GSEA Class2: Canonical Pathways enriched in each subtypes of mRNAseq_cNMF in ESCA-TP
Esophageal Carcinoma (Primary solid tumor)
02 April 2015  |  analyses__2015_04_02
Maintainer Information
Citation Information
doi:10.7908/C18051MX
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 ESCA-TP. Broad Institute of MIT and Harvard. doi:10.7908/C18051MX
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 ESCA-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: 194
Number of samples: 184
Original number of Gene Sets: 404
Maximum gene set size: 388

Table 2.  Get Full Table pheno data info

phenotype info
pheno.type: 1 - 3 :[ clus1 ] 85
pheno.type: 2 - 3 :[ clus2 ] 68
pheno.type: 3 - 3 :[ clus3 ] 31

For the expression subtypes of 23680 genes in 185 samples, GSEA found enriched gene sets in each cluster using 184 gene sets in MSigDB canonical pathways. Top enriched gene sets are listed as below.

  • clus1

    • Top enriched gene sets are BIOCARTA NO1 PATHWAY, BIOCARTA DEATH PATHWAY, BIOCARTA PPARA PATHWAY, BIOCARTA RHO PATHWAY, KEGG GLYCOLYSIS GLUCONEOGENESIS, KEGG PENTOSE PHOSPHATE PATHWAY, KEGG FRUCTOSE AND MANNOSE METABOLISM, KEGG ALANINE ASPARTATE AND GLUTAMATE METABOLISM, KEGG VALINE LEUCINE AND ISOLEUCINE DEGRADATION, KEGG HISTIDINE METABOLISM

    • And common core enriched genes are PRKACG, PRKCA, NOS2, CFTR, KCNQ1, KDELR3, MUC2, PRKCG, SLC12A2, APOA1

  • clus2

    • Top enriched gene sets are BIOCARTA CARM ER PATHWAY, BIOCARTA ERK PATHWAY, BIOCARTA GSK3 PATHWAY, BIOCARTA INTEGRIN PATHWAY, BIOCARTA MYOSIN PATHWAY, KEGG RNA DEGRADATION, KEGG CELL CYCLE, KEGG OOCYTE MEIOSIS, KEGG P53 SIGNALING PATHWAY, KEGG MTOR SIGNALING PATHWAY

    • And common core enriched genes are CALML3, CALML5, CAMK2A, CAMK2B, NGF, NGFR, GNGT1, DVL2, FZD1, FZD2

  • clus3

    • Top enriched gene sets are BIOCARTA G1 PATHWAY, BIOCARTA RACCYCD PATHWAY, BIOCARTA MAPK PATHWAY, BIOCARTA IL1R PATHWAY, KEGG OXIDATIVE PHOSPHORYLATION, KEGG ETHER LIPID METABOLISM, KEGG ARACHIDONIC ACID METABOLISM, KEGG RETINOL METABOLISM, KEGG RIBOSOME, KEGG RNA POLYMERASE

    • And common core enriched genes are ADAM17, ATP6V0A4, ATP6V0C, ATP6V1B1, ATP6V1D, ATP6V1F, CXCR1, CXCR2, EGFR, HBEGF

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 NO1 PATHWAY 29 genes.ES.table 0.54 1.5 0.041 0.39 0.78 0.48 0.25 0.36 0.27 0.091
BIOCARTA DEATH PATHWAY 31 genes.ES.table 0.46 1.6 0.071 0.38 0.69 0.61 0.33 0.41 0.22 0.1
BIOCARTA PPARA PATHWAY 55 genes.ES.table 0.54 1.9 0.002 0.14 0.14 0.16 0.095 0.15 0 0.039
BIOCARTA RHO PATHWAY 30 genes.ES.table 0.47 1.8 0.014 0.12 0.25 0.067 0.038 0.064 0 0.033
KEGG GLYCOLYSIS GLUCONEOGENESIS 60 genes.ES.table 0.43 1.5 0.058 0.38 0.83 0.2 0.075 0.18 0.27 0.078
KEGG PENTOSE PHOSPHATE PATHWAY 25 genes.ES.table 0.5 1.5 0.074 0.36 0.79 0.12 0.041 0.12 0.25 0.078
KEGG FRUCTOSE AND MANNOSE METABOLISM 32 genes.ES.table 0.46 1.5 0.077 0.36 0.8 0.34 0.2 0.28 0.25 0.075
KEGG ALANINE ASPARTATE AND GLUTAMATE METABOLISM 31 genes.ES.table 0.57 1.7 0.002 0.26 0.46 0.29 0.11 0.26 0 0.065
KEGG VALINE LEUCINE AND ISOLEUCINE DEGRADATION 43 genes.ES.table 0.46 1.6 0.066 0.36 0.66 0.49 0.32 0.33 0.19 0.094
KEGG HISTIDINE METABOLISM 28 genes.ES.table 0.55 1.5 0.038 0.38 0.79 0.18 0.043 0.17 0.26 0.091
genes ES table in pathway: BIOCARTA NO1 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 CFTR CFTR CFTR 80 1.3 0.15 YES
2 PRKCG PRKCG PRKCG 297 0.86 0.24 YES
3 PRKACG PRKACG PRKACG 397 0.77 0.32 YES
4 MUC2 MUC2 MUC2 415 0.76 0.41 YES
5 KCNQ1 KCNQ1 KCNQ1 635 0.63 0.47 YES
6 SLC12A2 SLC12A2 SLC12A2 1231 0.43 0.49 YES
7 PRKCA PRKCA PRKCA 1997 0.31 0.49 YES
8 KDELR3 KDELR3 KDELR3 2117 0.3 0.52 YES
9 TJP2 TJP2 TJP2 3737 0.18 0.47 NO
10 TCIRG1 TCIRG1 TCIRG1 5067 0.12 0.42 NO
11 KDELR2 KDELR2 KDELR2 5080 0.12 0.44 NO
12 PRKCB PRKCB PRKCB 5678 0.099 0.42 NO
13 KDELR1 KDELR1 KDELR1 6346 0.081 0.4 NO
14 ATP6V0A2 ATP6V0A2 ATP6V0A2 6681 0.073 0.4 NO
15 ATP6V0E2 ATP6V0E2 ATP6V0E2 6800 0.071 0.4 NO
16 PDIA4 PDIA4 PDIA4 6868 0.07 0.4 NO
17 ATP6V0A1 ATP6V0A1 ATP6V0A1 7717 0.051 0.37 NO
18 ATP6V0B ATP6V0B ATP6V0B 7927 0.047 0.37 NO
19 TJP1 TJP1 TJP1 8964 0.03 0.33 NO
20 SEC61A2 SEC61A2 SEC61A2 9024 0.029 0.33 NO
21 ATP6V1C2 ATP6V1C2 ATP6V1C2 9227 0.025 0.32 NO
22 ARF1 ARF1 ARF1 9272 0.024 0.32 NO
23 ATP6AP1 ATP6AP1 ATP6AP1 10275 0.0095 0.28 NO
24 ATP6V1C1 ATP6V1C1 ATP6V1C1 10658 0.0044 0.26 NO
25 SEC61A1 SEC61A1 SEC61A1 11081 -0.0012 0.24 NO
26 SEC61B SEC61B SEC61B 11486 -0.0067 0.23 NO
27 ATP6V1B2 ATP6V1B2 ATP6V1B2 12474 -0.02 0.19 NO
28 ACTB ACTB ACTB 12526 -0.021 0.19 NO
29 ACTG1 ACTG1 ACTG1 12840 -0.025 0.18 NO
30 SEC61G SEC61G SEC61G 12896 -0.026 0.18 NO
31 ATP6V0E1 ATP6V0E1 ATP6V0E1 12922 -0.026 0.18 NO
32 ATP6V0D1 ATP6V0D1 ATP6V0D1 13172 -0.029 0.17 NO
33 PRKACB PRKACB PRKACB 13949 -0.041 0.14 NO
34 ADCY9 ADCY9 ADCY9 13976 -0.041 0.15 NO
35 GNAS GNAS GNAS 14053 -0.042 0.15 NO
36 ERO1L ERO1L ERO1L 14472 -0.049 0.13 NO
37 PLCG2 PLCG2 PLCG2 14761 -0.054 0.13 NO
38 ATP6V1G2 ATP6V1G2 ATP6V1G2 14858 -0.056 0.13 NO
39 ATP6V0C ATP6V0C ATP6V0C 15079 -0.059 0.13 NO
40 PLCG1 PLCG1 PLCG1 15217 -0.062 0.13 NO
41 ATP6V1A ATP6V1A ATP6V1A 15342 -0.064 0.13 NO
42 ATP6V1G1 ATP6V1G1 ATP6V1G1 15362 -0.064 0.14 NO
43 ATP6V1H ATP6V1H ATP6V1H 15654 -0.07 0.13 NO
44 ATP6V1D ATP6V1D ATP6V1D 15720 -0.071 0.14 NO
45 PRKACA PRKACA PRKACA 15975 -0.076 0.13 NO
46 ATP6V1F ATP6V1F ATP6V1F 16351 -0.084 0.13 NO
47 ATP6V1E1 ATP6V1E1 ATP6V1E1 16675 -0.092 0.12 NO
48 ATP6V0D2 ATP6V0D2 ATP6V0D2 18742 -0.16 0.051 NO
49 PRKX PRKX PRKX 19250 -0.19 0.05 NO
50 ATP6V0A4 ATP6V0A4 ATP6V0A4 20366 -0.27 0.032 NO
51 ATP6V1E2 ATP6V1E2 ATP6V1E2 20698 -0.31 0.053 NO
52 ATP6V1B1 ATP6V1B1 ATP6V1B1 21174 -0.37 0.074 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 NO1 PATHWAY.

Figure S2.  Get High-res Image For the top 5 core enriched genes in the pathway: BIOCARTA NO1 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 DEATH 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 NR0B2 NR0B2 NR0B2 28 1.6 0.17 YES
2 FABP1 FABP1 FABP1 179 1 0.27 YES
3 PRKACG PRKACG PRKACG 397 0.77 0.34 YES
4 NOS2 NOS2 NOS2 574 0.66 0.4 YES
5 APOA1 APOA1 APOA1 718 0.59 0.45 YES
6 PPARGC1A PPARGC1A PPARGC1A 1256 0.43 0.47 YES
7 APOA2 APOA2 APOA2 1295 0.42 0.51 YES
8 PRKCA PRKCA PRKCA 1997 0.31 0.52 YES
9 PIK3CG PIK3CG PIK3CG 2168 0.29 0.54 YES
10 NR1H3 NR1H3 NR1H3 2858 0.23 0.53 NO
11 STAT5A STAT5A STAT5A 3621 0.18 0.52 NO
12 MAPK3 MAPK3 MAPK3 5471 0.11 0.44 NO
13 NR2F1 NR2F1 NR2F1 5500 0.11 0.46 NO
14 PRKAR2A PRKAR2A PRKAR2A 5537 0.1 0.46 NO
15 PRKCB PRKCB PRKCB 5678 0.099 0.47 NO
16 PDGFA PDGFA PDGFA 5853 0.094 0.47 NO
17 PPARA PPARA PPARA 6532 0.077 0.45 NO
18 NCOR1 NCOR1 NCOR1 6685 0.073 0.45 NO
19 MED1 MED1 MED1 7607 0.054 0.41 NO
20 LPL LPL LPL 8009 0.046 0.4 NO
21 STAT5B STAT5B STAT5B 8204 0.043 0.4 NO
22 PTGS2 PTGS2 PTGS2 8437 0.038 0.39 NO
23 HSD17B4 HSD17B4 HSD17B4 8490 0.038 0.39 NO
24 PRKAR1B PRKAR1B PRKAR1B 9526 0.021 0.35 NO
25 FAT1 FAT1 FAT1 9729 0.018 0.34 NO
26 PIK3R1 PIK3R1 PIK3R1 9941 0.014 0.33 NO
27 NCOA1 NCOA1 NCOA1 10388 0.0081 0.32 NO
28 SP1 SP1 SP1 10538 0.0063 0.31 NO
29 NCOR2 NCOR2 NCOR2 11495 -0.0068 0.27 NO
30 CPT1B CPT1B CPT1B 12071 -0.015 0.24 NO
31 HSP90AA1 HSP90AA1 HSP90AA1 12188 -0.016 0.24 NO
32 PRKAR1A PRKAR1A PRKAR1A 12244 -0.017 0.24 NO
33 RELA RELA RELA 12557 -0.022 0.23 NO
34 SRA1 SRA1 SRA1 12652 -0.023 0.23 NO
35 EP300 EP300 EP300 12761 -0.024 0.22 NO
36 RB1 RB1 RB1 13026 -0.028 0.22 NO
37 EHHADH EHHADH EHHADH 13171 -0.029 0.21 NO
38 MRPL11 MRPL11 MRPL11 13351 -0.032 0.21 NO
39 PRKACB PRKACB PRKACB 13949 -0.041 0.19 NO
40 CREBBP CREBBP CREBBP 14137 -0.044 0.18 NO
41 CITED2 CITED2 CITED2 14559 -0.05 0.17 NO
42 MAPK1 MAPK1 MAPK1 14655 -0.052 0.17 NO
43 JUN JUN JUN 16677 -0.092 0.091 NO
44 PRKAR2B PRKAR2B PRKAR2B 17105 -0.1 0.083 NO
45 NRIP1 NRIP1 NRIP1 17160 -0.1 0.091 NO
46 TNF TNF TNF 17422 -0.11 0.091 NO
47 MYC MYC MYC 17466 -0.11 0.1 NO
48 DUT DUT DUT 17937 -0.13 0.094 NO
49 NFKBIA NFKBIA NFKBIA 18285 -0.14 0.093 NO
50 DUSP1 DUSP1 DUSP1 18537 -0.15 0.098 NO
51 PIK3CA PIK3CA PIK3CA 18593 -0.16 0.11 NO
52 HSPA1A HSPA1A HSPA1A 18819 -0.17 0.12 NO
53 RXRA RXRA RXRA 18977 -0.18 0.13 NO
54 ME1 ME1 ME1 19026 -0.18 0.14 NO
55 CD36 CD36 CD36 19747 -0.22 0.14 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 DEATH PATHWAY.

Figure S4.  Get High-res Image For the top 5 core enriched genes in the pathway: BIOCARTA DEATH 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 PPARA PATHWAY

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 CREB3L3 CREB3L3 CREB3L3 89 1.3 0.18 YES
2 AQP2 AQP2 AQP2 368 0.8 0.28 YES
3 PRKACG PRKACG PRKACG 397 0.77 0.39 YES
4 CREB3L1 CREB3L1 CREB3L1 654 0.62 0.46 YES
5 ADCY6 ADCY6 ADCY6 1605 0.36 0.47 YES
6 AVPR2 AVPR2 AVPR2 2213 0.29 0.48 YES
7 CREB3L4 CREB3L4 CREB3L4 5035 0.12 0.38 NO
8 CREB3 CREB3 CREB3 6344 0.081 0.33 NO
9 NSF NSF NSF 6383 0.08 0.34 NO
10 DYNC2LI1 DYNC2LI1 DYNC2LI1 7436 0.057 0.3 NO
11 CREB3L2 CREB3L2 CREB3L2 7781 0.05 0.3 NO
12 RAB5A RAB5A RAB5A 8432 0.039 0.27 NO
13 RAB5C RAB5C RAB5C 8446 0.038 0.28 NO
14 ARHGDIB ARHGDIB ARHGDIB 8556 0.037 0.28 NO
15 RAB11A RAB11A RAB11A 8956 0.03 0.26 NO
16 ARHGDIA ARHGDIA ARHGDIA 10625 0.0049 0.19 NO
17 STX4 STX4 STX4 11354 -0.0049 0.16 NO
18 DYNC1LI2 DYNC1LI2 DYNC1LI2 11885 -0.012 0.14 NO
19 DCTN6 DCTN6 DCTN6 12008 -0.014 0.14 NO
20 DYNLL2 DYNLL2 DYNLL2 12099 -0.015 0.13 NO
21 RAB5B RAB5B RAB5B 12491 -0.021 0.12 NO
22 CREB1 CREB1 CREB1 12507 -0.021 0.12 NO
23 DYNC1I2 DYNC1I2 DYNC1I2 12907 -0.026 0.11 NO
24 DCTN5 DCTN5 DCTN5 13439 -0.033 0.09 NO
25 DCTN4 DCTN4 DCTN4 13939 -0.041 0.073 NO
26 PRKACB PRKACB PRKACB 13949 -0.041 0.079 NO
27 ADCY9 ADCY9 ADCY9 13976 -0.041 0.083 NO
28 GNAS GNAS GNAS 14053 -0.042 0.086 NO
29 RAB11B RAB11B RAB11B 14080 -0.043 0.091 NO
30 DYNC1LI1 DYNC1LI1 DYNC1LI1 14605 -0.051 0.075 NO
31 DYNC1H1 DYNC1H1 DYNC1H1 14907 -0.056 0.07 NO
32 VAMP2 VAMP2 VAMP2 15506 -0.067 0.053 NO
33 DCTN2 DCTN2 DCTN2 15645 -0.069 0.056 NO
34 DCTN1 DCTN1 DCTN1 15737 -0.071 0.062 NO
35 PRKACA PRKACA PRKACA 15975 -0.076 0.063 NO
36 AQP4 AQP4 AQP4 16014 -0.077 0.072 NO
37 DYNLL1 DYNLL1 DYNLL1 16135 -0.079 0.077 NO
38 PRKX PRKX PRKX 19250 -0.19 -0.033 NO
39 DYNC2H1 DYNC2H1 DYNC2H1 19663 -0.21 -0.021 NO
40 CREB5 CREB5 CREB5 20603 -0.3 -0.021 NO
41 AQP3 AQP3 AQP3 21157 -0.36 0.0056 NO
42 DYNC1I1 DYNC1I1 DYNC1I1 21835 -0.49 0.044 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: BIOCARTA PPARA PATHWAY.

Figure S6.  Get High-res Image For the top 5 core enriched genes in the pathway: BIOCARTA PPARA 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 RHO PATHWAY

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 ACSL5 ACSL5 ACSL5 390 0.78 0.056 YES
2 AGXT AGXT AGXT 403 0.77 0.13 YES
3 BAAT BAAT BAAT 464 0.72 0.19 YES
4 NOS2 NOS2 NOS2 574 0.66 0.25 YES
5 SLC27A2 SLC27A2 SLC27A2 707 0.6 0.3 YES
6 FAR2 FAR2 FAR2 881 0.53 0.34 YES
7 HAO2 HAO2 HAO2 1025 0.49 0.38 YES
8 DDO DDO DDO 2328 0.27 0.35 YES
9 PIPOX PIPOX PIPOX 2414 0.27 0.38 YES
10 PHYH PHYH PHYH 2482 0.26 0.4 YES
11 EPHX2 EPHX2 EPHX2 3449 0.19 0.37 YES
12 PEX11A PEX11A PEX11A 3601 0.18 0.38 YES
13 DECR2 DECR2 DECR2 3900 0.17 0.39 YES
14 ABCD1 ABCD1 ABCD1 4084 0.16 0.39 YES
15 ABCD3 ABCD3 ABCD3 4124 0.16 0.41 YES
16 AMACR AMACR AMACR 4406 0.15 0.41 YES
17 HACL1 HACL1 HACL1 4580 0.14 0.41 YES
18 CAT CAT CAT 4629 0.14 0.42 YES
19 ACAA1 ACAA1 ACAA1 4643 0.14 0.44 YES
20 PEX11G PEX11G PEX11G 4796 0.13 0.44 YES
21 ACOX1 ACOX1 ACOX1 4799 0.13 0.46 YES
22 NUDT12 NUDT12 NUDT12 5020 0.12 0.46 YES
23 IDH1 IDH1 IDH1 5204 0.12 0.46 YES
24 HMGCL HMGCL HMGCL 5219 0.12 0.47 YES
25 CRAT CRAT CRAT 5262 0.11 0.48 YES
26 PEX7 PEX7 PEX7 5341 0.11 0.48 YES
27 PECR PECR PECR 5480 0.11 0.49 YES
28 MLYCD MLYCD MLYCD 5595 0.1 0.49 YES
29 GSTK1 GSTK1 GSTK1 5691 0.099 0.5 YES
30 SCP2 SCP2 SCP2 5700 0.098 0.51 YES
31 PXMP4 PXMP4 PXMP4 5760 0.097 0.52 YES
32 ABCD2 ABCD2 ABCD2 5771 0.097 0.52 YES
33 ABCD4 ABCD4 ABCD4 6220 0.084 0.51 NO
34 DAO DAO DAO 6337 0.081 0.51 NO
35 PEX1 PEX1 PEX1 6415 0.08 0.52 NO
36 PXMP2 PXMP2 PXMP2 6538 0.076 0.52 NO
37 IDH2 IDH2 IDH2 7191 0.062 0.5 NO
38 ACOT8 ACOT8 ACOT8 7204 0.062 0.5 NO
39 GNPAT GNPAT GNPAT 7345 0.059 0.5 NO
40 ACSL4 ACSL4 ACSL4 8271 0.041 0.47 NO
41 HSD17B4 HSD17B4 HSD17B4 8490 0.038 0.46 NO
42 PEX2 PEX2 PEX2 8724 0.034 0.45 NO
43 ACSL6 ACSL6 ACSL6 8725 0.034 0.46 NO
44 PEX16 PEX16 PEX16 8735 0.034 0.46 NO
45 ACSL3 ACSL3 ACSL3 8758 0.033 0.46 NO
46 PEX6 PEX6 PEX6 8890 0.031 0.46 NO
47 AGPS AGPS AGPS 9477 0.021 0.43 NO
48 PEX11B PEX11B PEX11B 9770 0.017 0.42 NO
49 FAR1 FAR1 FAR1 10465 0.0071 0.39 NO
50 PEX26 PEX26 PEX26 11166 -0.0023 0.36 NO
51 ACOX3 ACOX3 ACOX3 11304 -0.0042 0.36 NO
52 PEX10 PEX10 PEX10 12107 -0.015 0.32 NO
53 XDH XDH XDH 13030 -0.028 0.28 NO
54 PEX12 PEX12 PEX12 13065 -0.028 0.29 NO
55 EHHADH EHHADH EHHADH 13171 -0.029 0.28 NO
56 SOD1 SOD1 SOD1 13236 -0.03 0.28 NO
57 PMVK PMVK PMVK 13622 -0.036 0.27 NO
58 PEX3 PEX3 PEX3 13822 -0.039 0.27 NO
59 PEX14 PEX14 PEX14 13962 -0.041 0.26 NO
60 SOD2 SOD2 SOD2 14313 -0.046 0.25 NO
61 PEX13 PEX13 PEX13 14351 -0.047 0.26 NO
62 PEX5 PEX5 PEX5 14662 -0.052 0.25 NO
63 PRDX5 PRDX5 PRDX5 14924 -0.057 0.24 NO
64 PAOX PAOX PAOX 16201 -0.08 0.19 NO
65 MPV17 MPV17 MPV17 16235 -0.081 0.2 NO
66 NUDT19 NUDT19 NUDT19 16373 -0.084 0.2 NO
67 PRDX1 PRDX1 PRDX1 16655 -0.091 0.2 NO
68 SLC25A17 SLC25A17 SLC25A17 17002 -0.1 0.19 NO
69 ACSL1 ACSL1 ACSL1 17780 -0.12 0.17 NO
70 DHRS4 DHRS4 DHRS4 17943 -0.13 0.17 NO
71 MPV17L MPV17L MPV17L 18030 -0.13 0.18 NO
72 MVK MVK MVK 18062 -0.13 0.19 NO
73 CROT CROT CROT 18891 -0.17 0.17 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: BIOCARTA RHO PATHWAY.

