028 0.24 NO
60 PKLR PKLR PKLR 7235 0.028 0.25 NO
61 POLR2I POLR2I POLR2I 7263 0.028 0.24 NO
62 POLR3K POLR3K POLR3K 7264 0.028 0.25 NO
63 POLE POLE POLE 7358 0.026 0.24 NO
64 PDE8A PDE8A PDE8A 7417 0.025 0.24 NO
65 POLE4 POLE4 POLE4 7498 0.023 0.24 NO
66 POLR2J POLR2J POLR2J 7504 0.023 0.24 NO
67 POLR1C POLR1C POLR1C 7554 0.022 0.24 NO
68 PRIM2 PRIM2 PRIM2 8067 0.015 0.21 NO
69 NT5C NT5C NT5C 8249 0.012 0.2 NO
70 ZNRD1 ZNRD1 ZNRD1 8853 0.0032 0.17 NO
71 POLR3C POLR3C POLR3C 8900 0.0025 0.16 NO
72 PRIM1 PRIM1 PRIM1 9051 0.00064 0.16 NO
73 PRUNE PRUNE PRUNE 9118 -0.00024 0.15 NO
74 DCK DCK DCK 9120 -0.00028 0.15 NO
75 ADSL ADSL ADSL 9140 -0.00063 0.15 NO
76 POLA1 POLA1 POLA1 9261 -0.0025 0.14 NO
77 POLR2E POLR2E POLR2E 9399 -0.0045 0.14 NO
78 DGUOK DGUOK DGUOK 9406 -0.0046 0.14 NO
79 GUK1 GUK1 GUK1 9507 -0.006 0.13 NO
80 PAPSS1 PAPSS1 PAPSS1 9538 -0.0064 0.13 NO
81 ITPA ITPA ITPA 9682 -0.0085 0.12 NO
82 AK2 AK2 AK2 9695 -0.0087 0.12 NO
83 POLD2 POLD2 POLD2 9860 -0.011 0.11 NO
84 POLR2K POLR2K POLR2K 10084 -0.014 0.1 NO
85 GMPR2 GMPR2 GMPR2 10107 -0.015 0.1 NO
86 AMPD2 AMPD2 AMPD2 10196 -0.016 0.097 NO
87 NME2 NME2 NME2 10444 -0.02 0.084 NO
88 PPAT PPAT PPAT 10450 -0.02 0.085 NO
89 RRM2 RRM2 RRM2 10485 -0.02 0.084 NO
90 RRM2B RRM2B RRM2B 10626 -0.022 0.077 NO
91 NUDT5 NUDT5 NUDT5 10665 -0.023 0.076 NO
92 POLR2B POLR2B POLR2B 10739 -0.024 0.073 NO
93 NUDT2 NUDT2 NUDT2 10852 -0.026 0.068 NO
94 POLR2C POLR2C POLR2C 11280 -0.032 0.046 NO
95 POLR2G POLR2G POLR2G 11333 -0.032 0.045 NO
96 HPRT1 HPRT1 HPRT1 11443 -0.034 0.04 NO
97 NT5C3 NT5C3 NT5C3 11463 -0.034 0.041 NO
98 PAICS PAICS PAICS 11494 -0.034 0.041 NO
99 RRM1 RRM1 RRM1 11577 -0.036 0.038 NO
100 POLD1 POLD1 POLD1 11856 -0.041 0.024 NO
101 PNPT1 PNPT1 PNPT1 11896 -0.041 0.024 NO
102 POLR2D POLR2D POLR2D 11933 -0.042 0.024 NO
103 POLR3A POLR3A POLR3A 12080 -0.044 0.018 NO
104 ADSS ADSS ADSS 12102 -0.044 0.019 NO
105 ENTPD1 ENTPD1 ENTPD1 12256 -0.047 0.013 NO
106 POLE2 POLE2 POLE2 12343 -0.049 0.01 NO
107 POLR3H POLR3H POLR3H 12389 -0.05 0.01 NO
108 PDE7A PDE7A PDE7A 12532 -0.052 0.0047 NO
109 POLR2A POLR2A POLR2A 12546 -0.052 0.0065 NO
110 NME1 NME1 NME1 12778 -0.057 -0.0037 NO
111 GMPS GMPS GMPS 12795 -0.057 -0.0019 NO
112 PNP PNP PNP 13024 -0.062 -0.012 NO
113 POLR2F POLR2F POLR2F 13088 -0.063 -0.012 NO
114 PRPS1 PRPS1 PRPS1 13101 -0.063 -0.0099 NO
115 PKM2 PKM2 PKM2 13112 -0.063 -0.0075 NO
116 GART GART GART 13308 -0.068 -0.015 NO
117 POLR1B POLR1B POLR1B 13323 -0.068 -0.013 NO
118 POLE3 POLE3 POLE3 13374 -0.07 -0.012 NO
119 PDE4B PDE4B PDE4B 13496 -0.072 -0.016 NO
120 POLR1E POLR1E POLR1E 13712 -0.078 -0.024 NO
121 POLR3D POLR3D POLR3D 13721 -0.078 -0.021 NO
122 POLR3F POLR3F POLR3F 13762 -0.079 -0.019 NO
123 POLR2J2 POLR2J2 POLR2J2 13823 -0.08 -0.019 NO
124 APRT APRT APRT 13876 -0.081 -0.018 NO
125 IMPDH1 IMPDH1 IMPDH1 13963 -0.083 -0.019 NO
126 ADCY10 ADCY10 ADCY10 13980 -0.084 -0.016 NO
127 POLR1D POLR1D POLR1D 14049 -0.086 -0.015 NO
128 PDE1C PDE1C PDE1C 14089 -0.087 -0.013 NO
129 POLR1A POLR1A POLR1A 14370 -0.096 -0.024 NO
130 ENTPD3 ENTPD3 ENTPD3 15108 -0.12 -0.06 NO
131 XDH XDH XDH 15618 -0.15 -0.081 NO
132 PDE6A PDE6A PDE6A 15638 -0.15 -0.075 NO
133 PDE3B PDE3B PDE3B 15696 -0.15 -0.071 NO
134 AMPD3 AMPD3 AMPD3 15803 -0.16 -0.069 NO
135 POLR2J3 POLR2J3 POLR2J3 15812 -0.16 -0.062 NO
136 PRPS1L1 PRPS1L1 PRPS1L1 15847 -0.16 -0.056 NO
137 POLR3B POLR3B POLR3B 15961 -0.17 -0.055 NO
138 GUCY2D GUCY2D GUCY2D 16436 -0.2 -0.071 NO
139 ADK ADK ADK 16444 -0.2 -0.062 NO
140 PDE6G PDE6G PDE6G 16489 -0.21 -0.055 NO
141 NME1-NME2 NME1-NME2 NME1-NME2 16795 -0.24 -0.061 NO
142 AK3L1 AK3L1 AK3L1 16884 -0.25 -0.054 NO
143 AK5 AK5 AK5 16927 -0.26 -0.044 NO
144 ADSSL1 ADSSL1 ADSSL1 17014 -0.27 -0.036 NO
145 ADCY7 ADCY7 ADCY7 17248 -0.3 -0.035 NO
146 ADCY1 ADCY1 ADCY1 17322 -0.32 -0.024 NO
147 PDE1B PDE1B PDE1B 17484 -0.35 -0.016 NO
148 PDE2A PDE2A PDE2A 17492 -0.35 -0.00032 NO
149 ADA ADA ADA 17629 -0.39 0.01 NO
150 POLR3G POLR3G POLR3G 17726 -0.42 0.025 NO

Figure S51.  Get High-res Image This plot shows mRNAseq_cNMF expression data heatmap (on the left) a RunningEnrichmentScore(RES) plot (on the top right) and a Signal2Noise(S2N) plot (on the bottom right) of genes in the pathway: KEGG TYROSINE METABOLISM.

Figure S52.  Get High-res Image For the top 5 core enriched genes in the pathway: KEGG TYROSINE METABOLISM, this volcano plot shows how much they are up/down-regulated and significant. The significance was calculated by empirical bayesian fit

genes ES table in pathway: KEGG SELENOAMINO ACID METABOLISM

Table S27.  Get Full Table This table shows a Running Enrichment Score (RES) of each gene in this pathway, that is, the enrichment score at this point in the ranked list of genes. All genes are ranked by Signal-to-Noise (S2N), a measure of similarity as default and are used to obtain ES matrix of all genes. In this way, GSEA tool uses expression pattern of not only overlapped genes but also not-overlapped genes to produce ES matrix.

Rank GENE SYMBOL DESC LIST.LOC S2N RES CORE_ENRICHMENT
1 HMGCS2 HMGCS2 HMGCS2 1363 0.3 0.015 YES
2 BCKDHB BCKDHB BCKDHB 1962 0.24 0.051 YES
3 IVD IVD IVD 2103 0.22 0.11 YES
4 ACAD8 ACAD8 ACAD8 2723 0.17 0.13 YES
5 PCCA PCCA PCCA 2798 0.17 0.17 YES
6 ALDH6A1 ALDH6A1 ALDH6A1 3135 0.15 0.2 YES
7 ALDH2 ALDH2 ALDH2 3282 0.14 0.23 YES
8 ALDH7A1 ALDH7A1 ALDH7A1 3436 0.13 0.26 YES
9 ACADS ACADS ACADS 3657 0.12 0.28 YES
10 ACAA2 ACAA2 ACAA2 4062 0.1 0.29 YES
11 HIBADH HIBADH HIBADH 4068 0.1 0.32 YES
12 HMGCL HMGCL HMGCL 4076 0.1 0.36 YES
13 AUH AUH AUH 4426 0.092 0.36 YES
14 ALDH1B1 ALDH1B1 ALDH1B1 4479 0.09 0.39 YES
15 ACADSB ACADSB ACADSB 4980 0.076 0.38 YES
16 ECHS1 ECHS1 ECHS1 5245 0.068 0.39 YES
17 MCCC2 MCCC2 MCCC2 5358 0.065 0.4 YES
18 ACADM ACADM ACADM 5732 0.056 0.4 YES
19 HADH HADH HADH 6060 0.05 0.39 YES
20 ALDH9A1 ALDH9A1 ALDH9A1 6235 0.046 0.4 YES
21 MCCC1 MCCC1 MCCC1 6428 0.042 0.4 YES
22 ACAT1 ACAT1 ACAT1 6429 0.042 0.41 YES
23 MCEE MCEE MCEE 6589 0.039 0.42 YES
24 ACAA1 ACAA1 ACAA1 7320 0.026 0.38 NO
25 AOX1 AOX1 AOX1 7488 0.024 0.38 NO
26 MUT MUT MUT 7547 0.022 0.38 NO
27 ALDH3A2 ALDH3A2 ALDH3A2 8275 0.012 0.35 NO
28 HADHB HADHB HADHB 8299 0.011 0.35 NO
29 PCCB PCCB PCCB 8690 0.0054 0.33 NO
30 BCAT2 BCAT2 BCAT2 8758 0.0046 0.33 NO
31 HSD17B10 HSD17B10 HSD17B10 8986 0.0013 0.31 NO
32 HADHA HADHA HADHA 8991 0.0013 0.32 NO
33 EHHADH EHHADH EHHADH 9949 -0.012 0.27 NO
34 DBT DBT DBT 10140 -0.015 0.26 NO
35 DLD DLD DLD 10225 -0.017 0.26 NO
36 HIBCH HIBCH HIBCH 10235 -0.017 0.26 NO
37 ACAT2 ACAT2 ACAT2 11631 -0.037 0.2 NO
38 IL4I1 IL4I1 IL4I1 11838 -0.04 0.2 NO
39 BCKDHA BCKDHA BCKDHA 11991 -0.043 0.2 NO
40 OXCT1 OXCT1 OXCT1 12709 -0.056 0.18 NO
41 HMGCS1 HMGCS1 HMGCS1 13011 -0.061 0.18 NO
42 ABAT ABAT ABAT 14889 -0.11 0.11 NO
43 OXCT2 OXCT2 OXCT2 16729 -0.23 0.08 NO