Figure S8.  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 GLYCOLYSIS GLUCONEOGENESIS

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 PIP5K1B PIP5K1B PIP5K1B 114 1.2 0.35 YES
2 ARHGAP6 ARHGAP6 ARHGAP6 873 0.53 0.47 YES
3 ARHGAP4 ARHGAP4 ARHGAP4 3490 0.19 0.41 NO
4 SRC SRC SRC 4971 0.12 0.38 NO
5 ARPC1B ARPC1B ARPC1B 7282 0.06 0.29 NO
6 RHOA RHOA RHOA 7532 0.055 0.3 NO
7 PPP1R12B PPP1R12B PPP1R12B 7709 0.051 0.31 NO
8 ARHGEF11 ARHGEF11 ARHGEF11 8059 0.045 0.3 NO
9 ARHGEF1 ARHGEF1 ARHGEF1 8238 0.042 0.31 NO
10 ROCK1 ROCK1 ROCK1 8836 0.032 0.29 NO
11 DIAPH1 DIAPH1 DIAPH1 9383 0.023 0.27 NO
12 OPHN1 OPHN1 OPHN1 10554 0.0061 0.22 NO
13 CFL1 CFL1 CFL1 10781 0.0027 0.22 NO
14 ACTR2 ACTR2 ACTR2 11060 -0.00092 0.2 NO
15 ARPC5 ARPC5 ARPC5 11210 -0.0029 0.2 NO
16 ARPC1A ARPC1A ARPC1A 11249 -0.0035 0.2 NO
17 ARHGAP5 ARHGAP5 ARHGAP5 11458 -0.0063 0.19 NO
18 MYL2 MYL2 MYL2 11878 -0.012 0.18 NO
19 ARPC3 ARPC3 ARPC3 12913 -0.026 0.14 NO
20 PFN1 PFN1 PFN1 12932 -0.026 0.14 NO
21 PIP5K1A PIP5K1A PIP5K1A 13303 -0.031 0.14 NO
22 VCL VCL VCL 13637 -0.036 0.13 NO
23 GSN GSN GSN 13968 -0.041 0.13 NO
24 ARHGAP1 ARHGAP1 ARHGAP1 14414 -0.048 0.12 NO
25 ACTR3 ACTR3 ACTR3 15106 -0.06 0.11 NO
26 ARPC2 ARPC2 ARPC2 15232 -0.062 0.12 NO
27 LIMK1 LIMK1 LIMK1 18076 -0.14 0.038 NO
28 ARHGEF5 ARHGEF5 ARHGEF5 18392 -0.15 0.066 NO
29 MYLK MYLK MYLK 19248 -0.19 0.083 NO
30 BAIAP2 BAIAP2 BAIAP2 20245 -0.26 0.11 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 GLYCOLYSIS GLUCONEOGENESIS.

Figure S10.  Get High-res Image For the top 5 core enriched genes in the pathway: KEGG GLYCOLYSIS GLUCONEOGENESIS, 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 PENTOSE PHOSPHATE PATHWAY

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 ACY3 ACY3 ACY3 258 0.91 0.13 YES
2 AGXT AGXT AGXT 403 0.77 0.25 YES
3 GPT GPT GPT 1012 0.49 0.3 YES
4 CPS1 CPS1 CPS1 1235 0.43 0.36 YES
5 GAD1 GAD1 GAD1 1339 0.41 0.42 YES
6 ASL ASL ASL 1383 0.4 0.48 YES
7 ASS1 ASS1 ASS1 1706 0.34 0.52 YES
8 DDO DDO DDO 2328 0.27 0.54 YES
9 GFPT1 GFPT1 GFPT1 2468 0.26 0.57 YES
10 ASPA ASPA ASPA 4586 0.14 0.5 NO
11 ABAT ABAT ABAT 4616 0.14 0.52 NO
12 ALDH5A1 ALDH5A1 ALDH5A1 6813 0.07 0.44 NO
13 GLS GLS GLS 9482 0.021 0.32 NO
14 GAD2 GAD2 GAD2 9809 0.016 0.31 NO
15 GLUD2 GLUD2 GLUD2 9908 0.015 0.31 NO
16 GOT1 GOT1 GOT1 9913 0.015 0.31 NO
17 AGXT2 AGXT2 AGXT2 10085 0.012 0.31 NO
18 ASNS ASNS ASNS 10238 0.01 0.3 NO
19 IL4I1 IL4I1 IL4I1 12566 -0.022 0.2 NO
20 PPAT PPAT PPAT 13352 -0.032 0.18 NO
21 CAD CAD CAD 14709 -0.053 0.12 NO
22 GLUD1 GLUD1 GLUD1 14997 -0.058 0.12 NO
23 GPT2 GPT2 GPT2 15032 -0.058 0.13 NO
24 ADSL ADSL ADSL 15797 -0.072 0.11 NO
25 GOT2 GOT2 GOT2 16912 -0.098 0.073 NO
26 NIT2 NIT2 NIT2 16985 -0.1 0.086 NO
27 GLS2 GLS2 GLS2 17164 -0.1 0.095 NO
28 GLUL GLUL GLUL 18594 -0.16 0.057 NO
29 ALDH4A1 ALDH4A1 ALDH4A1 19128 -0.18 0.062 NO
30 ADSSL1 ADSSL1 ADSSL1 19263 -0.19 0.086 NO
31 GFPT2 GFPT2 GFPT2 21639 -0.45 0.053 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 PENTOSE PHOSPHATE PATHWAY.

Figure S12.  Get High-res Image For the top 5 core enriched genes in the pathway: KEGG PENTOSE PHOSPHATE 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 FRUCTOSE AND MANNOSE METABOLISM

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 LDHAL6A LDHAL6A LDHAL6A 1658 0.35 0.032 YES
2 LDHAL6B LDHAL6B LDHAL6B 1715 0.34 0.13 YES
3 ACACB ACACB ACACB 2023 0.31 0.21 YES
4 SUCLG2 SUCLG2 SUCLG2 2898 0.23 0.24 YES
5 ALDH2 ALDH2 ALDH2 3331 0.2 0.28 YES
6 ACSS1 ACSS1 ACSS1 3429 0.19 0.33 YES
7 ACSS2 ACSS2 ACSS2 3879 0.17 0.36 YES
8 ABAT ABAT ABAT 4616 0.14 0.37 YES
9 PCCA PCCA PCCA 4748 0.13 0.4 YES
10 ALDH1B1 ALDH1B1 ALDH1B1 5066 0.12 0.42 YES
11 MLYCD MLYCD MLYCD 5595 0.1 0.43 YES
12 ECHS1 ECHS1 ECHS1 5882 0.093 0.45 YES
13 ACAT1 ACAT1 ACAT1 6109 0.088 0.46 YES
14 SUCLG1 SUCLG1 SUCLG1 6195 0.085 0.48 YES
15 HIBCH HIBCH HIBCH 6984 0.067 0.47 NO
16 ALDH6A1 ALDH6A1 ALDH6A1 7350 0.059 0.47 NO
17 MCEE MCEE MCEE 8663 0.035 0.42 NO
18 ALDH9A1 ALDH9A1 ALDH9A1 10313 0.0092 0.36 NO
19 HADHA HADHA HADHA 10503 0.0067 0.35 NO
20 ACADM ACADM ACADM 10820 0.0022 0.34 NO
21 SUCLA2 SUCLA2 SUCLA2 10948 0.00058 0.33 NO
22 ACSS3 ACSS3 ACSS3 11066 -0.001 0.33 NO
23 MUT MUT MUT 11177 -0.0024 0.32 NO
24 ALDH7A1 ALDH7A1 ALDH7A1 11472 -0.0065 0.31 NO
25 EHHADH EHHADH EHHADH 13171 -0.029 0.24 NO
26 PCCB PCCB PCCB 14719 -0.053 0.19 NO
27 ACAT2 ACAT2 ACAT2 15186 -0.061 0.19 NO
28 ACACA ACACA ACACA 16253 -0.081 0.17 NO
29 LDHA LDHA LDHA 16293 -0.082 0.19 NO
30 ALDH3A2 ALDH3A2 ALDH3A2 17631 -0.12 0.17 NO
31 LDHB LDHB LDHB 19558 -0.21 0.14 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 FRUCTOSE AND MANNOSE METABOLISM.

Figure S14.  Get High-res Image For the top 5 core enriched genes in the pathway: KEGG FRUCTOSE AND MANNOSE 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 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 UGT2B7 UGT2B7 UGT2B7 154 1.1 0.097 YES
2 SI SI SI 210 1 0.19 YES
3 UGT2A3 UGT2A3 UGT2A3 220 0.98 0.28 YES
4 UGT2B15 UGT2B15 UGT2B15 235 0.95 0.37 YES
5 MGAM MGAM MGAM 452 0.73 0.43 YES
6 GBA3 GBA3 GBA3 665 0.62 0.48 YES
7 TREH TREH TREH 699 0.6 0.53 YES
8 G6PC2 G6PC2 G6PC2 1171 0.44 0.55 YES
9 ENPP1 ENPP1 ENPP1 1189 0.44 0.59 YES
10 UGT2B17 UGT2B17 UGT2B17 1390 0.4 0.62 YES
11 UGT2B11 UGT2B11 UGT2B11 2205 0.29 0.61 NO
12 PGM2L1 PGM2L1 PGM2L1 2576 0.25 0.62 NO
13 ENPP3 ENPP3 ENPP3 3129 0.21 0.62 NO
14 AMY2B AMY2B AMY2B 4050 0.16 0.59 NO
15 GUSB GUSB GUSB 4505 0.14 0.58 NO
16 UGT2B4 UGT2B4 UGT2B4 5722 0.098 0.54 NO
17 PYGB PYGB PYGB 6754 0.072 0.5 NO
18 G6PC G6PC G6PC 8679 0.035 0.42 NO
19 PYGM PYGM PYGM 9667 0.019 0.38 NO
20 UGDH UGDH UGDH 10318 0.0091 0.35 NO
21 UGP2 UGP2 UGP2 11127 -0.0018 0.32 NO
22 UGT1A1 UGT1A1 UGT1A1 11191 -0.0026 0.32 NO
23 PGM1 PGM1 PGM1 11737 -0.01 0.29 NO
24 GCK GCK GCK 13631 -0.036 0.21 NO
25 HK2 HK2 HK2 15033 -0.059 0.16 NO
26 GANC GANC GANC 15868 -0.074 0.13 NO
27 GPI GPI GPI 15887 -0.074 0.13 NO
28 AGL AGL AGL 16101 -0.078 0.13 NO
29 GBE1 GBE1 GBE1 16157 -0.08 0.14 NO
30 GYS1 GYS1 GYS1 16872 -0.097 0.11 NO
31 HK3 HK3 HK3 17211 -0.11 0.11 NO
32 UGT2B28 UGT2B28 UGT2B28 17761 -0.12 0.096 NO
33 PGM2 PGM2 PGM2 17831 -0.13 0.1 NO
34 GYS2 GYS2 GYS2 18614 -0.16 0.086 NO
35 GAA GAA GAA 19267 -0.19 0.075 NO
36 HK1 HK1 HK1 19416 -0.2 0.087 NO
37 UGT2A1 UGT2A1 UGT2A1 19706 -0.22 0.094 NO
38 PYGL PYGL PYGL 21718 -0.46 0.05 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 ALANINE ASPARTATE AND GLUTAMATE METABOLISM.

Figure S16.  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 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 HMGCS2 HMGCS2 HMGCS2 142 1.1 0.22 YES
2 ACAA2 ACAA2 ACAA2 1147 0.45 0.27 YES
3 ALDH2 ALDH2 ALDH2 3331 0.2 0.21 YES
4 BCKDHB BCKDHB BCKDHB 3337 0.2 0.25 YES
5 ACADS ACADS ACADS 3636 0.18 0.27 YES
6 IVD IVD IVD 3882 0.17 0.3 YES
7 HIBADH HIBADH HIBADH 4214 0.16 0.31 YES
8 ABAT ABAT ABAT 4616 0.14 0.32 YES
9 ACAA1 ACAA1 ACAA1 4643 0.14 0.35 YES
10 ACAD8 ACAD8 ACAD8 4718 0.13 0.37 YES
11 PCCA PCCA PCCA 4748 0.13 0.4 YES
12 ALDH1B1 ALDH1B1 ALDH1B1 5066 0.12 0.41 YES
13 ACADSB ACADSB ACADSB 5071 0.12 0.43 YES
14 HMGCL HMGCL HMGCL 5219 0.12 0.45 YES
15 ECHS1 ECHS1 ECHS1 5882 0.093 0.44 YES
16 ACAT1 ACAT1 ACAT1 6109 0.088 0.44 YES
17 HADH HADH HADH 6333 0.081 0.45 YES
18 MCCC2 MCCC2 MCCC2 6883 0.069 0.44 YES
19 HIBCH HIBCH HIBCH 6984 0.067 0.45 YES
20 AUH AUH AUH 7138 0.064 0.45 YES
21 ALDH6A1 ALDH6A1 ALDH6A1 7350 0.059 0.46 YES
22 OXCT2 OXCT2 OXCT2 8122 0.044 0.43 NO
23 MCEE MCEE MCEE 8663 0.035 0.41 NO
24 ALDH9A1 ALDH9A1 ALDH9A1 10313 0.0092 0.34 NO
25 BCAT2 BCAT2 BCAT2 10496 0.0068 0.34 NO
26 HADHA HADHA HADHA 10503 0.0067 0.34 NO
27 ACADM ACADM ACADM 10820 0.0022 0.32 NO
28 MUT MUT MUT 11177 -0.0024 0.31 NO
29 ALDH7A1 ALDH7A1 ALDH7A1 11472 -0.0065 0.3 NO
30 HSD17B10 HSD17B10 HSD17B10 11673 -0.0092 0.29 NO
31 IL4I1 IL4I1 IL4I1 12566 -0.022 0.26 NO
32 DLD DLD DLD 12660 -0.023 0.26 NO
33 EHHADH EHHADH EHHADH 13171 -0.029 0.24 NO
34 HMGCS1 HMGCS1 HMGCS1 13946 -0.041 0.21 NO
35 AOX1 AOX1 AOX1 14295 -0.046 0.21 NO
36 PCCB PCCB PCCB 14719 -0.053 0.2 NO
37 HADHB HADHB HADHB 14864 -0.056 0.2 NO
38 ACAT2 ACAT2 ACAT2 15186 -0.061 0.2 NO
39 MCCC1 MCCC1 MCCC1 16741 -0.094 0.15 NO
40 DBT DBT DBT 17157 -0.1 0.16 NO
41 ALDH3A2 ALDH3A2 ALDH3A2 17631 -0.12 0.16 NO
42 BCKDHA BCKDHA BCKDHA 17972 -0.13 0.17 NO
43 OXCT1 OXCT1 OXCT1 19721 -0.22 0.14 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 VALINE LEUCINE AND ISOLEUCINE DEGRADATION.

Figure S18.  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 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 GAS2 GAS2 GAS2 379 0.79 0.17 YES
2 BIRC3 BIRC3 BIRC3 1180 0.44 0.24 YES
3 CASP10 CASP10 CASP10 1324 0.41 0.32 YES
4 DFFB DFFB DFFB 2411 0.27 0.34 YES
5 APAF1 APAF1 APAF1 2904 0.23 0.37 YES
6 CASP6 CASP6 CASP6 3841 0.17 0.37 YES
7 CASP8 CASP8 CASP8 4575 0.14 0.37 YES
8 CASP7 CASP7 CASP7 5314 0.11 0.36 YES
9 SPTAN1 SPTAN1 SPTAN1 5863 0.094 0.36 YES
10 MAP3K14 MAP3K14 MAP3K14 5942 0.092 0.38 YES
11 TNFRSF10B TNFRSF10B TNFRSF10B 6372 0.08 0.38 YES
12 TRAF2 TRAF2 TRAF2 6375 0.08 0.4 YES
13 TNFRSF10A TNFRSF10A TNFRSF10A 6564 0.076 0.41 YES
14 CHUK CHUK CHUK 6601 0.075 0.42 YES
15 CASP9 CASP9 CASP9 6639 0.074 0.44 YES
16 CFLAR CFLAR CFLAR 6939 0.068 0.44 YES
17 CASP3 CASP3 CASP3 7248 0.061 0.44 YES
18 CYCS CYCS CYCS 7429 0.057 0.45 YES
19 XIAP XIAP XIAP 7541 0.055 0.46 YES
20 RIPK1 RIPK1 RIPK1 8648 0.035 0.42 NO
21 BIRC2 BIRC2 BIRC2 10331 0.0089 0.34 NO
22 DFFA DFFA DFFA 10688 0.0039 0.33 NO
23 RELA RELA RELA 12557 -0.022 0.25 NO
24 NFKB1 NFKB1 NFKB1 12772 -0.024 0.25 NO
25 TNFRSF25 TNFRSF25 TNFRSF25 12990 -0.027 0.24 NO
26 LMNA LMNA LMNA 13972 -0.041 0.21 NO
27 TRADD TRADD TRADD 16302 -0.083 0.13 NO
28 BCL2 BCL2 BCL2 17168 -0.1 0.12 NO
29 NFKBIA NFKBIA NFKBIA 18285 -0.14 0.1 NO
30 TNFSF10 TNFSF10 TNFSF10 19481 -0.2 0.094 NO
31 FADD FADD FADD 19872 -0.23 0.13 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 HISTIDINE METABOLISM.