Figure S53.  Get High-res Image This plot shows mRNAseq_cNMF expression data heatmap (on the left) a RunningEnrichmentScore(RES) plot (on the top right) and a Signal2Noise(S2N) plot (on the bottom right) of genes in the pathway: KEGG SELENOAMINO ACID METABOLISM.

Figure S54.  Get High-res Image For the top 5 core enriched genes in the pathway: KEGG SELENOAMINO ACID METABOLISM, this volcano plot shows how much they are up/down-regulated and significant. The significance was calculated by empirical bayesian fit

genes ES table in pathway: KEGG N GLYCAN BIOSYNTHESIS

Table S28.  Get Full Table This table shows a Running Enrichment Score (RES) of each gene in this pathway, that is, the enrichment score at this point in the ranked list of genes. All genes are ranked by Signal-to-Noise (S2N), a measure of similarity as default and are used to obtain ES matrix of all genes. In this way, GSEA tool uses expression pattern of not only overlapped genes but also not-overlapped genes to produce ES matrix.

Rank GENE SYMBOL DESC LIST.LOC S2N RES CORE_ENRICHMENT
1 PIP5K1B PIP5K1B PIP5K1B 20 0.99 0.4 YES
2 ARHGAP6 ARHGAP6 ARHGAP6 2673 0.18 0.32 NO
3 OPHN1 OPHN1 OPHN1 3849 0.11 0.3 NO
4 GSN GSN GSN 5597 0.059 0.23 NO
5 RHOA RHOA RHOA 7058 0.031 0.16 NO
6 BAIAP2 BAIAP2 BAIAP2 7484 0.024 0.15 NO
7 PFN1 PFN1 PFN1 8390 0.0096 0.1 NO
8 ARPC1B ARPC1B ARPC1B 8444 0.0089 0.1 NO
9 ARPC4 ARPC4 ARPC4 8477 0.0084 0.1 NO
10 ARHGAP4 ARHGAP4 ARHGAP4 9002 0.0012 0.074 NO
11 ARHGAP1 ARHGAP1 ARHGAP1 9274 -0.0027 0.06 NO
12 MYL2 MYL2 MYL2 9278 -0.0028 0.061 NO
13 ARHGEF11 ARHGEF11 ARHGEF11 9312 -0.0033 0.061 NO
14 ARHGAP5 ARHGAP5 ARHGAP5 9402 -0.0046 0.058 NO
15 DIAPH1 DIAPH1 DIAPH1 9630 -0.0077 0.048 NO
16 ARPC3 ARPC3 ARPC3 10012 -0.014 0.032 NO
17 ROCK1 ROCK1 ROCK1 10329 -0.018 0.022 NO
18 ARPC5 ARPC5 ARPC5 10639 -0.023 0.014 NO
19 CFL1 CFL1 CFL1 11246 -0.031 -0.0065 NO
20 ACTR2 ACTR2 ACTR2 11255 -0.031 0.0055 NO
21 VCL VCL VCL 11642 -0.037 -0.00096 NO
22 ARPC1A ARPC1A ARPC1A 11895 -0.041 0.0016 NO
23 ARHGEF1 ARHGEF1 ARHGEF1 12111 -0.044 0.0076 NO
24 PPP1R12B PPP1R12B PPP1R12B 12205 -0.046 0.021 NO
25 SRC SRC SRC 12402 -0.05 0.03 NO
26 PIP5K1A PIP5K1A PIP5K1A 13246 -0.066 0.01 NO
27 ACTR3 ACTR3 ACTR3 13631 -0.075 0.019 NO
28 LIMK1 LIMK1 LIMK1 13972 -0.084 0.034 NO
29 ARHGEF5 ARHGEF5 ARHGEF5 14456 -0.098 0.046 NO
30 ARPC2 ARPC2 ARPC2 15278 -0.13 0.054 NO
31 MYLK MYLK MYLK 16984 -0.26 0.065 NO

Figure S55.  Get High-res Image This plot shows mRNAseq_cNMF expression data heatmap (on the left) a RunningEnrichmentScore(RES) plot (on the top right) and a Signal2Noise(S2N) plot (on the bottom right) of genes in the pathway: KEGG N GLYCAN BIOSYNTHESIS.

Figure S56.  Get High-res Image For the top 5 core enriched genes in the pathway: KEGG N GLYCAN BIOSYNTHESIS, this volcano plot shows how much they are up/down-regulated and significant. The significance was calculated by empirical bayesian fit

genes ES table in pathway: KEGG O GLYCAN BIOSYNTHESIS

Table S29.  Get Full Table This table shows a Running Enrichment Score (RES) of each gene in this pathway, that is, the enrichment score at this point in the ranked list of genes. All genes are ranked by Signal-to-Noise (S2N), a measure of similarity as default and are used to obtain ES matrix of all genes. In this way, GSEA tool uses expression pattern of not only overlapped genes but also not-overlapped genes to produce ES matrix.

Rank GENE SYMBOL DESC LIST.LOC S2N RES CORE_ENRICHMENT
1 ST6GALNAC1 ST6GALNAC1 ST6GALNAC1 167 0.69 0.083 YES
2 GCNT3 GCNT3 GCNT3 246 0.63 0.16 YES
3 GALNT12 GALNT12 GALNT12 460 0.53 0.22 YES
4 GALNTL6 GALNTL6 GALNTL6 515 0.5 0.29 YES
5 GALNT4 GALNT4 GALNT4 603 0.47 0.35 YES
6 GALNT9 GALNT9 GALNT9 705 0.44 0.4 YES
7 GALNT6 GALNT6 GALNT6 841 0.4 0.45 YES
8 B3GNT6 B3GNT6 B3GNT6 1047 0.36 0.48 YES
9 GALNTL1 GALNTL1 GALNTL1 1112 0.34 0.53 YES
10 GALNT7 GALNT7 GALNT7 1178 0.34 0.57 YES
11 GCNT1 GCNT1 GCNT1 1318 0.31 0.6 YES
12 GALNT5 GALNT5 GALNT5 2073 0.22 0.59 YES
13 GALNT10 GALNT10 GALNT10 2401 0.2 0.6 YES
14 GALNT8 GALNT8 GALNT8 2981 0.16 0.59 YES
15 C1GALT1 C1GALT1 C1GALT1 3155 0.14 0.6 YES
16 B4GALT5 B4GALT5 B4GALT5 3370 0.13 0.6 YES
17 C1GALT1C1 C1GALT1C1 C1GALT1C1 4388 0.094 0.56 NO
18 ST3GAL2 ST3GAL2 ST3GAL2 6906 0.034 0.43 NO
19 WBSCR17 WBSCR17 WBSCR17 10703 -0.024 0.22 NO
20 GALNT11 GALNT11 GALNT11 11379 -0.033 0.19 NO
21 GALNTL2 GALNTL2 GALNTL2 12494 -0.052 0.13 NO
22 GALNT13 GALNT13 GALNT13 12541 -0.052 0.14 NO
23 ST3GAL1 ST3GAL1 ST3GAL1 13681 -0.077 0.085 NO
24 GALNT2 GALNT2 GALNT2 14015 -0.085 0.078 NO
25 GALNT1 GALNT1 GALNT1 15181 -0.13 0.031 NO
26 GALNT14 GALNT14 GALNT14 16770 -0.24 -0.025 NO
27 GCNT4 GCNT4 GCNT4 17275 -0.31 -0.011 NO
28 GALNTL4 GALNTL4 GALNTL4 17822 -0.45 0.019 NO

Figure S57.  Get High-res Image This plot shows mRNAseq_cNMF expression data heatmap (on the left) a RunningEnrichmentScore(RES) plot (on the top right) and a Signal2Noise(S2N) plot (on the bottom right) of genes in the pathway: KEGG O GLYCAN BIOSYNTHESIS.

Figure S58.  Get High-res Image For the top 5 core enriched genes in the pathway: KEGG O GLYCAN BIOSYNTHESIS, this volcano plot shows how much they are up/down-regulated and significant. The significance was calculated by empirical bayesian fit

genes ES table in pathway: KEGG INOSITOL PHOSPHATE METABOLISM

Table S30.  Get Full Table This table shows a Running Enrichment Score (RES) of each gene in this pathway, that is, the enrichment score at this point in the ranked list of genes. All genes are ranked by Signal-to-Noise (S2N), a measure of similarity as default and are used to obtain ES matrix of all genes. In this way, GSEA tool uses expression pattern of not only overlapped genes but also not-overlapped genes to produce ES matrix.

Rank GENE SYMBOL DESC LIST.LOC S2N RES CORE_ENRICHMENT
1 SMPD3 SMPD3 SMPD3 128 0.72 0.1 YES
2 DEGS2 DEGS2 DEGS2 154 0.7 0.21 YES
3 NEU4 NEU4 NEU4 168 0.69 0.31 YES
4 GAL3ST1 GAL3ST1 GAL3ST1 177 0.68 0.42 YES
5 UGT8 UGT8 UGT8 595 0.47 0.47 YES
6 SGPP2 SGPP2 SGPP2 1780 0.25 0.44 YES
7 PPAP2C PPAP2C PPAP2C 1926 0.24 0.47 YES
8 GLB1 GLB1 GLB1 2758 0.17 0.45 YES
9 SGMS2 SGMS2 SGMS2 2888 0.16 0.47 YES
10 SMPD2 SMPD2 SMPD2 2914 0.16 0.49 YES
11 NEU1 NEU1 NEU1 3530 0.13 0.48 NO
12 PPAP2B PPAP2B PPAP2B 4380 0.094 0.44 NO
13 ASAH1 ASAH1 ASAH1 4539 0.088 0.45 NO
14 SMPD1 SMPD1 SMPD1 4543 0.088 0.46 NO
15 SPHK2 SPHK2 SPHK2 4753 0.083 0.46 NO
16 NEU3 NEU3 NEU3 4897 0.079 0.47 NO
17 SPTLC2 SPTLC2 SPTLC2 5571 0.06 0.44 NO
18 GALC GALC GALC 5665 0.058 0.44 NO
19 ARSA ARSA ARSA 6276 0.045 0.42 NO
20 CERK CERK CERK 6450 0.042 0.42 NO
21 SGPL1 SGPL1 SGPL1 7231 0.028 0.38 NO
22 GBA GBA GBA 8348 0.01 0.32 NO
23 SMPD4 SMPD4 SMPD4 9162 -0.00098 0.27 NO
24 ASAH2 ASAH2 ASAH2 10522 -0.021 0.2 NO
25 GLA GLA GLA 10573 -0.022 0.2 NO
26 SGMS1 SGMS1 SGMS1 11489 -0.034 0.16 NO
27 ACER3 ACER3 ACER3 12068 -0.044 0.13 NO
28 SPTLC1 SPTLC1 SPTLC1 13136 -0.064 0.081 NO
29 DEGS1 DEGS1 DEGS1 13724 -0.078 0.06 NO
30 UGCG UGCG UGCG 13867 -0.081 0.065 NO
31 PPAP2A PPAP2A PPAP2A 14003 -0.085 0.071 NO
32 B4GALT6 B4GALT6 B4GALT6 15112 -0.12 0.028 NO
33 SPHK1 SPHK1 SPHK1 15522 -0.14 0.028 NO
34 ACER2 ACER2 ACER2 15765 -0.16 0.038 NO
35 SGPP1 SGPP1 SGPP1 15805 -0.16 0.061 NO
36 KDSR KDSR KDSR 15818 -0.16 0.085 NO
37 ACER1 ACER1 ACER1 17165 -0.29 0.055 NO

Figure S59.  Get High-res Image This plot shows mRNAseq_cNMF expression data heatmap (on the left) a RunningEnrichmentScore(RES) plot (on the top right) and a Signal2Noise(S2N) plot (on the bottom right) of genes in the pathway: KEGG INOSITOL PHOSPHATE METABOLISM.

Figure S60.  Get High-res Image For the top 5 core enriched genes in the pathway: KEGG INOSITOL PHOSPHATE METABOLISM, this volcano plot shows how much they are up/down-regulated and significant. The significance was calculated by empirical bayesian fit

Fold change

For the top enriched genes, if you want to check whether they are

Expression level

For the top enriched genes, if you want to check whether they are

An expression pattern of top(30%)/middle(30%)/low(30%) in this subtype against other subtypes is available in a heatmap

Significant gene list

For the top enriched genes, if you want to check whether they are

Subtype clus4 enriched pathways

Table 6.  Get Full Table This table shows top 10 pathways which are significantly enriched in cluster clus4. It displays only significant gene sets satisfying nom.p.val.threshold (-1), fwer.p.val.threshold (-1) , fdr.q.val.threshold (0.25) and the default table is sorted by Normalized Enrichment Score (NES). Further details on NES statistics, please visit The Broad GSEA website.

GeneSet(GS) Size(#genes) genes.ES.table ES NES NOM.p.val FDR.q.val FWER.p.val Tag.. Gene.. Signal FDR..median. glob.p.val
BIOCARTA G1 PATHWAY 27 genes.ES.table 0.43 1.3 0.17 0.58 0.99 0.26 0.14 0.22 0.49 0.13
BIOCARTA INFLAM PATHWAY 26 genes.ES.table 0.68 1.4 0.081 0.56 0.96 0.5 0.094 0.45 0.46 0.14
BIOCARTA ERK PATHWAY 27 genes.ES.table 0.47 1.5 0.092 0.43 0.92 0.37 0.16 0.31 0.32 0.08
BIOCARTA INTEGRIN PATHWAY 37 genes.ES.table 0.57 2 0 0.13 0.077 0.3 0.13 0.26 0 0.052
BIOCARTA IL1R PATHWAY 32 genes.ES.table 0.62 1.7 0.012 0.23 0.52 0.28 0.08 0.26 0.12 0.05
KEGG PYRIMIDINE METABOLISM 96 genes.ES.table 0.32 1.5 0.065 0.43 0.9 0.31 0.22 0.24 0.31 0.086
KEGG AMINOACYL TRNA BIOSYNTHESIS 40 genes.ES.table 0.39 1.5 0.11 0.42 0.86 0.4 0.28 0.29 0.3 0.094
KEGG RIBOSOME 84 genes.ES.table 0.67 1.7 0.059 0.26 0.66 0.92 0.31 0.63 0.16 0.049
KEGG SPLICEOSOME 125 genes.ES.table 0.32 1.4 0.16 0.64 0.98 1 0.68 0.32 0.54 0.17
KEGG PROTEASOME 42 genes.ES.table 0.63 1.8 0.006 0.24 0.37 0.93 0.35 0.6 0 0.069
genes ES table in pathway: BIOCARTA G1 PATHWAY

Table S31.  Get Full Table This table shows a Running Enrichment Score (RES) of each gene in this pathway, that is, the enrichment score at this point in the ranked list of genes. All genes are ranked by Signal-to-Noise (S2N), a measure of similarity as default and are used to obtain ES matrix of all genes. In this way, GSEA tool uses expression pattern of not only overlapped genes but also not-overlapped genes to produce ES matrix.

Rank GENE SYMBOL DESC LIST.LOC S2N RES CORE_ENRICHMENT
1 CAV1 CAV1 CAV1 71 0.5 0.16 YES
2 PXN PXN PXN 647 0.25 0.21 YES
3 ACTN1 ACTN1 ACTN1 824 0.22 0.27 YES
4 ITGA1 ITGA1 ITGA1 906 0.21 0.34 YES
5 BCAR1 BCAR1 BCAR1 1275 0.17 0.37 YES
6 SHC1 SHC1 SHC1 1378 0.16 0.42 YES
7 ITGB1 ITGB1 ITGB1 1496 0.16 0.46 YES
8 HRAS HRAS HRAS 1688 0.14 0.5 YES
9 ACTN3 ACTN3 ACTN3 1730 0.14 0.54 YES
10 ZYX ZYX ZYX 1986 0.12 0.56 YES
11 MAP2K1 MAP2K1 MAP2K1 2417 0.099 0.57 YES
12 FYN FYN FYN 3192 0.073 0.55 NO
13 VCL VCL VCL 3286 0.07 0.57 NO
14 BCR BCR BCR 4333 0.048 0.53 NO
15 CRKL CRKL CRKL 4710 0.041 0.52 NO
16 CAPNS1 CAPNS1 CAPNS1 5019 0.036 0.52 NO
17 CAPN1 CAPN1 CAPN1 5024 0.036 0.53 NO
18 PTK2 PTK2 PTK2 5047 0.035 0.54 NO
19 ACTN2 ACTN2 ACTN2 5269 0.032 0.54 NO
20 CAPNS2 CAPNS2 CAPNS2 5337 0.031 0.54 NO
21 RAPGEF1 RAPGEF1 RAPGEF1 5643 0.026 0.53 NO
22 RHOA RHOA RHOA 6111 0.019 0.51 NO
23 GRB2 GRB2 GRB2 6560 0.013 0.49 NO
24 RAP1A RAP1A RAP1A 7274 0.0033 0.46 NO
25 MAPK8 MAPK8 MAPK8 7474 0.00078 0.44 NO
26 MAPK3 MAPK3 MAPK3 7783 -0.0032 0.43 NO
27 MAPK1 MAPK1 MAPK1 8335 -0.011 0.4 NO
28 MAP2K2 MAP2K2 MAP2K2 8483 -0.013 0.4 NO
29 ROCK1 ROCK1 ROCK1 8496 -0.013 0.4 NO
30 CSK CSK CSK 8540 -0.014 0.4 NO
31 JUN JUN JUN 9413 -0.025 0.36 NO
32 SRC SRC SRC 10512 -0.041 0.32 NO
33 SOS1 SOS1 SOS1 10525 -0.042 0.33 NO
34 RAF1 RAF1 RAF1 10546 -0.042 0.34 NO
35 TNS1 TNS1 TNS1 11027 -0.05 0.33 NO
36 ACTA1 ACTA1 ACTA1 12510 -0.081 0.28 NO
37 PPP1R12B PPP1R12B PPP1R12B 13702 -0.11 0.25 NO

Figure S61.  Get High-res Image This plot shows mRNAseq_cNMF expression data heatmap (on the left) a RunningEnrichmentScore(RES) plot (on the top right) and a Signal2Noise(S2N) plot (on the bottom right) of genes in the pathway: BIOCARTA G1 PATHWAY.

Figure S62.  Get High-res Image For the top 5 core enriched genes in the pathway: BIOCARTA G1 PATHWAY, this volcano plot shows how much they are up/down-regulated and significant. The significance was calculated by empirical bayesian fit

genes ES table in pathway: BIOCARTA INFLAM PATHWAY

Table S32.  Get Full Table This table shows a Running Enrichment Score (RES) of each gene in this pathway, that is, the enrichment score at this point in the ranked list of genes. All genes are ranked by Signal-to-Noise (S2N), a measure of similarity as default and are used to obtain ES matrix of all genes. In this way, GSEA tool uses expression pattern of not only overlapped genes but also not-overlapped genes to produce ES matrix.