Figure S20.  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

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 CARM ER PATHWAY 33 genes.ES.table 0.38 1.4 0.14 0.69 0.88 0.61 0.45 0.33 0.55 0.27
BIOCARTA ERK PATHWAY 26 genes.ES.table 0.5 1.7 0.021 0.63 0.49 0.19 0.12 0.17 0 0.22
BIOCARTA GSK3 PATHWAY 25 genes.ES.table 0.39 1.3 0.14 0.69 0.9 0.36 0.3 0.25 0.57 0.27
BIOCARTA INTEGRIN PATHWAY 37 genes.ES.table 0.37 1.4 0.1 0.66 0.82 0.11 0.078 0.1 0.48 0.26
BIOCARTA MYOSIN PATHWAY 30 genes.ES.table 0.51 1.7 0.017 0.62 0.4 0.17 0.1 0.15 0 0.22
KEGG RNA DEGRADATION 56 genes.ES.table 0.36 1.4 0.14 0.67 0.88 0.62 0.52 0.3 0.55 0.25
KEGG CELL CYCLE 117 genes.ES.table 0.35 1.4 0.15 0.66 0.84 0.67 0.44 0.37 0.49 0.25
KEGG OOCYTE MEIOSIS 107 genes.ES.table 0.36 1.5 0.055 0.86 0.73 0.43 0.36 0.28 0.55 0.32
KEGG P53 SIGNALING PATHWAY 66 genes.ES.table 0.36 1.4 0.1 0.66 0.81 0.46 0.33 0.3 0.48 0.26
KEGG MTOR SIGNALING PATHWAY 49 genes.ES.table 0.35 1.4 0.12 0.65 0.85 0.2 0.2 0.16 0.5 0.24
genes ES table in pathway: BIOCARTA CARM ER 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 NTF4 NTF4 NTF4 56 0.74 0.049 YES
2 NGFR NGFR NGFR 93 0.69 0.096 YES
3 CALML3 CALML3 CALML3 145 0.64 0.14 YES
4 NTRK2 NTRK2 NTRK2 309 0.56 0.17 YES
5 NGF NGF NGF 366 0.54 0.2 YES
6 TP73 TP73 TP73 563 0.48 0.23 YES
7 CAMK2B CAMK2B CAMK2B 732 0.45 0.25 YES
8 NGFRAP1 NGFRAP1 NGFRAP1 786 0.44 0.28 YES
9 IRS4 IRS4 IRS4 842 0.43 0.31 YES
10 CAMK4 CAMK4 CAMK4 1061 0.4 0.33 YES
11 MAPK10 MAPK10 MAPK10 1168 0.38 0.35 YES
12 CALML5 CALML5 CALML5 1188 0.38 0.38 YES
13 RPS6KA6 RPS6KA6 RPS6KA6 1741 0.32 0.38 YES
14 CAMK2A CAMK2A CAMK2A 1743 0.32 0.4 YES
15 MAPK12 MAPK12 MAPK12 2176 0.28 0.4 YES
16 AKT3 AKT3 AKT3 2236 0.28 0.42 YES
17 MAPK11 MAPK11 MAPK11 2271 0.28 0.43 YES
18 PIK3CD PIK3CD PIK3CD 3268 0.21 0.4 NO
19 CALML6 CALML6 CALML6 3337 0.21 0.42 NO
20 SHC4 SHC4 SHC4 3429 0.2 0.42 NO
21 BDNF BDNF BDNF 4358 0.17 0.4 NO
22 PDK1 PDK1 PDK1 4449 0.16 0.4 NO
23 BCL2 BCL2 BCL2 4470 0.16 0.41 NO
24 IRS2 IRS2 IRS2 4530 0.16 0.42 NO
25 PIK3CA PIK3CA PIK3CA 4650 0.16 0.43 NO
26 SH2B2 SH2B2 SH2B2 4932 0.15 0.43 NO
27 CRKL CRKL CRKL 5909 0.12 0.39 NO
28 RPS6KA5 RPS6KA5 RPS6KA5 6141 0.11 0.39 NO
29 YWHAG YWHAG YWHAG 6505 0.1 0.38 NO
30 YWHAQ YWHAQ YWHAQ 6566 0.1 0.38 NO
31 NTRK3 NTRK3 NTRK3 6608 0.1 0.39 NO
32 TP53 TP53 TP53 6654 0.1 0.4 NO
33 NFKBIA NFKBIA NFKBIA 6815 0.098 0.4 NO
34 PLCG1 PLCG1 PLCG1 6851 0.098 0.4 NO
35 NTRK1 NTRK1 NTRK1 6902 0.097 0.4 NO
36 IRS1 IRS1 IRS1 6996 0.095 0.41 NO
37 SHC3 SHC3 SHC3 7079 0.094 0.41 NO
38 ZNF274 ZNF274 ZNF274 7383 0.089 0.4 NO
39 KIDINS220 KIDINS220 KIDINS220 7428 0.088 0.41 NO
40 MAPK7 MAPK7 MAPK7 7556 0.086 0.41 NO
41 SHC1 SHC1 SHC1 7756 0.082 0.4 NO
42 GSK3B GSK3B GSK3B 7774 0.082 0.41 NO
43 YWHAE YWHAE YWHAE 7781 0.082 0.42 NO
44 RAPGEF1 RAPGEF1 RAPGEF1 7920 0.08 0.41 NO
45 JUN JUN JUN 8055 0.078 0.41 NO
46 MAP2K7 MAP2K7 MAP2K7 8344 0.074 0.41 NO
47 ABL1 ABL1 ABL1 8497 0.071 0.4 NO
48 FRS2 FRS2 FRS2 8728 0.068 0.4 NO
49 BRAF BRAF BRAF 8799 0.067 0.4 NO
50 BAD BAD BAD 9013 0.064 0.4 NO
51 PIK3R2 PIK3R2 PIK3R2 9675 0.056 0.37 NO
52 MAPK1 MAPK1 MAPK1 9913 0.053 0.36 NO
53 PIK3R1 PIK3R1 PIK3R1 9986 0.052 0.36 NO
54 MAP3K3 MAP3K3 MAP3K3 10019 0.052 0.37 NO
55 YWHAH YWHAH YWHAH 10674 0.044 0.34 NO
56 SOS2 SOS2 SOS2 10698 0.044 0.34 NO
57 AKT2 AKT2 AKT2 10883 0.042 0.34 NO
58 MAP2K5 MAP2K5 MAP2K5 10972 0.041 0.34 NO
59 AKT1 AKT1 AKT1 11073 0.04 0.34 NO
60 CRK CRK CRK 11144 0.039 0.34 NO
61 SOS1 SOS1 SOS1 11312 0.037 0.33 NO
62 PLCG2 PLCG2 PLCG2 11405 0.036 0.33 NO
63 NFKB1 NFKB1 NFKB1 11569 0.033 0.32 NO
64 MAP2K1 MAP2K1 MAP2K1 11573 0.033 0.33 NO
65 YWHAZ YWHAZ YWHAZ 11670 0.032 0.32 NO
66 PTPN11 PTPN11 PTPN11 11689 0.032 0.32 NO
67 RAP1B RAP1B RAP1B 11775 0.031 0.32 NO
68 ATF4 ATF4 ATF4 12481 0.023 0.29 NO
69 GAB1 GAB1 GAB1 12488 0.022 0.3 NO
70 RPS6KA4 RPS6KA4 RPS6KA4 12543 0.022 0.29 NO
71 ARHGDIB ARHGDIB ARHGDIB 12572 0.022 0.3 NO
72 PRDM4 PRDM4 PRDM4 12629 0.021 0.29 NO
73 MAP2K2 MAP2K2 MAP2K2 12740 0.02 0.29 NO
74 RELA RELA RELA 12814 0.019 0.29 NO
75 RAP1A RAP1A RAP1A 13042 0.016 0.28 NO
76 MAGED1 MAGED1 MAGED1 13043 0.016 0.28 NO
77 MAP3K1 MAP3K1 MAP3K1 13099 0.016 0.28 NO
78 CDC42 CDC42 CDC42 13322 0.013 0.27 NO
79 NRAS NRAS NRAS 13424 0.012 0.27 NO
80 IKBKB IKBKB IKBKB 13511 0.011 0.26 NO
81 IRAK4 IRAK4 IRAK4 13610 0.0099 0.26 NO
82 CAMK2G CAMK2G CAMK2G 13717 0.0086 0.26 NO
83 MAPKAPK2 MAPKAPK2 MAPKAPK2 13747 0.0082 0.26 NO
84 SH2B1 SH2B1 SH2B1 13793 0.0076 0.25 NO
85 PIK3R5 PIK3R5 PIK3R5 13870 0.0067 0.25 NO
86 CAMK2D CAMK2D CAMK2D 13897 0.0063 0.25 NO
87 CALM1 CALM1 CALM1 13930 0.0058 0.25 NO
88 SHC2 SHC2 SHC2 14196 0.0026 0.24 NO
89 IRAK1 IRAK1 IRAK1 14368 0.00037 0.23 NO
90 MAPK9 MAPK9 MAPK9 14469 -0.00082 0.23 NO
91 CALM2 CALM2 CALM2 14661 -0.0032 0.22 NO
92 GRB2 GRB2 GRB2 14676 -0.0035 0.22 NO
93 MAPK14 MAPK14 MAPK14 14908 -0.0067 0.21 NO
94 TRAF6 TRAF6 TRAF6 15200 -0.011 0.2 NO
95 MAP3K5 MAP3K5 MAP3K5 15208 -0.011 0.2 NO
96 PIK3CB PIK3CB PIK3CB 15400 -0.014 0.19 NO
97 ARHGDIA ARHGDIA ARHGDIA 15554 -0.016 0.18 NO
98 RAC1 RAC1 RAC1 15641 -0.018 0.18 NO
99 SH2B3 SH2B3 SH2B3 15708 -0.018 0.18 NO
100 YWHAB YWHAB YWHAB 15913 -0.021 0.17 NO
101 RPS6KA1 RPS6KA1 RPS6KA1 15937 -0.022 0.17 NO
102 NTF3 NTF3 NTF3 16079 -0.024 0.17 NO
103 RAF1 RAF1 RAF1 16087 -0.024 0.17 NO
104 MAPK8 MAPK8 MAPK8 16187 -0.026 0.17 NO
105 CSK CSK CSK 16727 -0.036 0.14 NO
106 IRAK3 IRAK3 IRAK3 16746 -0.036 0.15 NO
107 PSEN1 PSEN1 PSEN1 16764 -0.036 0.15 NO
108 RIPK2 RIPK2 RIPK2 16781 -0.037 0.15 NO
109 BAX BAX BAX 16858 -0.039 0.15 NO
110 FOXO3 FOXO3 FOXO3 16998 -0.041 0.15 NO
111 PIK3R3 PIK3R3 PIK3R3 17278 -0.048 0.14 NO
112 RHOA RHOA RHOA 17320 -0.048 0.14 NO
113 KRAS KRAS KRAS 17433 -0.051 0.14 NO
114 FASLG FASLG FASLG 17659 -0.056 0.13 NO
115 NFKBIB NFKBIB NFKBIB 17674 -0.056 0.14 NO
116 MAPK13 MAPK13 MAPK13 18241 -0.073 0.12 NO
117 CALM3 CALM3 CALM3 18462 -0.079 0.11 NO
118 RPS6KA2 RPS6KA2 RPS6KA2 18604 -0.084 0.11 NO
119 RPS6KA3 RPS6KA3 RPS6KA3 18987 -0.099 0.1 NO
120 NFKBIE NFKBIE NFKBIE 19252 -0.11 0.097 NO
121 MAPK3 MAPK3 MAPK3 19738 -0.13 0.084 NO
122 PIK3CG PIK3CG PIK3CG 19851 -0.14 0.089 NO
123 PRKCD PRKCD PRKCD 19895 -0.14 0.097 NO
124 SORT1 SORT1 SORT1 20413 -0.17 0.086 NO
125 IRAK2 IRAK2 IRAK2 21600 -0.3 0.055 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 CARM ER PATHWAY.

Figure S22.  Get High-res Image For the top 5 core enriched genes in the pathway: BIOCARTA CARM ER 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 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 GNGT1 GNGT1 GNGT1 232 0.59 0.17 YES
2 ARHGEF4 ARHGEF4 ARHGEF4 794 0.44 0.28 YES
3 MYL7 MYL7 MYL7 1305 0.36 0.37 YES
4 ARHGEF19 ARHGEF19 ARHGEF19 1884 0.31 0.44 YES
5 MYLK MYLK MYLK 2290 0.27 0.51 YES
6 GNA12 GNA12 GNA12 6408 0.11 0.36 NO
7 ARHGEF10 ARHGEF10 ARHGEF10 7782 0.082 0.32 NO
8 ARHGEF17 ARHGEF17 ARHGEF17 7854 0.081 0.34 NO
9 ARHGEF5 ARHGEF5 ARHGEF5 8725 0.068 0.33 NO
10 ARHGEF6 ARHGEF6 ARHGEF6 8902 0.066 0.34 NO
11 PPP1R12B PPP1R12B PPP1R12B 10687 0.044 0.28 NO
12 GNB1 GNB1 GNB1 11013 0.04 0.27 NO
13 ROCK1 ROCK1 ROCK1 11940 0.029 0.24 NO
14 PKN1 PKN1 PKN1 13454 0.012 0.18 NO
15 PLCB1 PLCB1 PLCB1 14091 0.0039 0.15 NO
16 ARHGAP5 ARHGAP5 ARHGAP5 14693 -0.0037 0.13 NO
17 ARHGEF3 ARHGEF3 ARHGEF3 14860 -0.006 0.12 NO
18 ARHGEF11 ARHGEF11 ARHGEF11 15285 -0.012 0.11 NO
19 PRKCB PRKCB PRKCB 15728 -0.019 0.093 NO
20 ARHGEF9 ARHGEF9 ARHGEF9 16126 -0.025 0.083 NO
21 ARHGEF7 ARHGEF7 ARHGEF7 16405 -0.03 0.08 NO
22 ARHGEF1 ARHGEF1 ARHGEF1 16452 -0.031 0.088 NO
23 MYL2 MYL2 MYL2 16463 -0.031 0.097 NO
24 ARHGEF18 ARHGEF18 ARHGEF18 16538 -0.032 0.1 NO
25 ARHGEF12 ARHGEF12 ARHGEF12 16590 -0.033 0.11 NO
26 GNAQ GNAQ GNAQ 16993 -0.041 0.11 NO
27 ARHGEF2 ARHGEF2 ARHGEF2 17276 -0.048 0.11 NO
28 ARHGEF16 ARHGEF16 ARHGEF16 19787 -0.13 0.04 NO
29 ARHGEF15 ARHGEF15 ARHGEF15 20084 -0.15 0.073 NO
30 PRKCA PRKCA PRKCA 20209 -0.16 0.12 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 ERK PATHWAY.

Figure S24.  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 GSK3 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 NGFR NGFR NGFR 93 0.69 0.18 YES
2 GNGT1 GNGT1 GNGT1 232 0.59 0.33 YES
3 NGF NGF NGF 366 0.54 0.47 YES
4 EGFR EGFR EGFR 2227 0.28 0.46 YES
5 IGF1R IGF1R IGF1R 2765 0.24 0.5 YES
6 RPS6KA5 RPS6KA5 RPS6KA5 6141 0.11 0.38 NO
7 SHC1 SHC1 SHC1 7756 0.082 0.33 NO
8 MYC MYC MYC 8027 0.078 0.34 NO
9 MKNK1 MKNK1 MKNK1 8349 0.074 0.35 NO
10 GNAS GNAS GNAS 8608 0.07 0.36 NO
11 MAPK1 MAPK1 MAPK1 9913 0.053 0.31 NO
12 ITGB1 ITGB1 ITGB1 10591 0.045 0.3 NO
13 MKNK2 MKNK2 MKNK2 10948 0.041 0.29 NO
14 GNB1 GNB1 GNB1 11013 0.04 0.3 NO
15 SOS1 SOS1 SOS1 11312 0.037 0.3 NO
16 MAP2K1 MAP2K1 MAP2K1 11573 0.033 0.29 NO
17 MAP2K2 MAP2K2 MAP2K2 12740 0.02 0.25 NO
18 ELK1 ELK1 ELK1 13207 0.014 0.23 NO
19 STAT3 STAT3 STAT3 14514 -0.0015 0.17 NO
20 GRB2 GRB2 GRB2 14676 -0.0035 0.17 NO
21 PDGFRA PDGFRA PDGFRA 15215 -0.011 0.15 NO
22 RPS6KA1 RPS6KA1 RPS6KA1 15937 -0.022 0.12 NO
23 RAF1 RAF1 RAF1 16087 -0.024 0.12 NO
24 SRC SRC SRC 18753 -0.09 0.028 NO
25 MAPK3 MAPK3 MAPK3 19738 -0.13 0.019 NO
26 PTPRR PTPRR PTPRR 22154 -0.44 0.03 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 GSK3 PATHWAY.

Figure S26.  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 INTEGRIN 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 PITX2 PITX2 PITX2 108 0.67 0.046 YES
2 WNT9A WNT9A WNT9A 213 0.6 0.087 YES
3 WNT7A WNT7A WNT7A 289 0.56 0.13 YES
4 WNT7B WNT7B WNT7B 498 0.5 0.16 YES
5 PYGO1 PYGO1 PYGO1 687 0.46 0.18 YES
6 WNT6 WNT6 WNT6 723 0.45 0.21 YES
7 FOXN1 FOXN1 FOXN1 1021 0.41 0.23 YES
8 SFRP4 SFRP4 SFRP4 1059 0.4 0.26 YES
9 SFRP1 SFRP1 SFRP1 1214 0.38 0.28 YES
10 TCF7L1 TCF7L1 TCF7L1 1274 0.37 0.31 YES
11 WNT2B WNT2B WNT2B 1430 0.35 0.33 YES
12 WISP1 WISP1 WISP1 1852 0.31 0.33 YES
13 WNT10A WNT10A WNT10A 1916 0.3 0.35 YES
14 T T T 1959 0.3 0.37 YES
15 FZD7 FZD7 FZD7 2024 0.3 0.39 YES
16 FZD6 FZD6 FZD6 2038 0.3 0.42 YES
17 WNT2 WNT2 WNT2 2116 0.29 0.43 YES
18 WNT3 WNT3 WNT3 2185 0.28 0.45 YES
19 FZD1 FZD1 FZD1 2649 0.25 0.45 YES
20 KREMEN1 KREMEN1 KREMEN1 2982 0.23 0.45 YES
21 FZD2 FZD2 FZD2 3153 0.22 0.46 YES
22 LEF1 LEF1 LEF1 3492 0.2 0.46 YES
23 DVL2 DVL2 DVL2 3580 0.2 0.47 YES
24 WNT5B WNT5B WNT5B 3955 0.18 0.47 YES
25 WNT5A WNT5A WNT5A 4096 0.18 0.48 YES
26 NKD1 NKD1 NKD1 4124 0.18 0.49 YES
27 DKK1 DKK1 DKK1 4435 0.16 0.49 NO
28 WNT4 WNT4 WNT4 4890 0.15 0.48 NO
29 FZD8 FZD8 FZD8 5468 0.13 0.46 NO
30 WIF1 WIF1 WIF1 6023 0.12 0.45 NO
31 WNT16 WNT16 WNT16 6044 0.12 0.46 NO
32 CCND1 CCND1 CCND1 6048 0.12 0.47 NO
33 HPRT1 HPRT1 HPRT1 6155 0.11 0.47 NO
34 CTNNBIP1 CTNNBIP1 CTNNBIP1 6217 0.11 0.48 NO
35 SENP2 SENP2 SENP2 6327 0.11 0.48 NO
36 PORCN PORCN PORCN 6717 0.1 0.47 NO
37 GAPDH GAPDH GAPDH 6898 0.097 0.47 NO
38 GSK3B GSK3B GSK3B 7774 0.082 0.44 NO
39 MYC MYC MYC 8027 0.078 0.43 NO
40 JUN JUN JUN 8055 0.078 0.44 NO
41 DIXDC1 DIXDC1 DIXDC1 8083 0.077 0.44 NO
42 CSNK1A1 CSNK1A1 CSNK1A1 8252 0.075 0.44 NO
43 FBXW4 FBXW4 FBXW4 8398 0.073 0.44 NO
44 FOSL1 FOSL1 FOSL1 8680 0.068 0.43 NO
45 DAAM1 DAAM1 DAAM1 8826 0.066 0.43 NO
46 CSNK1G1 CSNK1G1 CSNK1G1 9003 0.064 0.43 NO
47 FBXW2 FBXW2 FBXW2 9302 0.06 0.42 NO
48 FZD3 FZD3 FZD3 10803 0.042 0.36 NO
49 AXIN1 AXIN1 AXIN1 11300 0.037 0.34 NO
50 AES AES AES 11519 0.034 0.33 NO
51 WNT11 WNT11 WNT11 11762 0.031 0.32 NO
52 EP300 EP300 EP300 11787 0.031 0.32 NO
53 CSNK2A1 CSNK2A1 CSNK2A1 12610 0.021 0.29 NO
54 ACTB ACTB ACTB 12925 0.018 0.28 NO
55 BTRC BTRC BTRC 13008 0.017 0.27 NO
56 APC APC APC 13182 0.015 0.27 NO
57 FBXW11 FBXW11 FBXW11 14152 0.0033 0.22 NO
58 CTBP1 CTBP1 CTBP1 14396 0.000031 0.21 NO
59 DVL1 DVL1 DVL1 14489 -0.0012 0.21 NO
60 B2M B2M B2M 14621 -0.0028 0.2 NO
61 BCL9 BCL9 BCL9 14742 -0.0042 0.2 NO
62 GSK3A GSK3A GSK3A 14895 -0.0065 0.19 NO
63 TLE2 TLE2 TLE2 15074 -0.0089 0.19 NO
64 PPP2R1A PPP2R1A PPP2R1A 15096 -0.0092 0.18 NO
65 CTNNB1 CTNNB1 CTNNB1 15609 -0.017 0.16 NO
66 SLC9A3R1 SLC9A3R1 SLC9A3R1 15947 -0.022 0.15 NO
67 LRP6 LRP6 LRP6 16122 -0.025 0.14 NO
68 CSNK1D CSNK1D CSNK1D 16357 -0.029 0.14 NO
69 RPL13A RPL13A RPL13A 16439 -0.03 0.14 NO
70 CXXC4 CXXC4 CXXC4 17112 -0.044 0.11 NO
71 CCND3 CCND3 CCND3 17586 -0.055 0.093 NO
72 LRP5 LRP5 LRP5 17703 -0.057 0.092 NO
73 NLK NLK NLK 17826 -0.06 0.092 NO
74 TLE1 TLE1 TLE1 18016 -0.066 0.088 NO
75 FGF4 FGF4 FGF4 18285 -0.074 0.082 NO
76 TCF7 TCF7 TCF7 18503 -0.08 0.079 NO
77 SOX17 SOX17 SOX17 18649 -0.086 0.079 NO
78 FZD4 FZD4 FZD4 18771 -0.09 0.08 NO
79 CTBP2 CTBP2 CTBP2 18782 -0.091 0.087 NO
80 CCND2 CCND2 CCND2 18846 -0.093 0.091 NO
81 FRAT1 FRAT1 FRAT1 19382 -0.11 0.076 NO
82 WNT1 WNT1 WNT1 19947 -0.14 0.062 NO
83 FRZB FRZB FRZB 20447 -0.18 0.053 NO
84 RHOU RHOU RHOU 21605 -0.3 0.026 NO
85 FZD5 FZD5 FZD5 21962 -0.38 0.039 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 INTEGRIN PATHWAY.