Rank GENE SYMBOL DESC LIST.LOC S2N RES CORE_ENRICHMENT
1 IL1B IL1B IL1B 10 0.69 0.073 YES
2 IL6 IL6 IL6 58 0.52 0.13 YES
3 MEFV MEFV MEFV 61 0.51 0.18 YES
4 CXCL2 CXCL2 CXCL2 166 0.42 0.22 YES
5 IL8 IL8 IL8 172 0.41 0.26 YES
6 TNF TNF TNF 296 0.35 0.29 YES
7 CCL7 CCL7 CCL7 300 0.34 0.33 YES
8 CASP5 CASP5 CASP5 302 0.34 0.37 YES
9 CCL8 CCL8 CCL8 343 0.33 0.4 YES
10 BIRC3 BIRC3 BIRC3 377 0.32 0.43 YES
11 CASP1 CASP1 CASP1 539 0.27 0.45 YES
12 CXCL1 CXCL1 CXCL1 543 0.27 0.48 YES
13 MAPK12 MAPK12 MAPK12 545 0.27 0.51 YES
14 IL18 IL18 IL18 603 0.26 0.54 YES
15 BIRC2 BIRC2 BIRC2 610 0.26 0.56 YES
16 CCL13 CCL13 CCL13 685 0.24 0.58 YES
17 NLRP3 NLRP3 NLRP3 898 0.21 0.6 YES
18 MAPK11 MAPK11 MAPK11 1206 0.18 0.6 YES
19 CARD6 CARD6 CARD6 1207 0.18 0.62 YES
20 RIPK2 RIPK2 RIPK2 1240 0.18 0.63 YES
21 CCL2 CCL2 CCL2 1338 0.17 0.65 YES
22 CCL5 CCL5 CCL5 1444 0.16 0.66 YES
23 TNFAIP3 TNFAIP3 TNFAIP3 1472 0.16 0.67 YES
24 PYCARD PYCARD PYCARD 1936 0.12 0.66 NO
25 NLRC4 NLRC4 NLRC4 2264 0.11 0.65 NO
26 PSTPIP1 PSTPIP1 PSTPIP1 2489 0.096 0.65 NO
27 NOD1 NOD1 NOD1 2530 0.095 0.66 NO
28 NLRP1 NLRP1 NLRP1 2768 0.087 0.66 NO
29 TRIP6 TRIP6 TRIP6 3555 0.063 0.62 NO
30 MAPK14 MAPK14 MAPK14 3870 0.056 0.61 NO
31 MAPK13 MAPK13 MAPK13 4070 0.053 0.6 NO
32 HSP90B1 HSP90B1 HSP90B1 4408 0.047 0.59 NO
33 NFKBIA NFKBIA NFKBIA 4536 0.044 0.59 NO
34 SUGT1 SUGT1 SUGT1 5008 0.036 0.56 NO
35 IKBKG IKBKG IKBKG 5174 0.033 0.56 NO
36 NFKB1 NFKB1 NFKB1 5322 0.031 0.55 NO
37 MAPK9 MAPK9 MAPK9 5396 0.029 0.55 NO
38 TRAF6 TRAF6 TRAF6 5697 0.025 0.54 NO
39 NFKBIB NFKBIB NFKBIB 6322 0.016 0.51 NO
40 HSP90AA1 HSP90AA1 HSP90AA1 6765 0.01 0.48 NO
41 MAP3K7 MAP3K7 MAP3K7 6881 0.0085 0.48 NO
42 CASP8 CASP8 CASP8 6929 0.008 0.48 NO
43 MAPK8 MAPK8 MAPK8 7474 0.00078 0.44 NO
44 RELA RELA RELA 7740 -0.0026 0.43 NO
45 MAPK3 MAPK3 MAPK3 7783 -0.0032 0.43 NO
46 TAB2 TAB2 TAB2 8285 -0.01 0.4 NO
47 MAPK1 MAPK1 MAPK1 8335 -0.011 0.4 NO
48 CHUK CHUK CHUK 9118 -0.021 0.36 NO
49 CARD18 CARD18 CARD18 9208 -0.022 0.36 NO
50 PYDC1 PYDC1 PYDC1 9254 -0.023 0.36 NO
51 TAB3 TAB3 TAB3 10150 -0.036 0.31 NO
52 CARD8 CARD8 CARD8 10753 -0.046 0.28 NO
53 NOD2 NOD2 NOD2 11529 -0.06 0.25 NO
54 TAB1 TAB1 TAB1 11729 -0.064 0.24 NO
55 XIAP XIAP XIAP 11951 -0.069 0.24 NO
56 IKBKB IKBKB IKBKB 12625 -0.083 0.21 NO
57 ERBB2IP ERBB2IP ERBB2IP 13031 -0.094 0.2 NO
58 CCL11 CCL11 CCL11 13203 -0.098 0.2 NO
59 CARD9 CARD9 CARD9 15362 -0.18 0.099 NO
60 NAIP NAIP NAIP 15545 -0.2 0.11 NO
61 MAPK10 MAPK10 MAPK10 17214 -0.33 0.053 NO

Figure S63.  Get High-res Image This plot shows mRNAseq_cNMF expression data heatmap (on the left) a RunningEnrichmentScore(RES) plot (on the top right) and a Signal2Noise(S2N) plot (on the bottom right) of genes in the pathway: BIOCARTA INFLAM PATHWAY.

Figure S64.  Get High-res Image For the top 5 core enriched genes in the pathway: BIOCARTA INFLAM PATHWAY, this volcano plot shows how much they are up/down-regulated and significant. The significance was calculated by empirical bayesian fit

genes ES table in pathway: BIOCARTA ERK PATHWAY

Table S33.  Get Full Table This table shows a Running Enrichment Score (RES) of each gene in this pathway, that is, the enrichment score at this point in the ranked list of genes. All genes are ranked by Signal-to-Noise (S2N), a measure of similarity as default and are used to obtain ES matrix of all genes. In this way, GSEA tool uses expression pattern of not only overlapped genes but also not-overlapped genes to produce ES matrix.

Rank GENE SYMBOL DESC LIST.LOC S2N RES CORE_ENRICHMENT
1 IFNG IFNG IFNG 604 0.26 0.081 YES
2 PSMB9 PSMB9 PSMB9 1401 0.16 0.11 YES
3 PSMB7 PSMB7 PSMB7 2243 0.11 0.11 YES
4 PSMD12 PSMD12 PSMD12 2269 0.1 0.16 YES
5 PSMA6 PSMA6 PSMA6 2693 0.089 0.17 YES
6 PSMB8 PSMB8 PSMB8 2722 0.088 0.21 YES
7 PSMC1 PSMC1 PSMC1 3084 0.076 0.22 YES
8 PSME2 PSME2 PSME2 3185 0.073 0.25 YES
9 PSMD14 PSMD14 PSMD14 3433 0.067 0.26 YES
10 PSMA2 PSMA2 PSMA2 3488 0.065 0.29 YES
11 PSMA4 PSMA4 PSMA4 3511 0.064 0.32 YES
12 PSMB5 PSMB5 PSMB5 3709 0.06 0.33 YES
13 PSMC6 PSMC6 PSMC6 3842 0.057 0.35 YES
14 PSMB2 PSMB2 PSMB2 3873 0.056 0.37 YES
15 PSMA3 PSMA3 PSMA3 3996 0.054 0.39 YES
16 PSMD8 PSMD8 PSMD8 3998 0.054 0.42 YES
17 PSMA7 PSMA7 PSMA7 4186 0.051 0.43 YES
18 POMP POMP POMP 4204 0.05 0.45 YES
19 PSMA1 PSMA1 PSMA1 4277 0.049 0.47 YES
20 PSMA5 PSMA5 PSMA5 4483 0.045 0.48 YES
21 PSMA8 PSMA8 PSMA8 4703 0.042 0.48 YES
22 PSMB3 PSMB3 PSMB3 4829 0.039 0.49 YES
23 PSMB4 PSMB4 PSMB4 4838 0.039 0.51 YES
24 PSMD6 PSMD6 PSMD6 4846 0.039 0.52 YES
25 PSMD3 PSMD3 PSMD3 4901 0.038 0.54 YES
26 PSMC4 PSMC4 PSMC4 4956 0.037 0.55 YES
27 PSME1 PSME1 PSME1 4957 0.037 0.57 YES
28 PSMD13 PSMD13 PSMD13 4980 0.036 0.58 YES
29 PSMB1 PSMB1 PSMB1 5005 0.036 0.6 YES
30 PSMD7 PSMD7 PSMD7 5093 0.034 0.61 YES
31 PSMD11 PSMD11 PSMD11 5348 0.03 0.61 YES
32 PSMD2 PSMD2 PSMD2 5546 0.027 0.61 YES
33 PSME3 PSME3 PSME3 5553 0.027 0.62 YES
34 PSMC3 PSMC3 PSMC3 5765 0.024 0.62 YES
35 PSMD4 PSMD4 PSMD4 5851 0.023 0.62 YES
36 PSMB6 PSMB6 PSMB6 5967 0.021 0.63 YES
37 PSMC5 PSMC5 PSMC5 6180 0.018 0.62 YES
38 PSMD1 PSMD1 PSMD1 6238 0.017 0.63 YES
39 PSMC2 PSMC2 PSMC2 6362 0.016 0.63 YES
40 SHFM1 SHFM1 SHFM1 6643 0.012 0.62 NO
41 PSMF1 PSMF1 PSMF1 6944 0.0078 0.6 NO
42 PSME4 PSME4 PSME4 9855 -0.031 0.46 NO

Figure S65.  Get High-res Image This plot shows mRNAseq_cNMF expression data heatmap (on the left) a RunningEnrichmentScore(RES) plot (on the top right) and a Signal2Noise(S2N) plot (on the bottom right) of genes in the pathway: BIOCARTA ERK PATHWAY.

Figure S66.  Get High-res Image For the top 5 core enriched genes in the pathway: BIOCARTA ERK PATHWAY, this volcano plot shows how much they are up/down-regulated and significant. The significance was calculated by empirical bayesian fit

genes ES table in pathway: BIOCARTA INTEGRIN PATHWAY

Table S34.  Get Full Table This table shows a Running Enrichment Score (RES) of each gene in this pathway, that is, the enrichment score at this point in the ranked list of genes. All genes are ranked by Signal-to-Noise (S2N), a measure of similarity as default and are used to obtain ES matrix of all genes. In this way, GSEA tool uses expression pattern of not only overlapped genes but also not-overlapped genes to produce ES matrix.

Rank GENE SYMBOL DESC LIST.LOC S2N RES CORE_ENRICHMENT
1 IL1B IL1B IL1B 10 0.69 0.13 YES
2 IL6 IL6 IL6 58 0.52 0.22 YES
3 AIM2 AIM2 AIM2 107 0.46 0.31 YES
4 CCL4 CCL4 CCL4 476 0.29 0.34 YES
5 CXCL10 CXCL10 CXCL10 528 0.28 0.39 YES
6 CASP1 CASP1 CASP1 539 0.27 0.44 YES
7 IL18 IL18 IL18 603 0.26 0.49 YES
8 CCL4L2 CCL4L2 CCL4L2 702 0.24 0.53 YES
9 POLR3G POLR3G POLR3G 888 0.22 0.56 YES
10 IL33 IL33 IL33 1408 0.16 0.56 YES
11 CCL5 CCL5 CCL5 1444 0.16 0.59 YES
12 IFNA13 IFNA13 IFNA13 1879 0.13 0.59 YES
13 DDX58 DDX58 DDX58 1883 0.13 0.62 YES
14 PYCARD PYCARD PYCARD 1936 0.12 0.64 YES
15 IFNB1 IFNB1 IFNB1 2312 0.1 0.63 YES
16 IRF7 IRF7 IRF7 2485 0.096 0.64 YES
17 ZBP1 ZBP1 ZBP1 2728 0.088 0.65 YES
18 POLR3A POLR3A POLR3A 3645 0.061 0.61 NO
19 IFNA1 IFNA1 IFNA1 3869 0.056 0.6 NO
20 IRF3 IRF3 IRF3 4071 0.053 0.6 NO
21 NFKBIA NFKBIA NFKBIA 4536 0.044 0.59 NO
22 IKBKG IKBKG IKBKG 5174 0.033 0.56 NO
23 POLR3D POLR3D POLR3D 5189 0.033 0.56 NO
24 NFKB1 NFKB1 NFKB1 5322 0.031 0.56 NO
25 POLR3H POLR3H POLR3H 5859 0.023 0.54 NO
26 POLR1C POLR1C POLR1C 6049 0.02 0.53 NO
27 RIPK1 RIPK1 RIPK1 6179 0.018 0.53 NO
28 TMEM173 TMEM173 TMEM173 6296 0.017 0.52 NO
29 NFKBIB NFKBIB NFKBIB 6322 0.016 0.52 NO
30 ADAR ADAR ADAR 6399 0.015 0.52 NO
31 POLR3K POLR3K POLR3K 6692 0.011 0.51 NO
32 RELA RELA RELA 7740 -0.0026 0.45 NO
33 POLR3B POLR3B POLR3B 7811 -0.0037 0.45 NO
34 TBK1 TBK1 TBK1 8481 -0.013 0.42 NO
35 POLR1D POLR1D POLR1D 8735 -0.016 0.4 NO
36 POLR3C POLR3C POLR3C 8747 -0.016 0.41 NO
37 CHUK CHUK CHUK 9118 -0.021 0.39 NO
38 MAVS MAVS MAVS 9157 -0.022 0.39 NO
39 POLR3F POLR3F POLR3F 10331 -0.039 0.33 NO
40 TREX1 TREX1 TREX1 11596 -0.061 0.28 NO
41 IKBKB IKBKB IKBKB 12625 -0.083 0.24 NO
42 IKBKE IKBKE IKBKE 12937 -0.092 0.24 NO
43 POLR3GL POLR3GL POLR3GL 14306 -0.14 0.18 NO
44 RIPK3 RIPK3 RIPK3 14612 -0.15 0.2 NO

Figure S67.  Get High-res Image This plot shows mRNAseq_cNMF expression data heatmap (on the left) a RunningEnrichmentScore(RES) plot (on the top right) and a Signal2Noise(S2N) plot (on the bottom right) of genes in the pathway: BIOCARTA INTEGRIN PATHWAY.

Figure S68.  Get High-res Image For the top 5 core enriched genes in the pathway: BIOCARTA INTEGRIN PATHWAY, this volcano plot shows how much they are up/down-regulated and significant. The significance was calculated by empirical bayesian fit

genes ES table in pathway: BIOCARTA IL1R PATHWAY

Table S35.  Get Full Table This table shows a Running Enrichment Score (RES) of each gene in this pathway, that is, the enrichment score at this point in the ranked list of genes. All genes are ranked by Signal-to-Noise (S2N), a measure of similarity as default and are used to obtain ES matrix of all genes. In this way, GSEA tool uses expression pattern of not only overlapped genes but also not-overlapped genes to produce ES matrix.

Rank GENE SYMBOL DESC LIST.LOC S2N RES CORE_ENRICHMENT
1 IL1B IL1B IL1B 10 0.69 0.14 YES
2 IL1A IL1A IL1A 15 0.66 0.28 YES
3 IL6 IL6 IL6 58 0.52 0.38 YES
4 TGFB2 TGFB2 TGFB2 169 0.41 0.46 YES
5 TNF TNF TNF 296 0.35 0.52 YES
6 TGFB1 TGFB1 TGFB1 664 0.25 0.55 YES
7 IRAK2 IRAK2 IRAK2 1118 0.19 0.57 YES
8 IL1RAP IL1RAP IL1RAP 1311 0.17 0.59 YES
9 IL1RN IL1RN IL1RN 1462 0.16 0.62 YES
10 IFNB1 IFNB1 IFNB1 2312 0.1 0.59 NO
11 MAP2K3 MAP2K3 MAP2K3 2685 0.09 0.59 NO
12 IFNA1 IFNA1 IFNA1 3869 0.056 0.53 NO
13 MAPK14 MAPK14 MAPK14 3870 0.056 0.55 NO
14 NFKBIA NFKBIA NFKBIA 4536 0.044 0.52 NO
15 IRAK3 IRAK3 IRAK3 5265 0.032 0.48 NO
16 NFKB1 NFKB1 NFKB1 5322 0.031 0.49 NO
17 IRAK1 IRAK1 IRAK1 5503 0.028 0.48 NO
18 TRAF6 TRAF6 TRAF6 5697 0.025 0.48 NO
19 MYD88 MYD88 MYD88 6135 0.019 0.46 NO
20 MAP3K7 MAP3K7 MAP3K7 6881 0.0085 0.42 NO
21 MAPK8 MAPK8 MAPK8 7474 0.00078 0.38 NO
22 RELA RELA RELA 7740 -0.0026 0.37 NO
23 CHUK CHUK CHUK 9118 -0.021 0.3 NO
24 JUN JUN JUN 9413 -0.025 0.29 NO
25 TOLLIP TOLLIP TOLLIP 9570 -0.027 0.29 NO
26 MAP3K14 MAP3K14 MAP3K14 9706 -0.029 0.28 NO
27 ECSIT ECSIT ECSIT 11342 -0.056 0.2 NO
28 TAB1 TAB1 TAB1 11729 -0.064 0.2 NO
29 IKBKB IKBKB IKBKB 12625 -0.083 0.16 NO
30 TGFB3 TGFB3 TGFB3 14357 -0.14 0.097 NO
31 MAP3K1 MAP3K1 MAP3K1 14807 -0.16 0.1 NO
32 MAP2K6 MAP2K6 MAP2K6 17592 -0.4 0.032 NO

Figure S69.  Get High-res Image This plot shows mRNAseq_cNMF expression data heatmap (on the left) a RunningEnrichmentScore(RES) plot (on the top right) and a Signal2Noise(S2N) plot (on the bottom right) of genes in the pathway: BIOCARTA IL1R PATHWAY.

Figure S70.  Get High-res Image For the top 5 core enriched genes in the pathway: BIOCARTA IL1R PATHWAY, this volcano plot shows how much they are up/down-regulated and significant. The significance was calculated by empirical bayesian fit

genes ES table in pathway: KEGG PYRIMIDINE METABOLISM

Table S36.  Get Full Table This table shows a Running Enrichment Score (RES) of each gene in this pathway, that is, the enrichment score at this point in the ranked list of genes. All genes are ranked by Signal-to-Noise (S2N), a measure of similarity as default and are used to obtain ES matrix of all genes. In this way, GSEA tool uses expression pattern of not only overlapped genes but also not-overlapped genes to produce ES matrix.

Rank GENE SYMBOL DESC LIST.LOC S2N RES CORE_ENRICHMENT
1 IFNK IFNK IFNK 8 0.7 0.12 YES
2 IL8 IL8 IL8 172 0.41 0.18 YES
3 TNF TNF TNF 296 0.35 0.23 YES
4 IFNE IFNE IFNE 342 0.33 0.28 YES
5 CXCL10 CXCL10 CXCL10 528 0.28 0.32 YES
6 MAPK12 MAPK12 MAPK12 545 0.27 0.37 YES
7 ISG15 ISG15 ISG15 871 0.22 0.38 YES
8 MAPK11 MAPK11 MAPK11 1206 0.18 0.4 YES
9 CASP10 CASP10 CASP10 1429 0.16 0.41 YES
10 IFNA13 IFNA13 IFNA13 1879 0.13 0.41 YES
11 DDX58 DDX58 DDX58 1883 0.13 0.43 YES
12 IFIH1 IFIH1 IFIH1 2039 0.12 0.44 YES
13 IFNB1 IFNB1 IFNB1 2312 0.1 0.44 YES
14 TBKBP1 TBKBP1 TBKBP1 2351 0.1 0.46 YES
15 FADD FADD FADD 2411 0.099 0.47 YES
16 IRF7 IRF7 IRF7 2485 0.096 0.48 YES
17 TRAF3 TRAF3 TRAF3 2511 0.095 0.5 YES
18 TRADD TRADD TRADD 2832 0.085 0.5 NO
19 ATG12 ATG12 ATG12 3691 0.06 0.46 NO
20 IFNA1 IFNA1 IFNA1 3869 0.056 0.46 NO
21 MAPK14 MAPK14 MAPK14 3870 0.056 0.47 NO
22 TRAF2 TRAF2 TRAF2 3883 0.056 0.48 NO
23 MAPK13 MAPK13 MAPK13 4070 0.053 0.48 NO
24 IRF3 IRF3 IRF3 4071 0.053 0.48 NO
25 NFKBIA NFKBIA NFKBIA 4536 0.044 0.47 NO
26 IKBKG IKBKG IKBKG 5174 0.033 0.44 NO
27 NFKB1 NFKB1 NFKB1 5322 0.031 0.43 NO
28 MAPK9 MAPK9 MAPK9 5396 0.029 0.43 NO
29 TRIM25 TRIM25 TRIM25 5597 0.027 0.43 NO
30 TRAF6 TRAF6 TRAF6 5697 0.025 0.43 NO
31 RIPK1 RIPK1 RIPK1 6179 0.018 0.4 NO
32 AZI2 AZI2 AZI2 6197 0.018 0.4 NO
33 TMEM173 TMEM173 TMEM173 6296 0.017 0.4 NO
34 NFKBIB NFKBIB NFKBIB 6322 0.016 0.4 NO
35 NLRX1 NLRX1 NLRX1 6640 0.012 0.39 NO
36 MAP3K7 MAP3K7 MAP3K7 6881 0.0085 0.38 NO
37 CASP8 CASP8 CASP8 6929 0.008 0.38 NO
38 MAPK8 MAPK8 MAPK8 7474 0.00078 0.34 NO
39 PIN1 PIN1 PIN1 7482 0.00071 0.34 NO
40 TANK TANK TANK 7626 -0.001 0.34 NO
41 RELA RELA RELA 7740 -0.0026 0.33 NO
42 OTUD5 OTUD5 OTUD5 8286 -0.01 0.3 NO
43 TBK1 TBK1 TBK1 8481 -0.013 0.3 NO
44 DHX58 DHX58 DHX58 8510 -0.013 0.3 NO
45 DAK DAK DAK 8579 -0.014 0.29 NO
46 CYLD CYLD CYLD 8606 -0.015 0.3 NO
47 ATG5 ATG5 ATG5 8842 -0.018 0.28 NO
48 CHUK CHUK CHUK 9118 -0.021 0.27 NO
49 MAVS MAVS MAVS 9157 -0.022 0.28 NO
50 DDX3X DDX3X DDX3X 9995 -0.033 0.23 NO
51 SIKE1 SIKE1 SIKE1 11971 -0.069 0.14 NO
52 IKBKB IKBKB IKBKB 12625 -0.083 0.12 NO
53 IKBKE IKBKE IKBKE 12937 -0.092 0.11 NO
54 RNF125 RNF125 RNF125 13016 -0.093 0.12 NO
55 MAP3K1 MAP3K1 MAP3K1 14807 -0.16 0.052 NO
56 IL12B IL12B IL12B 14955 -0.16 0.072 NO
57 IL12A IL12A IL12A 16841 -0.29 0.017 NO
58 MAPK10 MAPK10 MAPK10 17214 -0.33 0.053 NO