Figure S28.  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 MYOSIN 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 WNT3A WNT3A WNT3A 7 0.9 0.045 YES
2 CALML3 CALML3 CALML3 145 0.64 0.071 YES
3 WNT9A WNT9A WNT9A 213 0.6 0.098 YES
4 WNT7A WNT7A WNT7A 289 0.56 0.12 YES
5 FZD9 FZD9 FZD9 296 0.56 0.15 YES
6 POMC POMC POMC 300 0.56 0.18 YES
7 FZD10 FZD10 FZD10 349 0.54 0.2 YES
8 ADCY8 ADCY8 ADCY8 469 0.51 0.22 YES
9 WNT7B WNT7B WNT7B 498 0.5 0.25 YES
10 WNT10B WNT10B WNT10B 626 0.47 0.26 YES
11 WNT6 WNT6 WNT6 723 0.45 0.28 YES
12 CAMK2B CAMK2B CAMK2B 732 0.45 0.31 YES
13 ADCY2 ADCY2 ADCY2 1016 0.41 0.31 YES
14 CALML5 CALML5 CALML5 1188 0.38 0.32 YES
15 TCF7L1 TCF7L1 TCF7L1 1274 0.37 0.34 YES
16 WNT2B WNT2B WNT2B 1430 0.35 0.35 YES
17 GNAI1 GNAI1 GNAI1 1433 0.35 0.37 YES
18 CAMK2A CAMK2A CAMK2A 1743 0.32 0.37 YES
19 WNT10A WNT10A WNT10A 1916 0.3 0.38 YES
20 FZD7 FZD7 FZD7 2024 0.3 0.39 YES
21 FZD6 FZD6 FZD6 2038 0.3 0.4 YES
22 WNT2 WNT2 WNT2 2116 0.29 0.41 YES
23 TYR TYR TYR 2138 0.29 0.43 YES
24 WNT3 WNT3 WNT3 2185 0.28 0.44 YES
25 GNAO1 GNAO1 GNAO1 2462 0.26 0.44 YES
26 TYRP1 TYRP1 TYRP1 2488 0.26 0.45 YES
27 DCT DCT DCT 2527 0.26 0.46 YES
28 FZD1 FZD1 FZD1 2649 0.25 0.47 YES
29 FZD2 FZD2 FZD2 3153 0.22 0.46 YES
30 CALML6 CALML6 CALML6 3337 0.21 0.46 YES
31 LEF1 LEF1 LEF1 3492 0.2 0.46 YES
32 DVL2 DVL2 DVL2 3580 0.2 0.47 YES
33 WNT5B WNT5B WNT5B 3955 0.18 0.46 YES
34 WNT5A WNT5A WNT5A 4096 0.18 0.47 YES
35 ADCY1 ADCY1 ADCY1 4170 0.17 0.47 YES
36 HRAS HRAS HRAS 4586 0.16 0.46 NO
37 WNT4 WNT4 WNT4 4890 0.15 0.46 NO
38 ADCY5 ADCY5 ADCY5 4942 0.15 0.46 NO
39 DVL3 DVL3 DVL3 5016 0.14 0.46 NO
40 PRKX PRKX PRKX 5234 0.14 0.46 NO
41 FZD8 FZD8 FZD8 5468 0.13 0.46 NO
42 WNT16 WNT16 WNT16 6044 0.12 0.44 NO
43 PRKACB PRKACB PRKACB 6072 0.11 0.44 NO
44 MITF MITF MITF 6594 0.1 0.42 NO
45 GSK3B GSK3B GSK3B 7774 0.082 0.38 NO
46 ADCY7 ADCY7 ADCY7 7810 0.082 0.38 NO
47 PRKACA PRKACA PRKACA 8366 0.073 0.36 NO
48 GNAS GNAS GNAS 8608 0.07 0.35 NO
49 CREB1 CREB1 CREB1 9320 0.06 0.32 NO
50 ASIP ASIP ASIP 9656 0.056 0.31 NO
51 KIT KIT KIT 9747 0.055 0.31 NO
52 MAPK1 MAPK1 MAPK1 9913 0.053 0.31 NO
53 CREBBP CREBBP CREBBP 9959 0.052 0.31 NO
54 ADCY9 ADCY9 ADCY9 10176 0.05 0.3 NO
55 GNAI2 GNAI2 GNAI2 10239 0.049 0.3 NO
56 GNAI3 GNAI3 GNAI3 10797 0.042 0.28 NO
57 FZD3 FZD3 FZD3 10803 0.042 0.28 NO
58 KITLG KITLG KITLG 11244 0.038 0.26 NO
59 MAP2K1 MAP2K1 MAP2K1 11573 0.033 0.25 NO
60 WNT11 WNT11 WNT11 11762 0.031 0.24 NO
61 EP300 EP300 EP300 11787 0.031 0.24 NO
62 MAP2K2 MAP2K2 MAP2K2 12740 0.02 0.2 NO
63 WNT9B WNT9B WNT9B 12808 0.019 0.2 NO
64 NRAS NRAS NRAS 13424 0.012 0.17 NO
65 CAMK2G CAMK2G CAMK2G 13717 0.0086 0.16 NO
66 CAMK2D CAMK2D CAMK2D 13897 0.0063 0.15 NO
67 CALM1 CALM1 CALM1 13930 0.0058 0.15 NO
68 PLCB1 PLCB1 PLCB1 14091 0.0039 0.14 NO
69 PLCB2 PLCB2 PLCB2 14435 -0.00043 0.13 NO
70 DVL1 DVL1 DVL1 14489 -0.0012 0.13 NO
71 CALM2 CALM2 CALM2 14661 -0.0032 0.12 NO
72 CREB3L2 CREB3L2 CREB3L2 15534 -0.016 0.083 NO
73 CTNNB1 CTNNB1 CTNNB1 15609 -0.017 0.081 NO
74 CREB3 CREB3 CREB3 15647 -0.018 0.08 NO
75 PRKCB PRKCB PRKCB 15728 -0.019 0.077 NO
76 RAF1 RAF1 RAF1 16087 -0.024 0.063 NO
77 CREB3L4 CREB3L4 CREB3L4 16742 -0.036 0.036 NO
78 GNAQ GNAQ GNAQ 16993 -0.041 0.027 NO
79 KRAS KRAS KRAS 17433 -0.051 0.01 NO
80 PLCB3 PLCB3 PLCB3 17598 -0.055 0.0057 NO
81 CALM3 CALM3 CALM3 18462 -0.079 -0.028 NO
82 TCF7 TCF7 TCF7 18503 -0.08 -0.026 NO
83 EDN1 EDN1 EDN1 18662 -0.086 -0.029 NO
84 FZD4 FZD4 FZD4 18771 -0.09 -0.029 NO
85 ADCY4 ADCY4 ADCY4 19728 -0.13 -0.064 NO
86 MAPK3 MAPK3 MAPK3 19738 -0.13 -0.058 NO
87 WNT8B WNT8B WNT8B 19793 -0.13 -0.054 NO
88 TCF7L2 TCF7L2 TCF7L2 19868 -0.14 -0.05 NO
89 WNT1 WNT1 WNT1 19947 -0.14 -0.047 NO
90 PRKCA PRKCA PRKCA 20209 -0.16 -0.05 NO
91 PLCB4 PLCB4 PLCB4 20795 -0.2 -0.066 NO
92 EDNRB EDNRB EDNRB 21063 -0.23 -0.066 NO
93 ADCY6 ADCY6 ADCY6 21171 -0.24 -0.059 NO
94 FZD5 FZD5 FZD5 21962 -0.38 -0.074 NO
95 CREB3L1 CREB3L1 CREB3L1 21999 -0.39 -0.056 NO
96 PRKACG PRKACG PRKACG 22333 -0.52 -0.045 NO
97 PRKCG PRKCG PRKCG 22360 -0.53 -0.02 NO
98 CREB3L3 CREB3L3 CREB3L3 22706 -0.83 0.0063 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 MYOSIN PATHWAY.

Figure S30.  Get High-res Image For the top 5 core enriched genes in the pathway: BIOCARTA MYOSIN 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 RNA DEGRADATION

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 CALML3 CALML3 CALML3 145 0.64 0.046 YES
2 FBXO43 FBXO43 FBXO43 376 0.54 0.079 YES
3 CPEB1 CPEB1 CPEB1 424 0.52 0.12 YES
4 ADCY8 ADCY8 ADCY8 469 0.51 0.16 YES
5 CAMK2B CAMK2B CAMK2B 732 0.45 0.18 YES
6 ADCY2 ADCY2 ADCY2 1016 0.41 0.21 YES
7 CALML5 CALML5 CALML5 1188 0.38 0.23 YES
8 RPS6KA6 RPS6KA6 RPS6KA6 1741 0.32 0.23 YES
9 CAMK2A CAMK2A CAMK2A 1743 0.32 0.26 YES
10 MAPK12 MAPK12 MAPK12 2176 0.28 0.26 YES
11 IGF1R IGF1R IGF1R 2765 0.24 0.26 YES
12 IGF1 IGF1 IGF1 2973 0.23 0.26 YES
13 PGR PGR PGR 3239 0.22 0.27 YES
14 CALML6 CALML6 CALML6 3337 0.21 0.28 YES
15 AR AR AR 3711 0.19 0.28 YES
16 ADCY1 ADCY1 ADCY1 4170 0.17 0.28 YES
17 SMC1B SMC1B SMC1B 4239 0.17 0.29 YES
18 MAD2L2 MAD2L2 MAD2L2 4621 0.16 0.28 YES
19 ADCY5 ADCY5 ADCY5 4942 0.15 0.28 YES
20 CCNE2 CCNE2 CCNE2 4966 0.14 0.29 YES
21 PKMYT1 PKMYT1 PKMYT1 5030 0.14 0.3 YES
22 PTTG1 PTTG1 PTTG1 5149 0.14 0.31 YES
23 PRKX PRKX PRKX 5234 0.14 0.31 YES
24 ANAPC10 ANAPC10 ANAPC10 5924 0.12 0.29 YES
25 STAG3 STAG3 STAG3 6038 0.12 0.3 YES
26 PRKACB PRKACB PRKACB 6072 0.11 0.31 YES
27 FBXO5 FBXO5 FBXO5 6226 0.11 0.31 YES
28 CCNB1 CCNB1 CCNB1 6371 0.11 0.31 YES
29 CDK2 CDK2 CDK2 6465 0.1 0.32 YES
30 YWHAG YWHAG YWHAG 6505 0.1 0.32 YES
31 YWHAQ YWHAQ YWHAQ 6566 0.1 0.33 YES
32 ANAPC1 ANAPC1 ANAPC1 6748 0.1 0.33 YES
33 RBX1 RBX1 RBX1 6846 0.098 0.33 YES
34 MAD2L1 MAD2L1 MAD2L1 6847 0.098 0.34 YES
35 CDC20 CDC20 CDC20 6941 0.096 0.34 YES
36 SPDYA SPDYA SPDYA 7237 0.091 0.34 YES
37 CHP2 CHP2 CHP2 7376 0.089 0.34 YES
38 ANAPC7 ANAPC7 ANAPC7 7484 0.087 0.34 YES
39 CCNB2 CCNB2 CCNB2 7523 0.086 0.35 YES
40 CDK1 CDK1 CDK1 7605 0.085 0.35 YES
41 YWHAE YWHAE YWHAE 7781 0.082 0.35 YES
42 ADCY7 ADCY7 ADCY7 7810 0.082 0.35 YES
43 PPP1CB PPP1CB PPP1CB 7968 0.079 0.35 YES
44 CDC27 CDC27 CDC27 7973 0.079 0.36 YES
45 CUL1 CUL1 CUL1 8133 0.077 0.36 YES
46 CDC23 CDC23 CDC23 8160 0.076 0.36 YES
47 PRKACA PRKACA PRKACA 8366 0.073 0.36 NO
48 PPP2R5E PPP2R5E PPP2R5E 8889 0.066 0.34 NO
49 BUB1 BUB1 BUB1 9184 0.062 0.34 NO
50 SMC3 SMC3 SMC3 9704 0.056 0.32 NO
51 ITPR1 ITPR1 ITPR1 9725 0.055 0.32 NO
52 MAPK1 MAPK1 MAPK1 9913 0.053 0.32 NO
53 ANAPC4 ANAPC4 ANAPC4 9988 0.052 0.32 NO
54 CDC25C CDC25C CDC25C 10005 0.052 0.32 NO
55 PPP3CC PPP3CC PPP3CC 10058 0.051 0.32 NO
56 PPP3R1 PPP3R1 PPP3R1 10070 0.051 0.33 NO
57 ANAPC13 ANAPC13 ANAPC13 10085 0.051 0.33 NO
58 ADCY9 ADCY9 ADCY9 10176 0.05 0.33 NO
59 PPP3CB PPP3CB PPP3CB 10222 0.049 0.33 NO
60 PLK1 PLK1 PLK1 10228 0.049 0.34 NO
61 SKP1 SKP1 SKP1 10314 0.048 0.34 NO
62 PPP2R5C PPP2R5C PPP2R5C 10570 0.045 0.33 NO
63 YWHAH YWHAH YWHAH 10674 0.044 0.33 NO
64 ESPL1 ESPL1 ESPL1 11449 0.035 0.3 NO
65 ANAPC5 ANAPC5 ANAPC5 11455 0.035 0.3 NO
66 MAP2K1 MAP2K1 MAP2K1 11573 0.033 0.3 NO
67 YWHAZ YWHAZ YWHAZ 11670 0.032 0.3 NO
68 PPP3R2 PPP3R2 PPP3R2 12209 0.026 0.27 NO
69 ANAPC2 ANAPC2 ANAPC2 12304 0.025 0.27 NO
70 PPP2R5B PPP2R5B PPP2R5B 12359 0.024 0.27 NO
71 ANAPC11 ANAPC11 ANAPC11 12365 0.024 0.27 NO
72 SMC1A SMC1A SMC1A 12439 0.023 0.27 NO
73 PPP2R5D PPP2R5D PPP2R5D 12471 0.023 0.27 NO
74 PPP1CC PPP1CC PPP1CC 12476 0.023 0.27 NO
75 BTRC BTRC BTRC 13008 0.017 0.25 NO
76 PPP1CA PPP1CA PPP1CA 13093 0.016 0.25 NO
77 PPP3CA PPP3CA PPP3CA 13469 0.011 0.23 NO
78 CAMK2G CAMK2G CAMK2G 13717 0.0086 0.22 NO
79 CAMK2D CAMK2D CAMK2D 13897 0.0063 0.22 NO
80 CALM1 CALM1 CALM1 13930 0.0058 0.22 NO
81 PPP2CB PPP2CB PPP2CB 14098 0.0038 0.21 NO
82 FBXW11 FBXW11 FBXW11 14152 0.0033 0.21 NO
83 SGOL1 SGOL1 SGOL1 14574 -0.0021 0.19 NO
84 CALM2 CALM2 CALM2 14661 -0.0032 0.18 NO
85 AURKA AURKA AURKA 14834 -0.0056 0.18 NO
86 PPP2R1A PPP2R1A PPP2R1A 15096 -0.0092 0.17 NO
87 CDC16 CDC16 CDC16 15163 -0.01 0.16 NO
88 PLCZ1 PLCZ1 PLCZ1 15236 -0.011 0.16 NO
89 PPP2R5A PPP2R5A PPP2R5A 15773 -0.02 0.14 NO
90 CDC26 CDC26 CDC26 15886 -0.021 0.14 NO
91 YWHAB YWHAB YWHAB 15913 -0.021 0.14 NO
92 RPS6KA1 RPS6KA1 RPS6KA1 15937 -0.022 0.14 NO
93 SLK SLK SLK 16965 -0.041 0.097 NO
94 ITPR3 ITPR3 ITPR3 17243 -0.047 0.088 NO
95 REC8 REC8 REC8 17408 -0.05 0.085 NO
96 CCNE1 CCNE1 CCNE1 18220 -0.072 0.055 NO
97 CALM3 CALM3 CALM3 18462 -0.079 0.051 NO
98 PTTG2 PTTG2 PTTG2 18497 -0.08 0.056 NO
99 ITPR2 ITPR2 ITPR2 18500 -0.08 0.063 NO
100 RPS6KA2 RPS6KA2 RPS6KA2 18604 -0.084 0.065 NO
101 PPP2R1B PPP2R1B PPP2R1B 18796 -0.091 0.064 NO
102 RPS6KA3 RPS6KA3 RPS6KA3 18987 -0.099 0.064 NO
103 ADCY4 ADCY4 ADCY4 19728 -0.13 0.042 NO
104 MAPK3 MAPK3 MAPK3 19738 -0.13 0.052 NO
105 ADCY6 ADCY6 ADCY6 21171 -0.24 0.0086 NO
106 SPDYC SPDYC SPDYC 21490 -0.28 0.018 NO
107 PRKACG PRKACG PRKACG 22333 -0.52 0.023 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: KEGG RNA DEGRADATION.

Figure S32.  Get High-res Image For the top 5 core enriched genes in the pathway: KEGG RNA 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 CELL CYCLE