Figure S71.  Get High-res Image This plot shows mRNAseq_cNMF expression data heatmap (on the left) a RunningEnrichmentScore(RES) plot (on the top right) and a Signal2Noise(S2N) plot (on the bottom right) of genes in the pathway: KEGG PYRIMIDINE METABOLISM.

Figure S72.  Get High-res Image For the top 5 core enriched genes in the pathway: KEGG PYRIMIDINE METABOLISM, this volcano plot shows how much they are up/down-regulated and significant. The significance was calculated by empirical bayesian fit

genes ES table in pathway: KEGG AMINOACYL TRNA BIOSYNTHESIS

Table S37.  Get Full Table This table shows a Running Enrichment Score (RES) of each gene in this pathway, that is, the enrichment score at this point in the ranked list of genes. All genes are ranked by Signal-to-Noise (S2N), a measure of similarity as default and are used to obtain ES matrix of all genes. In this way, GSEA tool uses expression pattern of not only overlapped genes but also not-overlapped genes to produce ES matrix.

Rank GENE SYMBOL DESC LIST.LOC S2N RES CORE_ENRICHMENT
1 RPL3L RPL3L RPL3L 201 0.39 0.064 YES
2 RPL36A RPL36A RPL36A 834 0.22 0.073 YES
3 RPS26 RPS26 RPS26 2047 0.12 0.028 YES
4 RPL37 RPL37 RPL37 2297 0.1 0.034 YES
5 RPL26L1 RPL26L1 RPL26L1 2337 0.1 0.052 YES
6 RPS17 RPS17 RPS17 2401 0.1 0.068 YES
7 RPL39 RPL39 RPL39 2432 0.099 0.085 YES
8 RPL28 RPL28 RPL28 2438 0.098 0.1 YES
9 RPS2 RPS2 RPS2 2507 0.096 0.12 YES
10 RPL18A RPL18A RPL18A 2524 0.095 0.14 YES
11 RPL35 RPL35 RPL35 2564 0.094 0.15 YES
12 RPS16 RPS16 RPS16 2565 0.094 0.17 YES
13 RPL38 RPL38 RPL38 2577 0.093 0.19 YES
14 RPL13 RPL13 RPL13 2737 0.087 0.2 YES
15 RPL36AL RPL36AL RPL36AL 2751 0.087 0.21 YES
16 RPS10 RPS10 RPS10 2778 0.086 0.23 YES
17 RPS5 RPS5 RPS5 2801 0.086 0.24 YES
18 RPL27 RPL27 RPL27 2950 0.08 0.25 YES
19 RPL8 RPL8 RPL8 3001 0.078 0.26 YES
20 RPL12 RPL12 RPL12 3036 0.077 0.28 YES
21 RPS3 RPS3 RPS3 3121 0.075 0.28 YES
22 RPL4 RPL4 RPL4 3235 0.072 0.29 YES
23 RPL7A RPL7A RPL7A 3311 0.07 0.3 YES
24 RPS19 RPS19 RPS19 3363 0.068 0.31 YES
25 RPS18 RPS18 RPS18 3372 0.068 0.32 YES
26 RPL29 RPL29 RPL29 3401 0.068 0.34 YES
27 RPS28 RPS28 RPS28 3423 0.067 0.35 YES
28 RPS21 RPS21 RPS21 3457 0.066 0.36 YES
29 RPS24 RPS24 RPS24 3514 0.064 0.37 YES
30 RPS29 RPS29 RPS29 3517 0.064 0.38 YES
31 RPLP1 RPLP1 RPLP1 3532 0.064 0.39 YES
32 RPS27A RPS27A RPS27A 3622 0.062 0.4 YES
33 RPL23 RPL23 RPL23 3657 0.061 0.41 YES
34 RPL31 RPL31 RPL31 3678 0.06 0.42 YES
35 RPL6 RPL6 RPL6 3694 0.06 0.43 YES
36 RPS9 RPS9 RPS9 3708 0.06 0.44 YES
37 RPS25 RPS25 RPS25 3859 0.057 0.44 YES
38 RPL17 RPL17 RPL17 3880 0.056 0.45 YES
39 RPS7 RPS7 RPS7 3956 0.055 0.46 YES
40 RPS15A RPS15A RPS15A 3966 0.054 0.47 YES
41 RPL7 RPL7 RPL7 3978 0.054 0.48 YES
42 RPL14 RPL14 RPL14 3999 0.054 0.49 YES
43 RPL13A RPL13A RPL13A 4009 0.054 0.5 YES
44 RPL32 RPL32 RPL32 4024 0.054 0.51 YES
45 RPLP2 RPLP2 RPLP2 4039 0.053 0.52 YES
46 RPL30 RPL30 RPL30 4051 0.053 0.53 YES
47 RPSA RPSA RPSA 4082 0.052 0.54 YES
48 RPLP0 RPLP0 RPLP0 4089 0.052 0.55 YES
49 RPS12 RPS12 RPS12 4149 0.051 0.55 YES
50 RPS20 RPS20 RPS20 4211 0.05 0.56 YES
51 RPL11 RPL11 RPL11 4418 0.046 0.56 YES
52 RPL23A RPL23A RPL23A 4429 0.046 0.56 YES
53 RPS13 RPS13 RPS13 4611 0.043 0.56 YES
54 RPL26 RPL26 RPL26 4613 0.043 0.57 YES
55 RPS11 RPS11 RPS11 4665 0.042 0.58 YES
56 UBA52 UBA52 UBA52 4687 0.042 0.58 YES
57 RPL27A RPL27A RPL27A 4716 0.041 0.59 YES
58 RPS23 RPS23 RPS23 4762 0.04 0.6 YES
59 RPL37A RPL37A RPL37A 4785 0.04 0.6 YES
60 RPL34 RPL34 RPL34 4849 0.039 0.6 YES
61 RSL24D1 RSL24D1 RSL24D1 4851 0.039 0.61 YES
62 RPL10A RPL10A RPL10A 4866 0.039 0.62 YES
63 RPL10 RPL10 RPL10 4952 0.037 0.62 YES
64 RPS8 RPS8 RPS8 4991 0.036 0.63 YES
65 RPS6 RPS6 RPS6 5017 0.036 0.63 YES
66 RPL19 RPL19 RPL19 5063 0.035 0.64 YES
67 RPL21 RPL21 RPL21 5072 0.035 0.64 YES
68 RPL41 RPL41 RPL41 5078 0.034 0.65 YES
69 RPS3A RPS3A RPS3A 5101 0.034 0.65 YES
70 RPL36 RPL36 RPL36 5165 0.033 0.66 YES
71 RPL24 RPL24 RPL24 5279 0.032 0.66 YES
72 RPL5 RPL5 RPL5 5355 0.03 0.66 YES
73 FAU FAU FAU 5386 0.03 0.66 YES
74 RPS4X RPS4X RPS4X 5560 0.027 0.66 YES
75 MRPL13 MRPL13 MRPL13 5642 0.026 0.66 YES
76 RPS27 RPS27 RPS27 5653 0.026 0.66 YES
77 RPL3 RPL3 RPL3 5676 0.026 0.67 YES
78 RPS15 RPS15 RPS15 5915 0.022 0.66 NO
79 RPS27L RPS27L RPS27L 6028 0.02 0.66 NO
80 RPL22L1 RPL22L1 RPL22L1 6196 0.018 0.65 NO
81 RPL22 RPL22 RPL22 6480 0.014 0.64 NO
82 RPL35A RPL35A RPL35A 7186 0.0045 0.6 NO
83 RPL15 RPL15 RPL15 7370 0.0021 0.59 NO
84 RPL9 RPL9 RPL9 10477 -0.041 0.42 NO

Figure S73.  Get High-res Image This plot shows mRNAseq_cNMF expression data heatmap (on the left) a RunningEnrichmentScore(RES) plot (on the top right) and a Signal2Noise(S2N) plot (on the bottom right) of genes in the pathway: KEGG AMINOACYL TRNA BIOSYNTHESIS.

Figure S74.  Get High-res Image For the top 5 core enriched genes in the pathway: KEGG AMINOACYL TRNA BIOSYNTHESIS, this volcano plot shows how much they are up/down-regulated and significant. The significance was calculated by empirical bayesian fit

genes ES table in pathway: KEGG RIBOSOME

Table S38.  Get Full Table This table shows a Running Enrichment Score (RES) of each gene in this pathway, that is, the enrichment score at this point in the ranked list of genes. All genes are ranked by Signal-to-Noise (S2N), a measure of similarity as default and are used to obtain ES matrix of all genes. In this way, GSEA tool uses expression pattern of not only overlapped genes but also not-overlapped genes to produce ES matrix.