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 COL11A1 COL11A1 COL11A1 62 0.74 0.026 YES
2 COL4A6 COL4A6 COL4A6 90 0.69 0.051 YES
3 ITGA2B ITGA2B ITGA2B 396 0.53 0.058 YES
4 COL6A6 COL6A6 COL6A6 450 0.52 0.076 YES
5 TNC TNC TNC 541 0.49 0.09 YES
6 LAMA1 LAMA1 LAMA1 573 0.48 0.11 YES
7 SPP1 SPP1 SPP1 676 0.46 0.12 YES
8 COL2A1 COL2A1 COL2A1 772 0.45 0.13 YES
9 EGF EGF EGF 851 0.43 0.15 YES
10 THBS4 THBS4 THBS4 857 0.43 0.16 YES
11 MAPK10 MAPK10 MAPK10 1168 0.38 0.16 YES
12 PAK7 PAK7 PAK7 1181 0.38 0.18 YES
13 MYL7 MYL7 MYL7 1305 0.36 0.19 YES
14 RELN RELN RELN 1394 0.36 0.2 YES
15 ACTN2 ACTN2 ACTN2 1571 0.34 0.2 YES
16 ACTN3 ACTN3 ACTN3 1697 0.32 0.21 YES
17 CAV1 CAV1 CAV1 1786 0.32 0.22 YES
18 ITGA11 ITGA11 ITGA11 2001 0.3 0.22 YES
19 TNN TNN TNN 2071 0.29 0.23 YES
20 CAV2 CAV2 CAV2 2178 0.28 0.23 YES
21 FN1 FN1 FN1 2200 0.28 0.24 YES
22 EGFR EGFR EGFR 2227 0.28 0.25 YES
23 AKT3 AKT3 AKT3 2236 0.28 0.26 YES
24 VEGFC VEGFC VEGFC 2268 0.28 0.27 YES
25 PDGFC PDGFC PDGFC 2283 0.27 0.28 YES
26 MYLK MYLK MYLK 2290 0.27 0.29 YES
27 COL5A1 COL5A1 COL5A1 2403 0.26 0.3 YES
28 THBS2 THBS2 THBS2 2510 0.26 0.3 YES
29 VAV3 VAV3 VAV3 2531 0.26 0.31 YES
30 RAC3 RAC3 RAC3 2762 0.24 0.31 YES
31 IGF1R IGF1R IGF1R 2765 0.24 0.32 YES
32 COL5A3 COL5A3 COL5A3 2768 0.24 0.33 YES
33 COL6A2 COL6A2 COL6A2 2844 0.24 0.34 YES
34 COL1A1 COL1A1 COL1A1 2850 0.24 0.34 YES
35 COL1A2 COL1A2 COL1A2 2938 0.23 0.35 YES
36 IGF1 IGF1 IGF1 2973 0.23 0.36 YES
37 FLNA FLNA FLNA 2977 0.23 0.37 YES
38 COL6A1 COL6A1 COL6A1 3055 0.23 0.37 YES
39 COL3A1 COL3A1 COL3A1 3069 0.22 0.38 YES
40 PIK3CD PIK3CD PIK3CD 3268 0.21 0.38 YES
41 MYL9 MYL9 MYL9 3271 0.21 0.39 YES
42 COL5A2 COL5A2 COL5A2 3284 0.21 0.39 YES
43 FIGF FIGF FIGF 3313 0.21 0.4 YES
44 SHC4 SHC4 SHC4 3429 0.2 0.4 YES
45 IBSP IBSP IBSP 3686 0.19 0.4 YES
46 PGF PGF PGF 3701 0.19 0.41 YES
47 COL6A3 COL6A3 COL6A3 3928 0.18 0.4 YES
48 ITGA5 ITGA5 ITGA5 4277 0.17 0.4 YES
49 LAMC2 LAMC2 LAMC2 4441 0.16 0.39 YES
50 BCL2 BCL2 BCL2 4470 0.16 0.4 YES
51 COMP COMP COMP 4485 0.16 0.4 YES
52 THBS1 THBS1 THBS1 4546 0.16 0.41 YES
53 FLNC FLNC FLNC 4587 0.16 0.41 YES
54 PARVB PARVB PARVB 4617 0.16 0.42 YES
55 PAK6 PAK6 PAK6 4627 0.16 0.42 YES
56 PIK3CA PIK3CA PIK3CA 4650 0.16 0.43 YES
57 LAMB4 LAMB4 LAMB4 4751 0.15 0.43 YES
58 MYL10 MYL10 MYL10 5204 0.14 0.42 NO
59 ITGB8 ITGB8 ITGB8 5305 0.13 0.42 NO
60 VEGFB VEGFB VEGFB 5478 0.13 0.41 NO
61 ACTN1 ACTN1 ACTN1 5480 0.13 0.42 NO
62 ITGAV ITGAV ITGAV 5879 0.12 0.4 NO
63 CRKL CRKL CRKL 5909 0.12 0.41 NO
64 CCND1 CCND1 CCND1 6048 0.12 0.41 NO
65 LAMA2 LAMA2 LAMA2 6105 0.11 0.41 NO
66 LAMB3 LAMB3 LAMB3 6119 0.11 0.41 NO
67 PDGFRB PDGFRB PDGFRB 6266 0.11 0.41 NO
68 PAK2 PAK2 PAK2 6514 0.1 0.4 NO
69 THBS3 THBS3 THBS3 6633 0.1 0.4 NO
70 ITGA4 ITGA4 ITGA4 6945 0.096 0.39 NO
71 ITGA6 ITGA6 ITGA6 6968 0.096 0.39 NO
72 PPP1R12A PPP1R12A PPP1R12A 7011 0.095 0.4 NO
73 LAMC1 LAMC1 LAMC1 7059 0.094 0.4 NO
74 SHC3 SHC3 SHC3 7079 0.094 0.4 NO
75 LAMA5 LAMA5 LAMA5 7235 0.091 0.4 NO
76 MYLK3 MYLK3 MYLK3 7352 0.089 0.4 NO
77 ITGB6 ITGB6 ITGB6 7391 0.088 0.4 NO
78 COL4A2 COL4A2 COL4A2 7502 0.087 0.4 NO
79 ITGB5 ITGB5 ITGB5 7576 0.086 0.4 NO
80 SHC1 SHC1 SHC1 7756 0.082 0.39 NO
81 ITGA2 ITGA2 ITGA2 7766 0.082 0.39 NO
82 GSK3B GSK3B GSK3B 7774 0.082 0.4 NO
83 RAPGEF1 RAPGEF1 RAPGEF1 7920 0.08 0.39 NO
84 PPP1CB PPP1CB PPP1CB 7968 0.079 0.39 NO
85 JUN JUN JUN 8055 0.078 0.39 NO
86 COL11A2 COL11A2 COL11A2 8088 0.077 0.4 NO
87 PARVA PARVA PARVA 8159 0.076 0.4 NO
88 LAMA3 LAMA3 LAMA3 8239 0.075 0.39 NO
89 RAC2 RAC2 RAC2 8355 0.073 0.39 NO
90 LAMB1 LAMB1 LAMB1 8600 0.07 0.38 NO
91 LAMA4 LAMA4 LAMA4 8633 0.069 0.38 NO
92 BRAF BRAF BRAF 8799 0.067 0.38 NO
93 ITGA9 ITGA9 ITGA9 8813 0.067 0.38 NO
94 ITGB4 ITGB4 ITGB4 8828 0.066 0.38 NO
95 BAD BAD BAD 9013 0.064 0.38 NO
96 PTK2 PTK2 PTK2 9078 0.063 0.38 NO
97 VCL VCL VCL 9299 0.06 0.37 NO
98 ZYX ZYX ZYX 9567 0.057 0.36 NO
99 PIK3R2 PIK3R2 PIK3R2 9675 0.056 0.36 NO
100 PARVG PARVG PARVG 9714 0.056 0.36 NO
101 PIP5K1C PIP5K1C PIP5K1C 9762 0.055 0.36 NO
102 MAPK1 MAPK1 MAPK1 9913 0.053 0.35 NO
103 PIK3R1 PIK3R1 PIK3R1 9986 0.052 0.35 NO
104 COL4A1 COL4A1 COL4A1 10380 0.047 0.34 NO
105 ITGB1 ITGB1 ITGB1 10591 0.045 0.33 NO
106 SOS2 SOS2 SOS2 10698 0.044 0.33 NO
107 ITGA3 ITGA3 ITGA3 10715 0.043 0.33 NO
108 TLN1 TLN1 TLN1 10841 0.042 0.32 NO
109 AKT2 AKT2 AKT2 10883 0.042 0.32 NO
110 AKT1 AKT1 AKT1 11073 0.04 0.32 NO
111 PDGFB PDGFB PDGFB 11077 0.04 0.32 NO
112 CRK CRK CRK 11144 0.039 0.32 NO
113 SOS1 SOS1 SOS1 11312 0.037 0.31 NO
114 DOCK1 DOCK1 DOCK1 11465 0.035 0.31 NO
115 MAP2K1 MAP2K1 MAP2K1 11573 0.033 0.3 NO
116 BIRC2 BIRC2 BIRC2 11630 0.033 0.3 NO
117 RAP1B RAP1B RAP1B 11775 0.031 0.3 NO
118 ROCK1 ROCK1 ROCK1 11940 0.029 0.29 NO
119 PTEN PTEN PTEN 11941 0.029 0.29 NO
120 PDGFA PDGFA PDGFA 11963 0.029 0.29 NO
121 ILK ILK ILK 12191 0.026 0.28 NO
122 PPP1CC PPP1CC PPP1CC 12476 0.023 0.27 NO
123 VAV2 VAV2 VAV2 12819 0.019 0.26 NO
124 PXN PXN PXN 12830 0.019 0.26 NO
125 ACTB ACTB ACTB 12925 0.018 0.25 NO
126 LAMB2 LAMB2 LAMB2 12980 0.017 0.25 NO
127 RAP1A RAP1A RAP1A 13042 0.016 0.25 NO
128 PPP1CA PPP1CA PPP1CA 13093 0.016 0.25 NO
129 MYLK2 MYLK2 MYLK2 13130 0.015 0.25 NO
130 ELK1 ELK1 ELK1 13207 0.014 0.24 NO
131 ITGA1 ITGA1 ITGA1 13315 0.013 0.24 NO
132 CDC42 CDC42 CDC42 13322 0.013 0.24 NO
133 VAV1 VAV1 VAV1 13574 0.01 0.23 NO
134 MYL12A MYL12A MYL12A 13837 0.0071 0.22 NO
135 PIK3R5 PIK3R5 PIK3R5 13870 0.0067 0.22 NO
136 SHC2 SHC2 SHC2 14196 0.0026 0.2 NO
137 ACTG1 ACTG1 ACTG1 14279 0.0015 0.2 NO
138 MYL12B MYL12B MYL12B 14327 0.00082 0.2 NO
139 ITGB3 ITGB3 ITGB3 14455 -0.0006 0.19 NO
140 MAPK9 MAPK9 MAPK9 14469 -0.00082 0.19 NO
141 GRB2 GRB2 GRB2 14676 -0.0035 0.18 NO
142 ARHGAP5 ARHGAP5 ARHGAP5 14693 -0.0037 0.18 NO
143 PAK1 PAK1 PAK1 14849 -0.0059 0.17 NO
144 FYN FYN FYN 14958 -0.0072 0.17 NO
145 CAPN2 CAPN2 CAPN2 15211 -0.011 0.16 NO
146 PDGFRA PDGFRA PDGFRA 15215 -0.011 0.16 NO
147 RASGRF1 RASGRF1 RASGRF1 15374 -0.013 0.15 NO
148 PIK3CB PIK3CB PIK3CB 15400 -0.014 0.15 NO
149 PAK3 PAK3 PAK3 15555 -0.016 0.15 NO
150 PAK4 PAK4 PAK4 15579 -0.016 0.15 NO
151 MET MET MET 15584 -0.017 0.15 NO
152 CTNNB1 CTNNB1 CTNNB1 15609 -0.017 0.15 NO
153 RAC1 RAC1 RAC1 15641 -0.018 0.14 NO
154 FLT4 FLT4 FLT4 15727 -0.019 0.14 NO
155 PRKCB PRKCB PRKCB 15728 -0.019 0.14 NO
156 XIAP XIAP XIAP 15758 -0.019 0.14 NO
157 RAF1 RAF1 RAF1 16087 -0.024 0.13 NO
158 ITGB7 ITGB7 ITGB7 16105 -0.025 0.13 NO
159 MYLPF MYLPF MYLPF 16108 -0.025 0.13 NO
160 PDPK1 PDPK1 PDPK1 16156 -0.026 0.13 NO
161 MAPK8 MAPK8 MAPK8 16187 -0.026 0.13 NO
162 MYL5 MYL5 MYL5 16424 -0.03 0.12 NO
163 MYL2 MYL2 MYL2 16463 -0.031 0.12 NO
164 DIAPH1 DIAPH1 DIAPH1 16703 -0.035 0.11 NO
165 LAMC3 LAMC3 LAMC3 16752 -0.036 0.11 NO
166 ACTN4 ACTN4 ACTN4 16760 -0.036 0.11 NO
167 PIK3R3 PIK3R3 PIK3R3 17278 -0.048 0.089 NO
168 RHOA RHOA RHOA 17320 -0.048 0.089 NO
169 ROCK2 ROCK2 ROCK2 17327 -0.049 0.091 NO
170 FLNB FLNB FLNB 17400 -0.05 0.089 NO
171 BCAR1 BCAR1 BCAR1 17405 -0.05 0.091 NO
172 CAV3 CAV3 CAV3 17545 -0.054 0.087 NO
173 CCND3 CCND3 CCND3 17586 -0.055 0.087 NO
174 ITGA7 ITGA7 ITGA7 17913 -0.063 0.076 NO
175 TNR TNR TNR 18240 -0.073 0.064 NO
176 FLT1 FLT1 FLT1 18544 -0.082 0.054 NO
177 ITGA10 ITGA10 ITGA10 18676 -0.087 0.051 NO
178 SRC SRC SRC 18753 -0.09 0.051 NO
179 CCND2 CCND2 CCND2 18846 -0.093 0.051 NO
180 VEGFA VEGFA VEGFA 18915 -0.096 0.052 NO
181 TNXB TNXB TNXB 18978 -0.098 0.052 NO
182 VASP VASP VASP 19105 -0.1 0.051 NO
183 COL4A4 COL4A4 COL4A4 19248 -0.11 0.049 NO
184 KDR KDR KDR 19406 -0.12 0.046 NO
185 VWF VWF VWF 19583 -0.12 0.043 NO
186 TLN2 TLN2 TLN2 19721 -0.13 0.042 NO
187 MAPK3 MAPK3 MAPK3 19738 -0.13 0.046 NO
188 HGF HGF HGF 19754 -0.13 0.051 NO
189 PIK3CG PIK3CG PIK3CG 19851 -0.14 0.052 NO
190 PRKCA PRKCA PRKCA 20209 -0.16 0.042 NO
191 ITGA8 ITGA8 ITGA8 20248 -0.16 0.047 NO
192 PDGFD PDGFD PDGFD 20335 -0.17 0.049 NO
193 CHAD CHAD CHAD 20537 -0.18 0.047 NO
194 ERBB2 ERBB2 ERBB2 21099 -0.23 0.032 NO
195 BIRC3 BIRC3 BIRC3 21592 -0.3 0.022 NO
196 VTN VTN VTN 21825 -0.35 0.025 NO
197 PRKCG PRKCG PRKCG 22360 -0.53 0.022 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: KEGG CELL CYCLE.

Figure S34.  Get High-res Image For the top 5 core enriched genes in the pathway: KEGG CELL CYCLE, 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 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 WNT3A WNT3A WNT3A 7 0.9 0.04 YES
2 SFRP2 SFRP2 SFRP2 157 0.63 0.062 YES
3 WNT9A WNT9A WNT9A 213 0.6 0.086 YES
4 WNT7A WNT7A WNT7A 289 0.56 0.11 YES
5 FZD9 FZD9 FZD9 296 0.56 0.13 YES
6 FZD10 FZD10 FZD10 349 0.54 0.16 YES
7 VANGL2 VANGL2 VANGL2 485 0.5 0.17 YES
8 WNT7B WNT7B WNT7B 498 0.5 0.19 YES
9 PRICKLE1 PRICKLE1 PRICKLE1 618 0.47 0.21 YES
10 WNT10B WNT10B WNT10B 626 0.47 0.23 YES
11 WNT6 WNT6 WNT6 723 0.45 0.25 YES
12 CAMK2B CAMK2B CAMK2B 732 0.45 0.27 YES
13 SFRP4 SFRP4 SFRP4 1059 0.4 0.27 YES
14 MAPK10 MAPK10 MAPK10 1168 0.38 0.28 YES
15 SFRP1 SFRP1 SFRP1 1214 0.38 0.3 YES
16 TCF7L1 TCF7L1 TCF7L1 1274 0.37 0.31 YES
17 WNT2B WNT2B WNT2B 1430 0.35 0.32 YES
18 CAMK2A CAMK2A CAMK2A 1743 0.32 0.32 YES
19 WNT10A WNT10A WNT10A 1916 0.3 0.33 YES
20 FZD7 FZD7 FZD7 2024 0.3 0.34 YES
21 FZD6 FZD6 FZD6 2038 0.3 0.35 YES
22 WNT2 WNT2 WNT2 2116 0.29 0.36 YES
23 WNT3 WNT3 WNT3 2185 0.28 0.37 YES
24 NKD2 NKD2 NKD2 2202 0.28 0.38 YES
25 FZD1 FZD1 FZD1 2649 0.25 0.37 YES
26 RAC3 RAC3 RAC3 2762 0.24 0.38 YES
27 FZD2 FZD2 FZD2 3153 0.22 0.37 YES
28 LEF1 LEF1 LEF1 3492 0.2 0.36 YES
29 DVL2 DVL2 DVL2 3580 0.2 0.37 YES
30 TBL1Y TBL1Y TBL1Y 3856 0.19 0.36 YES
31 WNT5B WNT5B WNT5B 3955 0.18 0.37 YES
32 WNT5A WNT5A WNT5A 4096 0.18 0.37 YES
33 NKD1 NKD1 NKD1 4124 0.18 0.38 YES
34 DKK2 DKK2 DKK2 4149 0.17 0.38 YES
35 CSNK1A1L CSNK1A1L CSNK1A1L 4210 0.17 0.39 YES
36 DKK1 DKK1 DKK1 4435 0.16 0.38 YES
37 NFATC1 NFATC1 NFATC1 4630 0.16 0.38 YES
38 PRICKLE2 PRICKLE2 PRICKLE2 4633 0.16 0.39 YES
39 WNT4 WNT4 WNT4 4890 0.15 0.39 YES
40 DVL3 DVL3 DVL3 5016 0.14 0.39 YES
41 DAAM2 DAAM2 DAAM2 5190 0.14 0.38 YES
42 PRKX PRKX PRKX 5234 0.14 0.39 YES
43 FZD8 FZD8 FZD8 5468 0.13 0.38 YES
44 NFATC4 NFATC4 NFATC4 5539 0.13 0.39 YES
45 APC2 APC2 APC2 5870 0.12 0.38 YES
46 SIAH1 SIAH1 SIAH1 5936 0.12 0.38 YES
47 WIF1 WIF1 WIF1 6023 0.12 0.38 YES
48 WNT16 WNT16 WNT16 6044 0.12 0.39 YES
49 CCND1 CCND1 CCND1 6048 0.12 0.39 YES
50 PRKACB PRKACB PRKACB 6072 0.11 0.4 YES
51 CTNNBIP1 CTNNBIP1 CTNNBIP1 6217 0.11 0.39 YES
52 SENP2 SENP2 SENP2 6327 0.11 0.39 YES
53 CSNK2A2 CSNK2A2 CSNK2A2 6595 0.1 0.39 YES
54 TBL1XR1 TBL1XR1 TBL1XR1 6604 0.1 0.39 YES
55 SMAD2 SMAD2 SMAD2 6645 0.1 0.39 YES
56 TBL1X TBL1X TBL1X 6650 0.1 0.4 YES
57 TP53 TP53 TP53 6654 0.1 0.4 YES
58 PORCN PORCN PORCN 6717 0.1 0.4 YES
59 RBX1 RBX1 RBX1 6846 0.098 0.4 NO
60 CHP2 CHP2 CHP2 7376 0.089 0.38 NO
61 RUVBL1 RUVBL1 RUVBL1 7429 0.088 0.39 NO
62 SMAD4 SMAD4 SMAD4 7758 0.082 0.38 NO
63 GSK3B GSK3B GSK3B 7774 0.082 0.38 NO
64 VANGL1 VANGL1 VANGL1 7971 0.079 0.37 NO
65 MYC MYC MYC 8027 0.078 0.37 NO
66 JUN JUN JUN 8055 0.078 0.38 NO
67 CUL1 CUL1 CUL1 8133 0.077 0.38 NO
68 CSNK1A1 CSNK1A1 CSNK1A1 8252 0.075 0.37 NO
69 NFATC3 NFATC3 NFATC3 8328 0.074 0.37 NO
70 RAC2 RAC2 RAC2 8355 0.073 0.38 NO
71 PRKACA PRKACA PRKACA 8366 0.073 0.38 NO
72 CSNK1E CSNK1E CSNK1E 8566 0.07 0.37 NO
73 FOSL1 FOSL1 FOSL1 8680 0.068 0.37 NO
74 DAAM1 DAAM1 DAAM1 8826 0.066 0.37 NO
75 PPP2R5E PPP2R5E PPP2R5E 8889 0.066 0.37 NO
76 SMAD3 SMAD3 SMAD3 9093 0.063 0.36 NO
77 CHD8 CHD8 CHD8 9636 0.056 0.34 NO
78 CACYBP CACYBP CACYBP 9711 0.056 0.34 NO
79 CREBBP CREBBP CREBBP 9959 0.052 0.33 NO
80 PPP3CC PPP3CC PPP3CC 10058 0.051 0.33 NO
81 PPP3R1 PPP3R1 PPP3R1 10070 0.051 0.33 NO
82 PPP3CB PPP3CB PPP3CB 10222 0.049 0.33 NO
83 SKP1 SKP1 SKP1 10314 0.048 0.32 NO
84 PPP2R5C PPP2R5C PPP2R5C 10570 0.045 0.32 NO
85 NFAT5 NFAT5 NFAT5 10794 0.042 0.31 NO
86 FZD3 FZD3 FZD3 10803 0.042 0.31 NO
87 MAP3K7 MAP3K7 MAP3K7 11053 0.04 0.3 NO
88 AXIN1 AXIN1 AXIN1 11300 0.037 0.29 NO
89 WNT11 WNT11 WNT11 11762 0.031 0.27 NO
90 EP300 EP300 EP300 11787 0.031 0.27 NO
91 ROCK1 ROCK1 ROCK1 11940 0.029 0.27 NO
92 PPP3R2 PPP3R2 PPP3R2 12209 0.026 0.26 NO
93 PPP2R5D PPP2R5D PPP2R5D 12471 0.023 0.25 NO
94 CSNK2A1 CSNK2A1 CSNK2A1 12610 0.021 0.24 NO
95 WNT9B WNT9B WNT9B 12808 0.019 0.23 NO
96 BTRC BTRC BTRC 13008 0.017 0.22 NO
97 APC APC APC 13182 0.015 0.22 NO
98 PPARD PPARD PPARD 13198 0.014 0.22 NO
99 SFRP5 SFRP5 SFRP5 13218 0.014 0.22 NO
100 PPP3CA PPP3CA PPP3CA 13469 0.011 0.21 NO
101 CAMK2G CAMK2G CAMK2G 13717 0.0086 0.2 NO
102 CAMK2D CAMK2D CAMK2D 13897 0.0063 0.19 NO
103 PLCB1 PLCB1 PLCB1 14091 0.0039 0.18 NO
104 PPP2CB PPP2CB PPP2CB 14098 0.0038 0.18 NO
105 FBXW11 FBXW11 FBXW11 14152 0.0033 0.18 NO
106 CSNK2B CSNK2B CSNK2B 14222 0.0022 0.18 NO
107 CTBP1 CTBP1 CTBP1 14396 0.000031 0.17 NO
108 PLCB2 PLCB2 PLCB2 14435 -0.00043 0.17 NO
109 MAPK9 MAPK9 MAPK9 14469 -0.00082 0.16 NO
110 DVL1 DVL1 DVL1 14489 -0.0012 0.16 NO
111 PPP2R1A PPP2R1A PPP2R1A 15096 -0.0092 0.14 NO
112 CTNNB1 CTNNB1 CTNNB1 15609 -0.017 0.12 NO
113 RAC1 RAC1 RAC1 15641 -0.018 0.12 NO
114 PRKCB PRKCB PRKCB 15728 -0.019 0.11 NO
115 PPP2R5A PPP2R5A PPP2R5A 15773 -0.02 0.11 NO
116 LRP6 LRP6 LRP6 16122 -0.025 0.097 NO
117 MAPK8 MAPK8 MAPK8 16187 -0.026 0.096 NO
118 PSEN1 PSEN1 PSEN1 16764 -0.036 0.072 NO
119 CXXC4 CXXC4 CXXC4 17112 -0.044 0.059 NO
120 RHOA RHOA RHOA 17320 -0.048 0.052 NO
121 ROCK2 ROCK2 ROCK2 17327 -0.049 0.054 NO
122 CCND3 CCND3 CCND3 17586 -0.055 0.045 NO
123 PLCB3 PLCB3 PLCB3 17598 -0.055 0.047 NO
124 LRP5 LRP5 LRP5 17703 -0.057 0.045 NO
125 NLK NLK NLK 17826 -0.06 0.042 NO
126 TCF7 TCF7 TCF7 18503 -0.08 0.016 NO
127 SOX17 SOX17 SOX17 18649 -0.086 0.013 NO
128 FZD4 FZD4 FZD4 18771 -0.09 0.012 NO
129 CTBP2 CTBP2 CTBP2 18782 -0.091 0.016 NO
130 PPP2R1B PPP2R1B PPP2R1B 18796 -0.091 0.019 NO
131 CCND2 CCND2 CCND2 18846 -0.093 0.021 NO
132 FRAT2 FRAT2 FRAT2 18907 -0.096 0.023 NO
133 MMP7 MMP7 MMP7 19115 -0.1 0.018 NO
134 FRAT1 FRAT1 FRAT1 19382 -0.11 0.012 NO
135 CER1 CER1 CER1 19707 -0.13 0.003 NO
136 WNT8B WNT8B WNT8B 19793 -0.13 0.0052 NO
137 TCF7L2 TCF7L2 TCF7L2 19868 -0.14 0.0081 NO
138 WNT1 WNT1 WNT1 19947 -0.14 0.011 NO
139 PRKCA PRKCA PRKCA 20209 -0.16 0.0066 NO
140 PLCB4 PLCB4 PLCB4 20795 -0.2 -0.01 NO
141 AXIN2 AXIN2 AXIN2 20883 -0.21 -0.0045 NO
142 DKK4 DKK4 DKK4 21319 -0.26 -0.012 NO
143 NFATC2 NFATC2 NFATC2 21793 -0.34 -0.018 NO
144 FZD5 FZD5 FZD5 21962 -0.38 -0.0079 NO
145 PRKACG PRKACG PRKACG 22333 -0.52 -0.0011 NO
146 PRKCG PRKCG PRKCG 22360 -0.53 0.022 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: KEGG OOCYTE MEIOSIS.

Figure S36.  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 P53 SIGNALING 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 GLI3 GLI3 GLI3 205 0.6 0.039 YES
2 WNT9A WNT9A WNT9A 213 0.6 0.087 YES
3 WNT7A WNT7A WNT7A 289 0.56 0.13 YES
4 FZD9 FZD9 FZD9 296 0.56 0.17 YES
5 SMO SMO SMO 345 0.55 0.22 YES
6 FZD10 FZD10 FZD10 349 0.54 0.26 YES
7 WNT7B WNT7B WNT7B 498 0.5 0.29 YES
8 WNT10B WNT10B WNT10B 626 0.47 0.32 YES
9 WNT6 WNT6 WNT6 723 0.45 0.36 YES
10 GLI2 GLI2 GLI2 922 0.42 0.38 YES
11 TCF7L1 TCF7L1 TCF7L1 1274 0.37 0.4 YES
12 WNT2B WNT2B WNT2B 1430 0.35 0.42 YES
13 WNT10A WNT10A WNT10A 1916 0.3 0.42 YES
14 FZD7 FZD7 FZD7 2024 0.3 0.44 YES
15 FZD6 FZD6 FZD6 2038 0.3 0.46 YES
16 WNT2 WNT2 WNT2 2116 0.29 0.48 YES
17 WNT3 WNT3 WNT3 2185 0.28 0.5 YES
18 GLI1 GLI1 GLI1 2407 0.26 0.51 YES
19 FZD1 FZD1 FZD1 2649 0.25 0.52 YES
20 FZD2 FZD2 FZD2 3153 0.22 0.52 YES
21 LEF1 LEF1 LEF1 3492 0.2 0.52 YES
22 DVL2 DVL2 DVL2 3580 0.2 0.53 YES
23 WNT5B WNT5B WNT5B 3955 0.18 0.53 YES
24 WNT5A WNT5A WNT5A 4096 0.18 0.54 YES
25 WNT4 WNT4 WNT4 4890 0.15 0.51 NO
26 DVL3 DVL3 DVL3 5016 0.14 0.52 NO
27 FZD8 FZD8 FZD8 5468 0.13 0.51 NO
28 APC2 APC2 APC2 5870 0.12 0.5 NO
29 WNT16 WNT16 WNT16 6044 0.12 0.5 NO
30 TP53 TP53 TP53 6654 0.1 0.48 NO
31 PTCH2 PTCH2 PTCH2 7223 0.091 0.47 NO
32 GSK3B GSK3B GSK3B 7774 0.082 0.45 NO
33 SUFU SUFU SUFU 9721 0.055 0.37 NO
34 FZD3 FZD3 FZD3 10803 0.042 0.32 NO
35 PTCH1 PTCH1 PTCH1 11024 0.04 0.32 NO
36 AXIN1 AXIN1 AXIN1 11300 0.037 0.31 NO
37 WNT11 WNT11 WNT11 11762 0.031 0.29 NO
38 HHIP HHIP HHIP 11849 0.03 0.29 NO
39 WNT9B WNT9B WNT9B 12808 0.019 0.25 NO
40 APC APC APC 13182 0.015 0.24 NO
41 DVL1 DVL1 DVL1 14489 -0.0012 0.18 NO
42 CTNNB1 CTNNB1 CTNNB1 15609 -0.017 0.13 NO
43 STK36 STK36 STK36 17347 -0.049 0.057 NO
44 TCF7 TCF7 TCF7 18503 -0.08 0.013 NO
45 FZD4 FZD4 FZD4 18771 -0.09 0.0086 NO
46 WNT8B WNT8B WNT8B 19793 -0.13 -0.026 NO
47 BMP2 BMP2 BMP2 19842 -0.14 -0.017 NO
48 TCF7L2 TCF7L2 TCF7L2 19868 -0.14 -0.0068 NO
49 WNT1 WNT1 WNT1 19947 -0.14 0.0011 NO
50 AXIN2 AXIN2 AXIN2 20883 -0.21 -0.023 NO
51 BMP4 BMP4 BMP4 21608 -0.3 -0.03 NO
52 FZD5 FZD5 FZD5 21962 -0.38 -0.015 NO
53 SHH SHH SHH 22562 -0.68 0.013 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: KEGG P53 SIGNALING PATHWAY.

Figure S38.  Get High-res Image For the top 5 core enriched genes in the pathway: KEGG P53 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 MTOR SIGNALING 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 COL11A1 COL11A1 COL11A1 62 0.74 0.046 YES
2 COL4A6 COL4A6 COL4A6 90 0.69 0.09 YES
3 ITGA2B ITGA2B ITGA2B 396 0.53 0.11 YES
4 COL6A6 COL6A6 COL6A6 450 0.52 0.14 YES
5 TNC TNC TNC 541 0.49 0.17 YES
6 LAMA1 LAMA1 LAMA1 573 0.48 0.2 YES
7 SPP1 SPP1 SPP1 676 0.46 0.23 YES
8 COL2A1 COL2A1 COL2A1 772 0.45 0.25 YES
9 SV2A SV2A SV2A 844 0.43 0.28 YES
10 THBS4 THBS4 THBS4 857 0.43 0.31 YES
11 RELN RELN RELN 1394 0.36 0.3 YES
12 GP1BB GP1BB GP1BB 1450 0.35 0.33 YES
13 ITGA11 ITGA11 ITGA11 2001 0.3 0.32 YES
14 TNN TNN TNN 2071 0.29 0.34 YES
15 FN1 FN1 FN1 2200 0.28 0.35 YES
16 SV2B SV2B SV2B 2261 0.28 0.37 YES
17 COL5A1 COL5A1 COL5A1 2403 0.26 0.38 YES
18 THBS2 THBS2 THBS2 2510 0.26 0.39 YES
19 COL5A3 COL5A3 COL5A3 2768 0.24 0.39 YES
20 COL6A2 COL6A2 COL6A2 2844 0.24 0.41 YES
21 COL1A1 COL1A1 COL1A1 2850 0.24 0.42 YES
22 COL1A2 COL1A2 COL1A2 2938 0.23 0.43 YES
23 COL6A1 COL6A1 COL6A1 3055 0.23 0.44 YES
24 COL3A1 COL3A1 COL3A1 3069 0.22 0.46 YES
25 COL5A2 COL5A2 COL5A2 3284 0.21 0.46 YES
26 IBSP IBSP IBSP 3686 0.19 0.46 YES
27 COL6A3 COL6A3 COL6A3 3928 0.18 0.46 YES
28 GP1BA GP1BA GP1BA 4136 0.18 0.46 YES
29 ITGA5 ITGA5 ITGA5 4277 0.17 0.46 YES
30 CD44 CD44 CD44 4283 0.17 0.48 YES
31 SDC2 SDC2 SDC2 4368 0.16 0.48 YES
32 LAMC2 LAMC2 LAMC2 4441 0.16 0.49 YES
33 COMP COMP COMP 4485 0.16 0.5 YES
34 THBS1 THBS1 THBS1 4546 0.16 0.51 YES
35 LAMB4 LAMB4 LAMB4 4751 0.15 0.51 YES
36 CD36 CD36 CD36 4936 0.15 0.51 YES
37 SDC1 SDC1 SDC1 5213 0.14 0.51 YES
38 ITGB8 ITGB8 ITGB8 5305 0.13 0.51 YES
39 SV2C SV2C SV2C 5316 0.13 0.52 YES
40 ITGAV ITGAV ITGAV 5879 0.12 0.5 NO
41 LAMA2 LAMA2 LAMA2 6105 0.11 0.5 NO
42 LAMB3 LAMB3 LAMB3 6119 0.11 0.51 NO
43 THBS3 THBS3 THBS3 6633 0.1 0.49 NO
44 HMMR HMMR HMMR 6714 0.1 0.49 NO
45 ITGA4 ITGA4 ITGA4 6945 0.096 0.49 NO
46 ITGA6 ITGA6 ITGA6 6968 0.096 0.5 NO
47 LAMC1 LAMC1 LAMC1 7059 0.094 0.5 NO
48 LAMA5 LAMA5 LAMA5 7235 0.091 0.5 NO
49 AGRN AGRN AGRN 7285 0.09 0.5 NO
50 ITGB6 ITGB6 ITGB6 7391 0.088 0.5 NO
51 COL4A2 COL4A2 COL4A2 7502 0.087 0.5 NO
52 ITGB5 ITGB5 ITGB5 7576 0.086 0.5 NO
53 ITGA2 ITGA2 ITGA2 7766 0.082 0.5 NO
54 COL11A2 COL11A2 COL11A2 8088 0.077 0.49 NO
55 LAMA3 LAMA3 LAMA3 8239 0.075 0.49 NO
56 LAMB1 LAMB1 LAMB1 8600 0.07 0.48 NO
57 LAMA4 LAMA4 LAMA4 8633 0.069 0.48 NO
58 ITGA9 ITGA9 ITGA9 8813 0.067 0.48 NO
59 ITGB4 ITGB4 ITGB4 8828 0.066 0.48 NO
60 SDC3 SDC3 SDC3 9175 0.062 0.47 NO
61 COL4A1 COL4A1 COL4A1 10380 0.047 0.42 NO
62 ITGB1 ITGB1 ITGB1 10591 0.045 0.42 NO
63 ITGA3 ITGA3 ITGA3 10715 0.043 0.41 NO
64 LAMB2 LAMB2 LAMB2 12980 0.017 0.31 NO
65 CD47 CD47 CD47 13090 0.016 0.31 NO
66 ITGA1 ITGA1 ITGA1 13315 0.013 0.3 NO
67 ITGB3 ITGB3 ITGB3 14455 -0.0006 0.25 NO
68 HSPG2 HSPG2 HSPG2 14485 -0.0011 0.25 NO
69 ITGB7 ITGB7 ITGB7 16105 -0.025 0.18 NO
70 LAMC3 LAMC3 LAMC3 16752 -0.036 0.16 NO
71 GP5 GP5 GP5 16961 -0.041 0.15 NO
72 ITGA7 ITGA7 ITGA7 17913 -0.063 0.11 NO
73 TNR TNR TNR 18240 -0.073 0.1 NO
74 SDC4 SDC4 SDC4 18273 -0.074 0.1 NO
75 ITGA10 ITGA10 ITGA10 18676 -0.087 0.093 NO
76 TNXB TNXB TNXB 18978 -0.098 0.086 NO
77 DAG1 DAG1 DAG1 18996 -0.099 0.092 NO
78 COL4A4 COL4A4 COL4A4 19248 -0.11 0.088 NO
79 VWF VWF VWF 19583 -0.12 0.081 NO
80 ITGA8 ITGA8 ITGA8 20248 -0.16 0.063 NO
81 CHAD CHAD CHAD 20537 -0.18 0.062 NO
82 GP6 GP6 GP6 21320 -0.26 0.044 NO
83 GP9 GP9 GP9 21802 -0.34 0.046 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: KEGG MTOR SIGNALING PATHWAY.

Figure S40.  Get High-res Image For the top 5 core enriched genes in the pathway: KEGG MTOR 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 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 G1 PATHWAY 27 genes.ES.table 0.29 0.9 0.58 1 1 0.15 0.085 0.14 1 0.75
BIOCARTA RACCYCD PATHWAY 25 genes.ES.table 0.34 1.2 0.25 1 0.97 1 0.66 0.34 1 0.67
BIOCARTA MAPK PATHWAY 85 genes.ES.table 0.24 1.1 0.42 1 0.99 0.4 0.23 0.31 1 0.71
BIOCARTA IL1R PATHWAY 32 genes.ES.table 0.42 1.3 0.2 1 0.95 0.19 0.084 0.17 1 0.82
KEGG OXIDATIVE PHOSPHORYLATION 112 genes.ES.table 0.24 1.1 0.37 1 0.99 0.027 0.023 0.026 1 0.68
KEGG ETHER LIPID METABOLISM 30 genes.ES.table 0.3 0.93 0.56 1 1 0.17 0.057 0.16 1 0.72
KEGG ARACHIDONIC ACID METABOLISM 52 genes.ES.table 0.44 1.2 0.23 1 0.97 0.33 0.098 0.3 1 0.62
KEGG RETINOL METABOLISM 52 genes.ES.table 0.36 0.87 0.62 1 1 0.23 0.088 0.21 1 0.72
KEGG RIBOSOME 81 genes.ES.table 0.44 1.2 0.3 1 0.96 0.56 0.26 0.41 1 0.76
KEGG RNA POLYMERASE 28 genes.ES.table 0.34 1.1 0.3 1 0.97 0.96 0.57 0.42 1 0.62
genes ES table in pathway: BIOCARTA G1 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 ATP6V0A4 ATP6V0A4 ATP6V0A4 248 0.6 0.078 YES
2 CXCR2 CXCR2 CXCR2 275 0.58 0.16 YES
3 PTPRZ1 PTPRZ1 PTPRZ1 344 0.53 0.24 YES
4 MAPK10 MAPK10 MAPK10 1141 0.25 0.24 YES
5 HBEGF HBEGF HBEGF 1202 0.24 0.27 YES
6 CXCR1 CXCR1 CXCR1 2670 0.1 0.22 YES
7 MAP2K4 MAP2K4 MAP2K4 2784 0.1 0.23 YES
8 ATP6V1B1 ATP6V1B1 ATP6V1B1 2792 0.099 0.25 YES
9 MAPK13 MAPK13 MAPK13 2920 0.093 0.26 YES
10 ATP6V1D ATP6V1D ATP6V1D 2929 0.092 0.27 YES
11 EGFR EGFR EGFR 2975 0.09 0.28 YES
12 NFKBIA NFKBIA NFKBIA 3032 0.087 0.29 YES
13 MAPK11 MAPK11 MAPK11 3097 0.084 0.3 YES
14 ATP6V0C ATP6V0C ATP6V0C 3270 0.077 0.3 YES
15 ADAM17 ADAM17 ADAM17 3301 0.075 0.32 YES
16 ATP6V1F ATP6V1F ATP6V1F 3315 0.075 0.32 YES
17 TJP1 TJP1 TJP1 3742 0.061 0.32 NO
18 ATP6V0D1 ATP6V0D1 ATP6V0D1 3831 0.058 0.32 NO
19 CSK CSK CSK 3990 0.053 0.32 NO
20 ATP6V1E1 ATP6V1E1 ATP6V1E1 4310 0.044 0.31 NO
21 RAC1 RAC1 RAC1 4433 0.041 0.31 NO
22 PLCG2 PLCG2 PLCG2 4644 0.036 0.31 NO
23 F11R F11R F11R 4647 0.036 0.32 NO
24 IKBKG IKBKG IKBKG 4667 0.035 0.32 NO
25 JUN JUN JUN 4811 0.032 0.32 NO
26 ATP6V1H ATP6V1H ATP6V1H 4942 0.029 0.32 NO
27 ATP6V1B2 ATP6V1B2 ATP6V1B2 4969 0.029 0.32 NO
28 ATP6V1A ATP6V1A ATP6V1A 5180 0.024 0.31 NO
29 ATP6V0A1 ATP6V0A1 ATP6V0A1 5716 0.015 0.29 NO
30 ATP6V1G1 ATP6V1G1 ATP6V1G1 5942 0.011 0.28 NO
31 RELA RELA RELA 6223 0.0068 0.27 NO
32 MAPK14 MAPK14 MAPK14 6386 0.0045 0.27 NO
33 CDC42 CDC42 CDC42 7386 -0.0092 0.22 NO
34 NFKB1 NFKB1 NFKB1 7626 -0.012 0.22 NO
35 IKBKB IKBKB IKBKB 7634 -0.012 0.22 NO
36 ATP6V1E2 ATP6V1E2 ATP6V1E2 7737 -0.014 0.22 NO
37 MAPK12 MAPK12 MAPK12 8016 -0.017 0.2 NO
38 ATP6V0B ATP6V0B ATP6V0B 8172 -0.019 0.2 NO
39 PAK1 PAK1 PAK1 8314 -0.02 0.2 NO
40 GIT1 GIT1 GIT1 9133 -0.03 0.17 NO
41 ATP6AP1 ATP6AP1 ATP6AP1 9443 -0.034 0.16 NO
42 CCL5 CCL5 CCL5 10397 -0.044 0.12 NO
43 NOD1 NOD1 NOD1 10650 -0.047 0.12 NO
44 IL8 IL8 IL8 11033 -0.052 0.11 NO
45 ADAM10 ADAM10 ADAM10 11104 -0.052 0.11 NO
46 PLCG1 PLCG1 PLCG1 11286 -0.054 0.11 NO
47 PTPN11 PTPN11 PTPN11 11309 -0.054 0.12 NO
48 CHUK CHUK CHUK 11510 -0.057 0.12 NO
49 ATP6V1C2 ATP6V1C2 ATP6V1C2 12007 -0.063 0.11 NO
50 CXCL1 CXCL1 CXCL1 12366 -0.068 0.1 NO
51 SRC SRC SRC 12645 -0.072 0.1 NO
52 CASP3 CASP3 CASP3 12729 -0.073 0.11 NO
53 ATP6V1C1 ATP6V1C1 ATP6V1C1 12797 -0.074 0.12 NO
54 TCIRG1 TCIRG1 TCIRG1 12926 -0.076 0.12 NO
55 MAPK8 MAPK8 MAPK8 13389 -0.083 0.11 NO
56 MAPK9 MAPK9 MAPK9 13916 -0.091 0.1 NO
57 ATP6V0A2 ATP6V0A2 ATP6V0A2 14904 -0.11 0.076 NO
58 LYN LYN LYN 16912 -0.15 0.011 NO
59 MET MET MET 16997 -0.16 0.03 NO
60 MAP3K14 MAP3K14 MAP3K14 17251 -0.16 0.043 NO
61 ATP6V0D2 ATP6V0D2 ATP6V0D2 17374 -0.16 0.062 NO
62 ATP6V0E2 ATP6V0E2 ATP6V0E2 18399 -0.2 0.046 NO
63 JAM2 JAM2 JAM2 19614 -0.24 0.027 NO
64 IGSF5 IGSF5 IGSF5 19950 -0.25 0.05 NO
65 ATP6V1G2 ATP6V1G2 ATP6V1G2 20136 -0.26 0.08 NO
66 JAM3 JAM3 JAM3 20246 -0.26 0.11 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 G1 PATHWAY.