Rank GENE SYMBOL DESC LIST.LOC S2N RES CORE_ENRICHMENT
1 MMP1 MMP1 MMP1 53 0.53 0.086 YES
2 VEGFC VEGFC VEGFC 92 0.47 0.16 YES
3 IL8 IL8 IL8 172 0.41 0.23 YES
4 MMP9 MMP9 MMP9 335 0.33 0.27 YES
5 EGFR EGFR EGFR 405 0.31 0.32 YES
6 THBS1 THBS1 THBS1 609 0.26 0.35 YES
7 MYC MYC MYC 662 0.25 0.39 YES
8 CCND1 CCND1 CCND1 681 0.25 0.43 YES
9 TYMP TYMP TYMP 1167 0.18 0.44 YES
10 PGF PGF PGF 1191 0.18 0.46 YES
11 HRAS HRAS HRAS 1688 0.14 0.46 YES
12 DAPK1 DAPK1 DAPK1 1807 0.13 0.47 YES
13 CDKN2A CDKN2A CDKN2A 2194 0.11 0.47 YES
14 VEGFA VEGFA VEGFA 2374 0.1 0.48 YES
15 MAP2K1 MAP2K1 MAP2K1 2417 0.099 0.49 YES
16 DAPK3 DAPK3 DAPK3 3048 0.077 0.47 NO
17 CDKN1A CDKN1A CDKN1A 3501 0.065 0.46 NO
18 E2F3 E2F3 E2F3 3763 0.058 0.45 NO
19 CDK4 CDK4 CDK4 6309 0.016 0.31 NO
20 RASSF1 RASSF1 RASSF1 7182 0.0046 0.27 NO
21 NRAS NRAS NRAS 7192 0.0044 0.27 NO
22 VEGFB VEGFB VEGFB 7756 -0.0028 0.24 NO
23 MAPK3 MAPK3 MAPK3 7783 -0.0032 0.24 NO
24 MAPK1 MAPK1 MAPK1 8335 -0.011 0.21 NO
25 MAP2K2 MAP2K2 MAP2K2 8483 -0.013 0.2 NO
26 ARAF ARAF ARAF 8706 -0.016 0.19 NO
27 CDH1 CDH1 CDH1 9109 -0.021 0.17 NO
28 RAF1 RAF1 RAF1 10546 -0.042 0.1 NO
29 KRAS KRAS KRAS 11262 -0.054 0.07 NO
30 MDM2 MDM2 MDM2 11281 -0.055 0.078 NO
31 MMP2 MMP2 MMP2 11737 -0.064 0.063 NO
32 RB1 RB1 RB1 11903 -0.067 0.066 NO
33 TP53 TP53 TP53 12738 -0.086 0.034 NO
34 DAPK2 DAPK2 DAPK2 13942 -0.12 -0.012 NO
35 ERBB2 ERBB2 ERBB2 14059 -0.12 0.0018 NO
36 BRAF BRAF BRAF 14221 -0.13 0.015 NO
37 E2F2 E2F2 E2F2 14451 -0.14 0.026 NO
38 FGFR3 FGFR3 FGFR3 14896 -0.16 0.028 NO
39 RPS6KA5 RPS6KA5 RPS6KA5 16748 -0.28 -0.027 NO
40 EGF EGF EGF 17017 -0.31 0.0092 NO
41 FIGF FIGF FIGF 17168 -0.33 0.055 NO

Figure S75.  Get High-res Image This plot shows mRNAseq_cNMF expression data heatmap (on the left) a RunningEnrichmentScore(RES) plot (on the top right) and a Signal2Noise(S2N) plot (on the bottom right) of genes in the pathway: KEGG RIBOSOME.

Figure S76.  Get High-res Image For the top 5 core enriched genes in the pathway: KEGG RIBOSOME, this volcano plot shows how much they are up/down-regulated and significant. The significance was calculated by empirical bayesian fit

genes ES table in pathway: KEGG SPLICEOSOME

Table S39.  Get Full Table This table shows a Running Enrichment Score (RES) of each gene in this pathway, that is, the enrichment score at this point in the ranked list of genes. All genes are ranked by Signal-to-Noise (S2N), a measure of similarity as default and are used to obtain ES matrix of all genes. In this way, GSEA tool uses expression pattern of not only overlapped genes but also not-overlapped genes to produce ES matrix.

Rank GENE SYMBOL DESC LIST.LOC S2N RES CORE_ENRICHMENT
1 WARS WARS WARS 630 0.26 0.094 YES
2 TARSL2 TARSL2 TARSL2 890 0.22 0.19 YES
3 RARS RARS RARS 2440 0.098 0.15 YES
4 TARS TARS TARS 2777 0.086 0.18 YES
5 VARS VARS VARS 2856 0.084 0.22 YES
6 CARS2 CARS2 CARS2 3303 0.07 0.23 YES
7 KARS KARS KARS 3358 0.068 0.26 YES
8 YARS YARS YARS 3359 0.068 0.29 YES
9 FARS2 FARS2 FARS2 3441 0.066 0.32 YES
10 GARS GARS GARS 3568 0.063 0.34 YES
11 YARS2 YARS2 YARS2 3955 0.055 0.35 YES
12 HARS2 HARS2 HARS2 4380 0.047 0.35 YES
13 DARS DARS DARS 4500 0.045 0.37 YES
14 SARS2 SARS2 SARS2 4904 0.038 0.36 YES
15 FARSA FARSA FARSA 4976 0.037 0.38 YES
16 HARS HARS HARS 5084 0.034 0.39 YES
17 CARS CARS CARS 5672 0.026 0.37 NO
18 IARS IARS IARS 5700 0.025 0.38 NO
19 MTFMT MTFMT MTFMT 6306 0.016 0.36 NO
20 MARS MARS MARS 6942 0.0078 0.33 NO
21 IARS2 IARS2 IARS2 6981 0.0073 0.33 NO
22 AARS AARS AARS 6993 0.007 0.33 NO
23 NARS2 NARS2 NARS2 7160 0.0049 0.32 NO
24 RARS2 RARS2 RARS2 7355 0.0022 0.32 NO
25 FARSB FARSB FARSB 7432 0.0012 0.31 NO
26 QARS QARS QARS 7787 -0.0033 0.29 NO
27 VARS2 VARS2 VARS2 7935 -0.0053 0.29 NO
28 SARS SARS SARS 8159 -0.0084 0.28 NO
29 DARS2 DARS2 DARS2 8575 -0.014 0.26 NO
30 MARS2 MARS2 MARS2 8671 -0.015 0.27 NO
31 AARS2 AARS2 AARS2 8871 -0.018 0.26 NO
32 LARS2 LARS2 LARS2 9204 -0.022 0.26 NO
33 EPRS EPRS EPRS 9433 -0.025 0.26 NO
34 LARS LARS LARS 9669 -0.028 0.26 NO
35 PSTK PSTK PSTK 10037 -0.034 0.26 NO
36 EARS2 EARS2 EARS2 10409 -0.04 0.26 NO
37 NARS NARS NARS 10540 -0.042 0.27 NO
38 PARS2 PARS2 PARS2 12542 -0.081 0.2 NO
39 WARS2 WARS2 WARS2 13009 -0.093 0.22 NO
40 SEPSECS SEPSECS SEPSECS 14088 -0.13 0.22 NO

Figure S77.  Get High-res Image This plot shows mRNAseq_cNMF expression data heatmap (on the left) a RunningEnrichmentScore(RES) plot (on the top right) and a Signal2Noise(S2N) plot (on the bottom right) of genes in the pathway: KEGG SPLICEOSOME.

Figure S78.  Get High-res Image For the top 5 core enriched genes in the pathway: KEGG SPLICEOSOME, this volcano plot shows how much they are up/down-regulated and significant. The significance was calculated by empirical bayesian fit

genes ES table in pathway: KEGG PROTEASOME

Table S40.  Get Full Table This table shows a Running Enrichment Score (RES) of each gene in this pathway, that is, the enrichment score at this point in the ranked list of genes. All genes are ranked by Signal-to-Noise (S2N), a measure of similarity as default and are used to obtain ES matrix of all genes. In this way, GSEA tool uses expression pattern of not only overlapped genes but also not-overlapped genes to produce ES matrix.