Figure S42.  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 RACCYCD PATHWAY

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 IL1A IL1A IL1A 258 0.6 0.13 YES
2 IL1RN IL1RN IL1RN 259 0.6 0.28 YES
3 IFNA1 IFNA1 IFNA1 646 0.37 0.35 YES
4 IL1RAP IL1RAP IL1RAP 1469 0.21 0.36 YES
5 TGFB1 TGFB1 TGFB1 1630 0.19 0.4 YES
6 TOLLIP TOLLIP TOLLIP 1929 0.16 0.42 YES
7 NFKBIA NFKBIA NFKBIA 3032 0.087 0.4 NO
8 IL1B IL1B IL1B 3535 0.067 0.39 NO
9 TAB1 TAB1 TAB1 3574 0.066 0.4 NO
10 MYD88 MYD88 MYD88 3909 0.055 0.4 NO
11 TNF TNF TNF 4526 0.038 0.38 NO
12 JUN JUN JUN 4811 0.032 0.38 NO
13 MAP3K1 MAP3K1 MAP3K1 5089 0.026 0.37 NO
14 RELA RELA RELA 6223 0.0068 0.32 NO
15 MAPK14 MAPK14 MAPK14 6386 0.0045 0.32 NO
16 ECSIT ECSIT ECSIT 7497 -0.011 0.27 NO
17 NFKB1 NFKB1 NFKB1 7626 -0.012 0.27 NO
18 IKBKB IKBKB IKBKB 7634 -0.012 0.27 NO
19 TRAF6 TRAF6 TRAF6 7791 -0.014 0.27 NO
20 MAP3K7 MAP3K7 MAP3K7 8295 -0.02 0.25 NO
21 IRAK1 IRAK1 IRAK1 8975 -0.028 0.23 NO
22 MAP2K3 MAP2K3 MAP2K3 9112 -0.03 0.23 NO
23 TGFB3 TGFB3 TGFB3 9283 -0.032 0.23 NO
24 CHUK CHUK CHUK 11510 -0.057 0.15 NO
25 IRAK2 IRAK2 IRAK2 12933 -0.076 0.1 NO
26 MAPK8 MAPK8 MAPK8 13389 -0.083 0.1 NO
27 IFNB1 IFNB1 IFNB1 16747 -0.15 -0.0087 NO
28 MAP3K14 MAP3K14 MAP3K14 17251 -0.16 0.0079 NO
29 TGFB2 TGFB2 TGFB2 17999 -0.18 0.019 NO
30 IL6 IL6 IL6 18099 -0.19 0.06 NO
31 MAP2K6 MAP2K6 MAP2K6 20866 -0.3 0.0094 NO
32 IRAK3 IRAK3 IRAK3 21263 -0.32 0.07 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: BIOCARTA RACCYCD PATHWAY.

Figure S44.  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 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 TP53AIP1 TP53AIP1 TP53AIP1 222 0.64 0.075 YES
2 SFN SFN SFN 538 0.41 0.12 YES
3 SERPINB5 SERPINB5 SERPINB5 676 0.36 0.16 YES
4 SESN3 SESN3 SESN3 707 0.35 0.2 YES
5 PERP PERP PERP 908 0.3 0.24 YES
6 BAI1 BAI1 BAI1 1217 0.24 0.25 YES
7 TP73 TP73 TP73 1368 0.22 0.28 YES
8 RPRM RPRM RPRM 1612 0.19 0.29 YES
9 CDKN1A CDKN1A CDKN1A 1942 0.16 0.3 YES
10 TP53I3 TP53I3 TP53I3 2066 0.15 0.31 YES
11 PMAIP1 PMAIP1 PMAIP1 2720 0.1 0.3 NO
12 DDB2 DDB2 DDB2 2760 0.1 0.31 NO
13 CD82 CD82 CD82 3189 0.08 0.3 NO
14 SESN2 SESN2 SESN2 3329 0.074 0.31 NO
15 CCNG2 CCNG2 CCNG2 3847 0.057 0.29 NO
16 CCND1 CCND1 CCND1 3894 0.056 0.3 NO
17 CCNE1 CCNE1 CCNE1 4952 0.029 0.25 NO
18 MDM2 MDM2 MDM2 5188 0.024 0.25 NO
19 SHISA5 SHISA5 SHISA5 5379 0.021 0.24 NO
20 SERPINE1 SERPINE1 SERPINE1 5545 0.018 0.24 NO
21 GADD45A GADD45A GADD45A 5969 0.011 0.22 NO
22 TSC2 TSC2 TSC2 6489 0.0028 0.2 NO
23 SIAH1 SIAH1 SIAH1 6682 -0.00025 0.19 NO
24 EI24 EI24 EI24 6933 -0.0035 0.18 NO
25 PTEN PTEN PTEN 6985 -0.0041 0.18 NO
26 CCND2 CCND2 CCND2 7534 -0.011 0.15 NO
27 CDK6 CDK6 CDK6 7823 -0.015 0.14 NO
28 RFWD2 RFWD2 RFWD2 8042 -0.017 0.14 NO
29 CYCS CYCS CYCS 8063 -0.018 0.14 NO
30 ZMAT3 ZMAT3 ZMAT3 8789 -0.026 0.11 NO
31 FAS FAS FAS 8868 -0.027 0.11 NO
32 CCNB1 CCNB1 CCNB1 8935 -0.028 0.11 NO
33 CASP9 CASP9 CASP9 9178 -0.03 0.1 NO
34 RRM2 RRM2 RRM2 9522 -0.034 0.092 NO
35 BAX BAX BAX 9769 -0.037 0.087 NO
36 RRM2B RRM2B RRM2B 10485 -0.046 0.061 NO
37 CCNB2 CCNB2 CCNB2 10599 -0.047 0.063 NO
38 CDK4 CDK4 CDK4 10895 -0.05 0.056 NO
39 GADD45B GADD45B GADD45B 11166 -0.053 0.052 NO
40 PPM1D PPM1D PPM1D 11203 -0.053 0.057 NO
41 CHEK2 CHEK2 CHEK2 11636 -0.058 0.046 NO
42 ATR ATR ATR 12249 -0.066 0.028 NO
43 MDM4 MDM4 MDM4 12631 -0.072 0.021 NO
44 CASP3 CASP3 CASP3 12729 -0.073 0.026 NO
45 CCNG1 CCNG1 CCNG1 13025 -0.078 0.024 NO
46 SESN1 SESN1 SESN1 13038 -0.078 0.034 NO
47 CCND3 CCND3 CCND3 13339 -0.082 0.032 NO
48 CDK2 CDK2 CDK2 14035 -0.093 0.014 NO
49 CHEK1 CHEK1 CHEK1 14175 -0.096 0.02 NO
50 BID BID BID 14218 -0.096 0.031 NO
51 CDK1 CDK1 CDK1 14307 -0.098 0.041 NO
52 TP53 TP53 TP53 14399 -0.1 0.05 NO
53 CCNE2 CCNE2 CCNE2 14411 -0.1 0.063 NO
54 RCHY1 RCHY1 RCHY1 14483 -0.1 0.073 NO
55 TNFRSF10B TNFRSF10B TNFRSF10B 14962 -0.11 0.067 NO
56 CASP8 CASP8 CASP8 15310 -0.12 0.067 NO
57 IGFBP3 IGFBP3 IGFBP3 15915 -0.13 0.058 NO
58 GTSE1 GTSE1 GTSE1 16457 -0.14 0.053 NO
59 IGF1 IGF1 IGF1 16698 -0.15 0.062 NO
60 THBS1 THBS1 THBS1 17281 -0.16 0.058 NO
61 ATM ATM ATM 17667 -0.17 0.065 NO
62 APAF1 APAF1 APAF1 18488 -0.2 0.055 NO
63 CDKN2A CDKN2A CDKN2A 18709 -0.2 0.073 NO
64 BBC3 BBC3 BBC3 19042 -0.22 0.088 NO
65 GADD45G GADD45G GADD45G 20558 -0.28 0.059 NO
66 CCNB3 CCNB3 CCNB3 21115 -0.31 0.076 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: BIOCARTA MAPK PATHWAY.

Figure S46.  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 IL1R PATHWAY

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 RPL3L RPL3L RPL3L 441 0.46 0.15 YES
2 RPSA RPSA RPSA 1507 0.2 0.18 YES
3 RPL7 RPL7 RPL7 2553 0.11 0.17 YES
4 RPS28 RPS28 RPS28 3046 0.086 0.18 YES
5 RPL22L1 RPL22L1 RPL22L1 3144 0.082 0.21 YES
6 RPS27 RPS27 RPS27 3257 0.077 0.23 YES
7 RPL18A RPL18A RPL18A 4039 0.052 0.21 YES
8 RPS2 RPS2 RPS2 4334 0.043 0.22 YES
9 RPS15 RPS15 RPS15 4446 0.04 0.23 YES
10 RPLP1 RPLP1 RPLP1 4516 0.039 0.24 YES
11 RPL13A RPL13A RPL13A 4721 0.034 0.24 YES
12 RPS7 RPS7 RPS7 4736 0.034 0.25 YES
13 RPLP0 RPLP0 RPLP0 4832 0.032 0.26 YES
14 RPL36 RPL36 RPL36 4855 0.031 0.27 YES
15 RPL29 RPL29 RPL29 4887 0.03 0.28 YES
16 RPL37 RPL37 RPL37 4951 0.029 0.29 YES
17 RPL24 RPL24 RPL24 5025 0.027 0.3 YES
18 RPL4 RPL4 RPL4 5072 0.026 0.3 YES
19 RPL28 RPL28 RPL28 5123 0.025 0.31 YES
20 RPL38 RPL38 RPL38 5187 0.024 0.32 YES
21 RPL35 RPL35 RPL35 5242 0.023 0.32 YES
22 RPL10 RPL10 RPL10 5274 0.022 0.33 YES
23 RPL13 RPL13 RPL13 5288 0.022 0.34 YES
24 RPS12 RPS12 RPS12 5336 0.021 0.34 YES
25 RPL35A RPL35A RPL35A 5338 0.021 0.35 YES
26 RPS9 RPS9 RPS9 5414 0.02 0.35 YES
27 RPL39 RPL39 RPL39 5431 0.02 0.36 YES
28 RPL27A RPL27A RPL27A 5460 0.019 0.37 YES
29 UBA52 UBA52 UBA52 5488 0.019 0.37 YES
30 RPS23 RPS23 RPS23 5526 0.018 0.38 YES
31 RPL27 RPL27 RPL27 5530 0.018 0.38 YES
32 RPS15A RPS15A RPS15A 5531 0.018 0.39 YES
33 RPL10A RPL10A RPL10A 5593 0.017 0.39 YES
34 RPS3A RPS3A RPS3A 5596 0.017 0.4 YES
35 RPL6 RPL6 RPL6 5674 0.016 0.4 YES
36 RPL26 RPL26 RPL26 5701 0.015 0.41 YES
37 RPS29 RPS29 RPS29 5711 0.015 0.41 YES
38 RPL36AL RPL36AL RPL36AL 5748 0.014 0.42 YES
39 RPS18 RPS18 RPS18 5758 0.014 0.42 YES
40 RPL32 RPL32 RPL32 5799 0.014 0.42 YES
41 RPL8 RPL8 RPL8 5805 0.014 0.43 YES
42 RPL26L1 RPL26L1 RPL26L1 5838 0.013 0.43 YES
43 RPS16 RPS16 RPS16 5902 0.012 0.43 YES
44 RPL3 RPL3 RPL3 5921 0.012 0.44 YES
45 RPS27A RPS27A RPS27A 5985 0.011 0.44 YES
46 RPS25 RPS25 RPS25 6175 0.0074 0.43 NO
47 RPS20 RPS20 RPS20 6206 0.007 0.43 NO
48 RPS24 RPS24 RPS24 6254 0.0063 0.43 NO
49 RPS13 RPS13 RPS13 6307 0.0056 0.43 NO
50 RPL14 RPL14 RPL14 6321 0.0054 0.43 NO
51 RPL11 RPL11 RPL11 6339 0.0051 0.44 NO
52 RPLP2 RPLP2 RPLP2 6432 0.0037 0.43 NO
53 FAU FAU FAU 6459 0.0032 0.43 NO
54 RPL12 RPL12 RPL12 6492 0.0027 0.43 NO
55 RPL7A RPL7A RPL7A 6569 0.0014 0.43 NO
56 RPS8 RPS8 RPS8 6627 0.00059 0.43 NO
57 RPS4X RPS4X RPS4X 6756 -0.0013 0.42 NO
58 RPL34 RPL34 RPL34 6771 -0.0015 0.42 NO
59 RPS3 RPS3 RPS3 7033 -0.0047 0.41 NO
60 RPS19 RPS19 RPS19 7160 -0.0063 0.41 NO
61 RPL9 RPL9 RPL9 7358 -0.0089 0.4 NO
62 MRPL13 MRPL13 MRPL13 7432 -0.0099 0.4 NO
63 RPS11 RPS11 RPS11 7578 -0.012 0.4 NO
64 RSL24D1 RSL24D1 RSL24D1 7586 -0.012 0.41 NO
65 RPS5 RPS5 RPS5 7647 -0.012 0.41 NO
66 RPL19 RPL19 RPL19 7759 -0.014 0.41 NO
67 RPL41 RPL41 RPL41 7763 -0.014 0.41 NO
68 RPL31 RPL31 RPL31 7821 -0.015 0.42 NO
69 RPS6 RPS6 RPS6 7995 -0.017 0.41 NO
70 RPL23 RPL23 RPL23 8033 -0.017 0.42 NO
71 RPL15 RPL15 RPL15 8095 -0.018 0.42 NO
72 RPL37A RPL37A RPL37A 8226 -0.02 0.42 NO
73 RPL5 RPL5 RPL5 8454 -0.022 0.42 NO
74 RPS21 RPS21 RPS21 8572 -0.024 0.42 NO
75 RPL22 RPL22 RPL22 8657 -0.025 0.43 NO
76 RPL30 RPL30 RPL30 9094 -0.029 0.42 NO
77 RPL23A RPL23A RPL23A 9186 -0.03 0.43 NO
78 RPS26 RPS26 RPS26 12278 -0.067 0.32 NO
79 RPL21 RPL21 RPL21 12872 -0.075 0.32 NO
80 RPS27L RPS27L RPS27L 16349 -0.14 0.22 NO
81 RPL10L RPL10L RPL10L 18128 -0.19 0.21 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: BIOCARTA IL1R PATHWAY.

Figure S48.  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 OXIDATIVE PHOSPHORYLATION

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 HSPA2 HSPA2 HSPA2 1373 0.22 -0.0082 YES
2 THOC3 THOC3 THOC3 3506 0.068 -0.086 YES
3 PLRG1 PLRG1 PLRG1 4556 0.038 -0.12 YES
4 HSPA6 HSPA6 HSPA6 4566 0.037 -0.12 YES
5 ZMAT2 ZMAT2 ZMAT2 4829 0.032 -0.12 YES
6 AQR AQR AQR 5417 0.02 -0.14 YES
7 PCBP1 PCBP1 PCBP1 5443 0.019 -0.14 YES
8 SF3B5 SF3B5 SF3B5 5577 0.017 -0.14 YES
9 CCDC12 CCDC12 CCDC12 5601 0.017 -0.14 YES
10 PRPF40B PRPF40B PRPF40B 5671 0.016 -0.14 YES
11 SF3B14 SF3B14 SF3B14 5960 0.011 -0.14 YES
12 EIF4A3 EIF4A3 EIF4A3 6069 0.0093 -0.15 YES
13 SNRPD3 SNRPD3 SNRPD3 6168 0.0075 -0.15 YES
14 SNRPD2 SNRPD2 SNRPD2 6256 0.0062 -0.15 YES
15 NHP2L1 NHP2L1 NHP2L1 6328 0.0053 -0.15 YES
16 SF3B4 SF3B4 SF3B4 6396 0.0043 -0.16 YES
17 HSPA1B HSPA1B HSPA1B 6538 0.0019 -0.16 YES
18 PUF60 PUF60 PUF60 6718 -0.00074 -0.17 YES
19 SNRPA1 SNRPA1 SNRPA1 6791 -0.0018 -0.17 YES
20 SF3A2 SF3A2 SF3A2 6799 -0.0019 -0.17 YES
21 TXNL4A TXNL4A TXNL4A 6972 -0.004 -0.18 YES
22 SNRPF SNRPF SNRPF 7097 -0.0055 -0.18 YES
23 DHX38 DHX38 DHX38 7189 -0.0067 -0.18 YES
24 U2AF2 U2AF2 U2AF2 7295 -0.0081 -0.19 YES
25 SF3B3 SF3B3 SF3B3 7303 -0.0082 -0.19 YES
26 USP39 USP39 USP39 7368 -0.009 -0.19 YES
27 RBM8A RBM8A RBM8A 7471 -0.01 -0.19 YES
28 LSM3 LSM3 LSM3 7761 -0.014 -0.2 YES
29 CWC15 CWC15 CWC15 7779 -0.014 -0.2 YES
30 PPIL1 PPIL1 PPIL1 7810 -0.015 -0.19 YES
31 PRPF31 PRPF31 PRPF31 7881 -0.016 -0.19 YES
32 SNW1 SNW1 SNW1 7959 -0.016 -0.19 YES
33 HSPA1A HSPA1A HSPA1A 8010 -0.017 -0.19 YES
34 SMNDC1 SMNDC1 SMNDC1 8093 -0.018 -0.19 YES
35 HSPA1L HSPA1L HSPA1L 8139 -0.018 -0.19 YES
36 HNRNPC HNRNPC HNRNPC 8166 -0.019 -0.18 YES
37 SART1 SART1 SART1 8175 -0.019 -0.18 YES
38 XAB2 XAB2 XAB2 8219 -0.019 -0.18 YES
39 BCAS2 BCAS2 BCAS2 8220 -0.019 -0.17 YES
40 HSPA8 HSPA8 HSPA8 8307 -0.02 -0.17 YES
41 PRPF18 PRPF18 PRPF18 8321 -0.021 -0.17 YES
42 PPIE PPIE PPIE 8334 -0.021 -0.16 YES
43 PRPF19 PRPF19 PRPF19 8439 -0.022 -0.16 YES
44 PHF5A PHF5A PHF5A 8468 -0.022 -0.16 YES
45 DHX8 DHX8 DHX8 8515 -0.023 -0.16 YES
46 EFTUD2 EFTUD2 EFTUD2 8525 -0.023 -0.15 YES
47 SNRNP70 SNRNP70 SNRNP70 8570 -0.024 -0.15 YES
48 LSM7 LSM7 LSM7 8648 -0.024 -0.14 YES
49 PRPF8 PRPF8 PRPF8 8880 -0.027 -0.15 YES
50 WBP11 WBP11 WBP11 8905 -0.027 -0.14 YES
51 TRA2B TRA2B TRA2B 8921 -0.027 -0.14 YES
52 SNRPB SNRPB SNRPB 8960 -0.028 -0.13 YES
53 SNRPA SNRPA SNRPA 8982 -0.028 -0.13 YES
54 DDX5 DDX5 DDX5 8987 -0.028 -0.12 YES
55 SNRNP40 SNRNP40 SNRNP40 9003 -0.028 -0.12 YES
56 SF3A1 SF3A1 SF3A1 9020 -0.029 -0.11 YES
57 SF3B2 SF3B2 SF3B2 9076 -0.029 -0.1 YES
58 HNRNPM HNRNPM HNRNPM 9106 -0.03 -0.098 YES
59 SF3A3 SF3A3 SF3A3 9308 -0.032 -0.1 YES
60 SNRPE SNRPE SNRPE 9313 -0.032 -0.092 YES
61 BUD31 BUD31 BUD31 9328 -0.032 -0.086 YES
62 DDX42 DDX42 DDX42 9434 -0.034 -0.082 YES
63 TCERG1 TCERG1 TCERG1 9442 -0.034 -0.075 YES
64 HNRNPA1 HNRNPA1 HNRNPA1 9540 -0.035 -0.071 YES
65 RBM25 RBM25 RBM25 9833 -0.038 -0.075 YES
66 ACIN1 ACIN1 ACIN1 9891 -0.039 -0.068 YES
67 THOC1 THOC1 THOC1 9893 -0.039 -0.059 YES
68 PRPF40A PRPF40A PRPF40A 9909 -0.039 -0.051 YES
69 LSM2 LSM2 LSM2 9937 -0.039 -0.043 YES
70 RBM22 RBM22 RBM22 9981 -0.04 -0.035 YES
71 HNRNPK HNRNPK HNRNPK 9998 -0.04 -0.027 YES
72 MAGOHB MAGOHB MAGOHB 10053 -0.04 -0.02 YES
73 SNRPG SNRPG SNRPG 10079 -0.04 -0.011 YES
74 PQBP1 PQBP1 PQBP1 10214 -0.042 -0.0073 YES
75 PRPF4 PRPF4 PRPF4 10248 -0.043 0.0013 YES
76 LSM5 LSM5 LSM5 10383 -0.044 0.0058 YES
77 RBM17 RBM17 RBM17 10438 -0.045 0.014 YES
78 DHX15 DHX15 DHX15 10469 -0.045 0.023 YES
79 CTNNBL1 CTNNBL1 CTNNBL1 10537 -0.046 0.031 YES
80 CHERP CHERP CHERP 10615 -0.047 0.039 YES
81 MAGOH MAGOH MAGOH 10616 -0.047 0.05 YES
82 SLU7 SLU7 SLU7 10619 -0.047 0.061 YES
83 DDX46 DDX46 DDX46 10622 -0.047 0.072 YES
84 PPIH PPIH PPIH 10854 -0.05 0.073 YES
85 SNRPD1 SNRPD1 SNRPD1 10929 -0.05 0.082 YES
86 PRPF6 PRPF6 PRPF6 10980 -0.051 0.091 YES
87 DHX16 DHX16 DHX16 11048 -0.052 0.1 YES
88 LSM4 LSM4 LSM4 11122 -0.052 0.11 YES
89 U2AF1 U2AF1 U2AF1 11159 -0.053 0.12 YES
90 DDX23 DDX23 DDX23 11237 -0.054 0.13 YES
91 SNRPC SNRPC SNRPC 11253 -0.054 0.14 YES
92 LSM6 LSM6 LSM6 11283 -0.054 0.15 YES
93 TRA2A TRA2A TRA2A 11499 -0.057 0.16 YES
94 HNRNPU HNRNPU HNRNPU 11587 -0.058 0.17 YES
95 SF3B1 SF3B1 SF3B1 11607 -0.058 0.18 YES
96 HNRNPA3 HNRNPA3 HNRNPA3 11662 -0.059 0.19 YES
97 PRPF38A PRPF38A PRPF38A 11864 -0.061 0.2 YES
98 CDC40 CDC40 CDC40 11990 -0.063 0.21 YES
99 SYF2 SYF2 SYF2 12045 -0.064 0.22 YES
100 SNRNP200 SNRNP200 SNRNP200 12075 -0.064 0.23 YES
101 SNRNP27 SNRNP27 SNRNP27 12646 -0.072 0.22 YES
102 RBMX RBMX RBMX 12957 -0.076 0.23 YES
103 PRPF3 PRPF3 PRPF3 13659 -0.087 0.22 YES
104 NCBP1 NCBP1 NCBP1 13859 -0.09 0.23 YES
105 CRNKL1 CRNKL1 CRNKL1 13957 -0.092 0.25 YES
106 CDC5L CDC5L CDC5L 14087 -0.094 0.26 YES
107 NAA38 NAA38 NAA38 14250 -0.097 0.28 YES
108 PRPF38B PRPF38B PRPF38B 14336 -0.098 0.3 YES
109 SNRPB2 SNRPB2 SNRPB2 14497 -0.1 0.32 YES
110 THOC2 THOC2 THOC2 14572 -0.1 0.34 YES
111 HNRNPA1L2 HNRNPA1L2 HNRNPA1L2 15285 -0.12 0.33 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 OXIDATIVE PHOSPHORYLATION.