Rank GENE SYMBOL DESC LIST.LOC S2N RES CORE_ENRICHMENT
1 FBXO2 FBXO2 FBXO2 20 0.62 0.075 YES
2 BIRC3 BIRC3 BIRC3 377 0.32 0.094 YES
3 BIRC2 BIRC2 BIRC2 610 0.26 0.11 YES
4 NEDD4 NEDD4 NEDD4 621 0.26 0.14 YES
5 RHOBTB2 RHOBTB2 RHOBTB2 734 0.24 0.17 YES
6 SOCS3 SOCS3 SOCS3 1369 0.16 0.15 YES
7 UBE2S UBE2S UBE2S 1665 0.14 0.15 YES
8 PML PML PML 1802 0.13 0.16 YES
9 CBLC CBLC CBLC 1825 0.13 0.18 YES
10 UBE2L6 UBE2L6 UBE2L6 1903 0.12 0.19 YES
11 UBE2F UBE2F UBE2F 1967 0.12 0.2 YES
12 HERC4 HERC4 HERC4 2038 0.12 0.21 YES
13 UBE2Q2 UBE2Q2 UBE2Q2 2538 0.095 0.19 YES
14 UBA6 UBA6 UBA6 2571 0.094 0.2 YES
15 SKP2 SKP2 SKP2 2584 0.093 0.21 YES
16 NEDD4L NEDD4L NEDD4L 2596 0.093 0.22 YES
17 CDC20 CDC20 CDC20 2640 0.091 0.23 YES
18 SMURF2 SMURF2 SMURF2 2677 0.09 0.24 YES
19 UBE2D1 UBE2D1 UBE2D1 2959 0.08 0.24 YES
20 UBE2M UBE2M UBE2M 2988 0.079 0.24 YES
21 TCEB1 TCEB1 TCEB1 3284 0.07 0.24 NO
22 TRIM32 TRIM32 TRIM32 3420 0.067 0.24 NO
23 STUB1 STUB1 STUB1 3600 0.062 0.24 NO
24 UBE2L3 UBE2L3 UBE2L3 4259 0.049 0.2 NO
25 CDC27 CDC27 CDC27 4339 0.048 0.21 NO
26 UBE2C UBE2C UBE2C 4372 0.047 0.21 NO
27 CDC16 CDC16 CDC16 4694 0.042 0.2 NO
28 UBE2I UBE2I UBE2I 4702 0.042 0.2 NO
29 CBL CBL CBL 4923 0.038 0.2 NO
30 UBE2R2 UBE2R2 UBE2R2 5260 0.032 0.18 NO
31 TCEB2 TCEB2 TCEB2 5379 0.03 0.18 NO
32 UBE2E2 UBE2E2 UBE2E2 5496 0.028 0.18 NO
33 UBE2Z UBE2Z UBE2Z 5694 0.025 0.17 NO
34 TRAF6 TRAF6 TRAF6 5697 0.025 0.17 NO
35 UBA2 UBA2 UBA2 5747 0.024 0.17 NO
36 HERC3 HERC3 HERC3 5804 0.024 0.17 NO
37 PRPF19 PRPF19 PRPF19 5890 0.022 0.17 NO
38 CUL1 CUL1 CUL1 5918 0.022 0.17 NO
39 UBE2H UBE2H UBE2H 5933 0.022 0.17 NO
40 PIAS1 PIAS1 PIAS1 6060 0.02 0.17 NO
41 UBE2B UBE2B UBE2B 6072 0.02 0.17 NO
42 SAE1 SAE1 SAE1 6115 0.019 0.17 NO
43 CDC34 CDC34 CDC34 6169 0.018 0.17 NO
44 SYVN1 SYVN1 SYVN1 6304 0.016 0.16 NO
45 UBE2J2 UBE2J2 UBE2J2 6360 0.016 0.16 NO
46 RBX1 RBX1 RBX1 6499 0.014 0.16 NO
47 UBE2D3 UBE2D3 UBE2D3 6634 0.012 0.15 NO
48 CUL7 CUL7 CUL7 6649 0.012 0.15 NO
49 ANAPC1 ANAPC1 ANAPC1 6688 0.011 0.15 NO
50 ANAPC10 ANAPC10 ANAPC10 6721 0.011 0.15 NO
51 UBE2N UBE2N UBE2N 6781 0.0099 0.15 NO
52 UBE2NL UBE2NL UBE2NL 6990 0.0071 0.14 NO
53 SOCS1 SOCS1 SOCS1 7047 0.0065 0.13 NO
54 UBE3C UBE3C UBE3C 7066 0.0062 0.13 NO
55 SIAH1 SIAH1 SIAH1 7078 0.0059 0.13 NO
56 UBE2O UBE2O UBE2O 7261 0.0035 0.12 NO
57 UBE2A UBE2A UBE2A 7288 0.0032 0.12 NO
58 CDC26 CDC26 CDC26 7344 0.0024 0.12 NO
59 UBE3B UBE3B UBE3B 7386 0.0018 0.12 NO
60 DDB1 DDB1 DDB1 7449 0.0011 0.12 NO
61 CUL4A CUL4A CUL4A 7476 0.00077 0.11 NO
62 UBR5 UBR5 UBR5 7534 0.00014 0.11 NO
63 DDB2 DDB2 DDB2 7659 -0.0014 0.1 NO
64 CUL2 CUL2 CUL2 7712 -0.0021 0.1 NO
65 CDC23 CDC23 CDC23 7714 -0.0021 0.1 NO
66 UBE2G1 UBE2G1 UBE2G1 7718 -0.0022 0.1 NO
67 ANAPC11 ANAPC11 ANAPC11 7785 -0.0033 0.098 NO
68 UBA1 UBA1 UBA1 7821 -0.0038 0.096 NO
69 UBE2Q1 UBE2Q1 UBE2Q1 7870 -0.0044 0.094 NO
70 ANAPC13 ANAPC13 ANAPC13 8089 -0.0072 0.083 NO
71 UBE2K UBE2K UBE2K 8092 -0.0073 0.084 NO
72 CUL5 CUL5 CUL5 8120 -0.0077 0.083 NO
73 CUL4B CUL4B CUL4B 8222 -0.0092 0.079 NO
74 UBE2D2 UBE2D2 UBE2D2 8234 -0.0094 0.08 NO
75 UBE2E3 UBE2E3 UBE2E3 8249 -0.0095 0.08 NO
76 ANAPC5 ANAPC5 ANAPC5 8353 -0.011 0.076 NO
77 UBE2G2 UBE2G2 UBE2G2 8377 -0.011 0.076 NO
78 ITCH ITCH ITCH 8390 -0.012 0.076 NO
79 FBXO4 FBXO4 FBXO4 8505 -0.013 0.072 NO
80 FBXW7 FBXW7 FBXW7 8518 -0.013 0.073 NO
81 ANAPC2 ANAPC2 ANAPC2 8550 -0.014 0.073 NO
82 WWP1 WWP1 WWP1 8582 -0.014 0.073 NO
83 SKP1 SKP1 SKP1 8608 -0.015 0.073 NO
84 TRIP12 TRIP12 TRIP12 8649 -0.015 0.073 NO
85 UBA3 UBA3 UBA3 8673 -0.015 0.073 NO
86 SMURF1 SMURF1 SMURF1 8752 -0.016 0.071 NO
87 ERCC8 ERCC8 ERCC8 8991 -0.02 0.06 NO
88 NHLRC1 NHLRC1 NHLRC1 9037 -0.02 0.06 NO
89 FBXW8 FBXW8 FBXW8 9067 -0.021 0.061 NO
90 BIRC6 BIRC6 BIRC6 9342 -0.024 0.049 NO
91 UBE4A UBE4A UBE4A 9348 -0.024 0.052 NO
92 WWP2 WWP2 WWP2 9485 -0.026 0.047 NO
93 UBA7 UBA7 UBA7 9523 -0.027 0.049 NO
94 MGRN1 MGRN1 MGRN1 9583 -0.027 0.049 NO
95 HUWE1 HUWE1 HUWE1 9615 -0.028 0.05 NO
96 FBXW11 FBXW11 FBXW11 9635 -0.028 0.053 NO
97 UBE2D4 UBE2D4 UBE2D4 9638 -0.028 0.056 NO
98 KEAP1 KEAP1 KEAP1 9690 -0.029 0.057 NO
99 BRCA1 BRCA1 BRCA1 9835 -0.031 0.052 NO
100 UBE2E1 UBE2E1 UBE2E1 9909 -0.032 0.052 NO
101 UBE2W UBE2W UBE2W 10083 -0.035 0.047 NO
102 ANAPC4 ANAPC4 ANAPC4 10115 -0.035 0.05 NO
103 HERC1 HERC1 HERC1 10207 -0.037 0.049 NO
104 RNF7 RNF7 RNF7 10509 -0.041 0.038 NO
105 PPIL2 PPIL2 PPIL2 10557 -0.042 0.04 NO
106 UBE3A UBE3A UBE3A 10687 -0.044 0.038 NO
107 RCHY1 RCHY1 RCHY1 11041 -0.051 0.025 NO
108 UBOX5 UBOX5 UBOX5 11049 -0.051 0.031 NO
109 MDM2 MDM2 MDM2 11281 -0.055 0.025 NO
110 HERC2 HERC2 HERC2 11313 -0.056 0.03 NO
111 FZR1 FZR1 FZR1 11388 -0.057 0.033 NO
112 TRIM37 TRIM37 TRIM37 11691 -0.063 0.024 NO
113 MID1 MID1 MID1 11892 -0.067 0.021 NO
114 XIAP XIAP XIAP 11951 -0.069 0.026 NO
115 UBE2J1 UBE2J1 UBE2J1 12010 -0.07 0.032 NO
116 KLHL9 KLHL9 KLHL9 12086 -0.071 0.036 NO
117 ANAPC7 ANAPC7 ANAPC7 12276 -0.075 0.035 NO
118 PIAS4 PIAS4 PIAS4 12358 -0.077 0.04 NO
119 VHL VHL VHL 12522 -0.081 0.041 NO
120 UBE4B UBE4B UBE4B 12688 -0.085 0.042 NO
121 FANCL FANCL FANCL 12699 -0.085 0.052 NO
122 UBE2QL1 UBE2QL1 UBE2QL1 12787 -0.087 0.058 NO
123 CUL3 CUL3 CUL3 13155 -0.097 0.05 NO
124 CBLB CBLB CBLB 13216 -0.098 0.058 NO
125 RFWD2 RFWD2 RFWD2 13291 -0.1 0.066 NO
126 KLHL13 KLHL13 KLHL13 13792 -0.12 0.053 NO
127 PIAS3 PIAS3 PIAS3 14746 -0.15 0.019 NO
128 MAP3K1 MAP3K1 MAP3K1 14807 -0.16 0.035 NO
129 DET1 DET1 DET1 15329 -0.18 0.028 NO
130 PIAS2 PIAS2 PIAS2 15693 -0.2 0.033 NO
131 AIRE AIRE AIRE 16646 -0.27 0.014 NO
132 PARK2 PARK2 PARK2 18082 -0.57 0.0049 NO

Figure S79.  Get High-res Image This plot shows mRNAseq_cNMF expression data heatmap (on the left) a RunningEnrichmentScore(RES) plot (on the top right) and a Signal2Noise(S2N) plot (on the bottom right) of genes in the pathway: KEGG PROTEASOME.

Figure S80.  Get High-res Image For the top 5 core enriched genes in the pathway: KEGG PROTEASOME, this volcano plot shows how much they are up/down-regulated and significant. The significance was calculated by empirical bayesian fit

Fold change

For the top enriched genes, if you want to check whether they are

Expression level

For the top enriched genes, if you want to check whether they are

An expression pattern of top(30%)/middle(30%)/low(30%) in this subtype against other subtypes is available in a heatmap

Significant gene list

For the top enriched genes, if you want to check whether they are

Methods & Data
Input

  • Gene set database = c2.cp.v3.0-2.symbols.gmt

  • Expression data file = CESC-TP.uncv2.mRNAseq_RSEM_normalized_log2.txt

  • Phenotype data file = CESC-TP.mergedcluster.txt

GSEA analysis

For the Gene Set Enrichment Analysis (GSEA), Broad GSEA-P-R.1.0 version is used with class2: canonical pathways geneses from MSigDB. Further details about statistics are available inThe Broad GSEA website.

Download Results

In addition to the links below, the full results of the analysis summarized in this report can also be downloaded programmatically using firehose_get, or interactively from either the Broad GDAC website or TCGA Data Coordination Center Portal.

References
[1] Subramanian, A. et al, Gene set enrichment analysis: A knowledge-based approach for interpreting genome-wide expression profiles., Proc. Natl. Acad. Sci. USA 102(43) (2005)
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