Figure S50.  Get High-res Image For the top 5 core enriched genes in the pathway: KEGG OXIDATIVE PHOSPHORYLATION, 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 ETHER LIPID 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 CDKN1A CDKN1A CDKN1A 1942 0.16 0.05 YES
2 HRAS HRAS HRAS 1986 0.15 0.18 YES
3 NFKBIA NFKBIA NFKBIA 3032 0.087 0.21 YES
4 CCND1 CCND1 CCND1 3894 0.056 0.22 YES
5 RAC1 RAC1 RAC1 4433 0.041 0.23 YES
6 IKBKG IKBKG IKBKG 4667 0.035 0.25 YES
7 CCNE1 CCNE1 CCNE1 4952 0.029 0.26 YES
8 RB1 RB1 RB1 5102 0.026 0.28 YES
9 MAPK3 MAPK3 MAPK3 5113 0.026 0.3 YES
10 RAF1 RAF1 RAF1 5303 0.022 0.31 YES
11 TFDP1 TFDP1 TFDP1 5694 0.015 0.3 YES
12 PIK3CA PIK3CA PIK3CA 5793 0.014 0.31 YES
13 RELA RELA RELA 6223 0.0068 0.3 YES
14 MAPK1 MAPK1 MAPK1 6427 0.0038 0.29 YES
15 NFKB1 NFKB1 NFKB1 7626 -0.012 0.25 YES
16 IKBKB IKBKB IKBKB 7634 -0.012 0.26 YES
17 CDK6 CDK6 CDK6 7823 -0.015 0.27 YES
18 RHOA RHOA RHOA 8068 -0.018 0.27 YES
19 PAK1 PAK1 PAK1 8314 -0.02 0.28 YES
20 AKT1 AKT1 AKT1 9715 -0.036 0.25 YES
21 CDK4 CDK4 CDK4 10895 -0.05 0.24 YES
22 CHUK CHUK CHUK 11510 -0.057 0.26 YES
23 CDKN1B CDKN1B CDKN1B 12602 -0.071 0.27 YES
24 CDK2 CDK2 CDK2 14035 -0.093 0.29 YES
25 PIK3R1 PIK3R1 PIK3R1 15186 -0.11 0.34 YES

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 ETHER LIPID METABOLISM.

Figure S52.  Get High-res Image For the top 5 core enriched genes in the pathway: KEGG ETHER LIPID 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 ARACHIDONIC 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 PLA2G4E PLA2G4E PLA2G4E 68 0.85 0.067 YES
2 ALOX12B ALOX12B ALOX12B 92 0.81 0.13 YES
3 ALOX15B ALOX15B ALOX15B 107 0.78 0.2 YES
4 ALOX12 ALOX12 ALOX12 244 0.61 0.24 YES
5 PLA2G3 PLA2G3 PLA2G3 461 0.45 0.27 YES
6 GGT6 GGT6 GGT6 525 0.42 0.3 YES
7 PLA2G2F PLA2G2F PLA2G2F 620 0.38 0.32 YES
8 CBR3 CBR3 CBR3 664 0.36 0.35 YES
9 CYP2C19 CYP2C19 CYP2C19 710 0.35 0.38 YES
10 GPX3 GPX3 GPX3 1159 0.25 0.38 YES
11 JMJD7-PLA2G4B JMJD7-PLA2G4B JMJD7-PLA2G4B 1172 0.25 0.4 YES
12 CYP4A11 CYP4A11 CYP4A11 1347 0.22 0.41 YES
13 CYP4F3 CYP4F3 CYP4F3 1434 0.21 0.42 YES
14 AKR1C3 AKR1C3 AKR1C3 1870 0.16 0.42 YES
15 PTGS1 PTGS1 PTGS1 1967 0.16 0.43 YES
16 CYP4A22 CYP4A22 CYP4A22 2005 0.15 0.44 YES
17 CBR1 CBR1 CBR1 2246 0.14 0.44 YES
18 ALOX15 ALOX15 ALOX15 2589 0.11 0.43 NO
19 PTGES PTGES PTGES 2807 0.098 0.43 NO
20 CYP2C9 CYP2C9 CYP2C9 2866 0.095 0.44 NO
21 EPHX2 EPHX2 EPHX2 3202 0.079 0.43 NO
22 LTA4H LTA4H LTA4H 3230 0.078 0.43 NO
23 PLA2G4A PLA2G4A PLA2G4A 3341 0.074 0.44 NO
24 CYP2E1 CYP2E1 CYP2E1 4268 0.045 0.4 NO
25 PTGDS PTGDS PTGDS 4365 0.042 0.4 NO
26 GPX4 GPX4 GPX4 6842 -0.0024 0.29 NO
27 GPX1 GPX1 GPX1 7099 -0.0055 0.28 NO
28 PTGS2 PTGS2 PTGS2 7164 -0.0064 0.28 NO
29 LTC4S LTC4S LTC4S 8141 -0.018 0.23 NO
30 PLA2G12A PLA2G12A PLA2G12A 10428 -0.045 0.14 NO
31 CYP4F2 CYP4F2 CYP4F2 11696 -0.059 0.087 NO
32 PLA2G2D PLA2G2D PLA2G2D 12563 -0.071 0.055 NO
33 PLA2G6 PLA2G6 PLA2G6 12732 -0.073 0.054 NO
34 PTGES2 PTGES2 PTGES2 13507 -0.085 0.027 NO
35 GPX2 GPX2 GPX2 13646 -0.087 0.028 NO
36 GPX7 GPX7 GPX7 13734 -0.089 0.031 NO
37 HPGDS HPGDS HPGDS 15021 -0.11 -0.016 NO
38 CYP2C8 CYP2C8 CYP2C8 16623 -0.14 -0.074 NO
39 PLA2G2C PLA2G2C PLA2G2C 16641 -0.15 -0.063 NO
40 PLA2G5 PLA2G5 PLA2G5 17254 -0.16 -0.077 NO
41 GGT7 GGT7 GGT7 18348 -0.19 -0.11 NO
42 PTGIS PTGIS PTGIS 18886 -0.21 -0.12 NO
43 GGT5 GGT5 GGT5 19026 -0.22 -0.1 NO
44 GGT1 GGT1 GGT1 19947 -0.25 -0.12 NO
45 ALOX5 ALOX5 ALOX5 20941 -0.3 -0.14 NO
46 TBXAS1 TBXAS1 TBXAS1 21217 -0.32 -0.13 NO
47 PLA2G12B PLA2G12B PLA2G12B 21241 -0.32 -0.1 NO
48 CYP2U1 CYP2U1 CYP2U1 21638 -0.35 -0.091 NO
49 PLA2G2A PLA2G2A PLA2G2A 21814 -0.37 -0.068 NO
50 PLA2G1B PLA2G1B PLA2G1B 22213 -0.43 -0.051 NO
51 CYP2B6 CYP2B6 CYP2B6 22462 -0.47 -0.023 NO
52 PLA2G10 PLA2G10 PLA2G10 22513 -0.49 0.015 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 ARACHIDONIC ACID METABOLISM.

Figure S54.  Get High-res Image For the top 5 core enriched genes in the pathway: KEGG ARACHIDONIC 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 RETINOL METABOLISM

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 POLR3G POLR3G POLR3G 1518 0.2 0.057 YES
2 POLR2J2 POLR2J2 POLR2J2 1595 0.19 0.17 YES
3 POLR2J3 POLR2J3 POLR2J3 2399 0.12 0.21 YES
4 POLR2L POLR2L POLR2L 3622 0.065 0.2 YES
5 POLR3B POLR3B POLR3B 3768 0.06 0.23 YES
6 POLR2E POLR2E POLR2E 4929 0.029 0.2 YES
7 POLR1D POLR1D POLR1D 5197 0.024 0.2 YES
8 POLR2A POLR2A POLR2A 5370 0.021 0.2 YES
9 POLR2F POLR2F POLR2F 5471 0.019 0.21 YES
10 POLR2G POLR2G POLR2G 6347 0.005 0.18 YES
11 POLR3H POLR3H POLR3H 6536 0.002 0.17 YES
12 POLR2I POLR2I POLR2I 7898 -0.016 0.12 YES
13 POLR2J POLR2J POLR2J 8244 -0.02 0.12 YES
14 POLR1A POLR1A POLR1A 8853 -0.027 0.1 YES
15 POLR1E POLR1E POLR1E 8992 -0.028 0.12 YES
16 POLR3D POLR3D POLR3D 9258 -0.031 0.12 YES
17 POLR1C POLR1C POLR1C 10593 -0.046 0.093 YES
18 POLR3C POLR3C POLR3C 10698 -0.048 0.12 YES
19 POLR2K POLR2K POLR2K 10830 -0.049 0.14 YES
20 POLR2C POLR2C POLR2C 10964 -0.051 0.17 YES
21 POLR3A POLR3A POLR3A 10997 -0.051 0.2 YES
22 POLR2B POLR2B POLR2B 11197 -0.053 0.22 YES
23 POLR1B POLR1B POLR1B 11264 -0.054 0.25 YES
24 POLR3K POLR3K POLR3K 11378 -0.055 0.28 YES
25 POLR2D POLR2D POLR2D 12659 -0.072 0.27 YES
26 POLR3F POLR3F POLR3F 12830 -0.075 0.31 YES
27 ZNRD1 ZNRD1 ZNRD1 13014 -0.077 0.34 YES
28 POLR3GL POLR3GL POLR3GL 16433 -0.14 0.28 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 RETINOL METABOLISM.

Figure S56.  Get High-res Image For the top 5 core enriched genes in the pathway: KEGG RETINOL 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 RIBOSOME

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 MAPK10 MAPK10 MAPK10 1141 0.25 -0.008 YES
2 MAP3K6 MAP3K6 MAP3K6 1300 0.23 0.023 YES
3 MAP3K9 MAP3K9 MAP3K9 1333 0.23 0.06 YES
4 TGFB1 TGFB1 TGFB1 1630 0.19 0.078 YES
5 HRAS HRAS HRAS 1986 0.15 0.088 YES
6 CEBPA CEBPA CEBPA 2022 0.15 0.11 YES
7 MKNK2 MKNK2 MKNK2 2090 0.15 0.13 YES
8 MAPK6 MAPK6 MAPK6 2102 0.14 0.16 YES
9 RPS6KB2 RPS6KB2 RPS6KB2 2511 0.12 0.16 YES
10 MAP2K4 MAP2K4 MAP2K4 2784 0.1 0.16 YES
11 MAPK13 MAPK13 MAPK13 2920 0.093 0.17 YES
12 NFKBIA NFKBIA NFKBIA 3032 0.087 0.18 YES
13 MAPK11 MAPK11 MAPK11 3097 0.084 0.19 YES
14 MYC MYC MYC 3445 0.07 0.19 YES
15 TRADD TRADD TRADD 3489 0.069 0.2 YES
16 FOS FOS FOS 3632 0.064 0.2 YES
17 MAPK7 MAPK7 MAPK7 3796 0.059 0.2 YES
18 MAP3K4 MAP3K4 MAP3K4 3953 0.054 0.21 YES
19 MAPKAPK3 MAPKAPK3 MAPKAPK3 4145 0.048 0.21 YES
20 MAP2K1 MAP2K1 MAP2K1 4221 0.046 0.21 YES
21 MAP4K4 MAP4K4 MAP4K4 4412 0.041 0.21 YES
22 RAC1 RAC1 RAC1 4433 0.041 0.22 YES
23 RPS6KA5 RPS6KA5 RPS6KA5 4685 0.035 0.21 YES
24 MAP3K8 MAP3K8 MAP3K8 4744 0.034 0.21 YES
25 RPS6KA4 RPS6KA4 RPS6KA4 4772 0.033 0.22 YES
26 JUN JUN JUN 4811 0.032 0.22 YES
27 MKNK1 MKNK1 MKNK1 4881 0.03 0.22 YES
28 MAP2K2 MAP2K2 MAP2K2 4906 0.03 0.23 YES
29 MAP3K1 MAP3K1 MAP3K1 5089 0.026 0.22 YES
30 MAP4K5 MAP4K5 MAP4K5 5099 0.026 0.23 YES
31 MAPK3 MAPK3 MAPK3 5113 0.026 0.23 YES
32 SHC1 SHC1 SHC1 5171 0.024 0.23 YES
33 BRAF BRAF BRAF 5195 0.024 0.24 YES
34 MEF2A MEF2A MEF2A 5209 0.024 0.24 YES
35 RAF1 RAF1 RAF1 5303 0.022 0.24 NO
36 RPS6KB1 RPS6KB1 RPS6KB1 5842 0.013 0.22 NO
37 MAP3K5 MAP3K5 MAP3K5 5855 0.013 0.22 NO
38 MAP3K10 MAP3K10 MAP3K10 6202 0.007 0.2 NO
39 RELA RELA RELA 6223 0.0068 0.2 NO
40 MAPK14 MAPK14 MAPK14 6386 0.0045 0.2 NO
41 MAPK1 MAPK1 MAPK1 6427 0.0038 0.2 NO
42 RIPK1 RIPK1 RIPK1 6993 -0.0042 0.17 NO
43 MAX MAX MAX 7091 -0.0054 0.17 NO
44 NFKB1 NFKB1 NFKB1 7626 -0.012 0.15 NO
45 IKBKB IKBKB IKBKB 7634 -0.012 0.15 NO
46 MAP2K7 MAP2K7 MAP2K7 7653 -0.013 0.15 NO
47 MAP2K5 MAP2K5 MAP2K5 7830 -0.015 0.15 NO
48 MAPK12 MAPK12 MAPK12 8016 -0.017 0.14 NO
49 STAT1 STAT1 STAT1 8266 -0.02 0.13 NO
50 MAP3K7 MAP3K7 MAP3K7 8295 -0.02 0.14 NO
51 MAPKAPK2 MAPKAPK2 MAPKAPK2 8310 -0.02 0.14 NO
52 PAK1 PAK1 PAK1 8314 -0.02 0.14 NO
53 MAP4K2 MAP4K2 MAP4K2 8696 -0.025 0.13 NO
54 PAK2 PAK2 PAK2 9029 -0.029 0.12 NO
55 DAXX DAXX DAXX 9088 -0.029 0.12 NO
56 MAP2K3 MAP2K3 MAP2K3 9112 -0.03 0.12 NO
57 GRB2 GRB2 GRB2 9230 -0.031 0.12 NO
58 TGFB3 TGFB3 TGFB3 9283 -0.032 0.13 NO
59 MAP3K11 MAP3K11 MAP3K11 9326 -0.032 0.13 NO
60 SP1 SP1 SP1 9867 -0.038 0.11 NO
61 MAP3K13 MAP3K13 MAP3K13 10598 -0.047 0.09 NO
62 MAP3K3 MAP3K3 MAP3K3 10804 -0.049 0.089 NO
63 CHUK CHUK CHUK 11510 -0.057 0.068 NO
64 TGFBR1 TGFBR1 TGFBR1 11548 -0.057 0.076 NO
65 MEF2D MEF2D MEF2D 12049 -0.064 0.064 NO
66 CREB1 CREB1 CREB1 12081 -0.064 0.073 NO
67 MAPK4 MAPK4 MAPK4 12529 -0.07 0.065 NO
68 ARAF ARAF ARAF 12588 -0.071 0.075 NO
69 MAP3K2 MAP3K2 MAP3K2 12666 -0.072 0.083 NO
70 MAPKAPK5 MAPKAPK5 MAPKAPK5 12777 -0.074 0.091 NO
71 RPS6KA3 RPS6KA3 RPS6KA3 13288 -0.082 0.082 NO
72 MAPK8 MAPK8 MAPK8 13389 -0.083 0.091 NO
73 RPS6KA1 RPS6KA1 RPS6KA1 13637 -0.087 0.095 NO
74 MAPK9 MAPK9 MAPK9 13916 -0.091 0.098 NO
75 ELK1 ELK1 ELK1 14642 -0.1 0.083 NO
76 MAP4K3 MAP4K3 MAP4K3 14951 -0.11 0.088 NO
77 TRAF2 TRAF2 TRAF2 15576 -0.12 0.08 NO
78 ATF2 ATF2 ATF2 15972 -0.13 0.084 NO
79 MAP4K1 MAP4K1 MAP4K1 16452 -0.14 0.087 NO
80 MAP3K12 MAP3K12 MAP3K12 16593 -0.14 0.1 NO
81 MAP3K14 MAP3K14 MAP3K14 17251 -0.16 0.1 NO
82 RAPGEF2 RAPGEF2 RAPGEF2 17293 -0.16 0.13 NO
83 TGFB2 TGFB2 TGFB2 17999 -0.18 0.13 NO
84 RPS6KA2 RPS6KA2 RPS6KA2 19078 -0.22 0.12 NO
85 MAP2K6 MAP2K6 MAP2K6 20866 -0.3 0.087 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 RIBOSOME.

Figure S58.  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 RNA POLYMERASE

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 ATP6V0A4 ATP6V0A4 ATP6V0A4 248 0.6 0.092 YES
2 ATP12A ATP12A ATP12A 314 0.55 0.18 YES
3 NDUFA4L2 NDUFA4L2 NDUFA4L2 521 0.42 0.24 YES
4 COX6B2 COX6B2 COX6B2 2248 0.13 0.19 NO
5 ATP6V1B1 ATP6V1B1 ATP6V1B1 2792 0.099 0.18 NO
6 ATP6V1D ATP6V1D ATP6V1D 2929 0.092 0.19 NO
7 ATP6V0C ATP6V0C ATP6V0C 3270 0.077 0.19 NO
8 ATP6V1F ATP6V1F ATP6V1F 3315 0.075 0.2 NO
9 NDUFS4 NDUFS4 NDUFS4 3693 0.062 0.2 NO
10 ATP6V0D1 ATP6V0D1 ATP6V0D1 3831 0.058 0.2 NO
11 ATP5H ATP5H ATP5H 4019 0.052 0.2 NO
12 ATP5D ATP5D ATP5D 4273 0.045 0.2 NO
13 ATP6V1E1 ATP6V1E1 ATP6V1E1 4310 0.044 0.2 NO
14 NDUFS8 NDUFS8 NDUFS8 4406 0.041 0.2 NO
15 NDUFS5 NDUFS5 NDUFS5 4442 0.04 0.21 NO
16 NDUFB4 NDUFB4 NDUFB4 4457 0.04 0.22 NO
17 NDUFS7 NDUFS7 NDUFS7 4672 0.035 0.21 NO
18 ATP5A1 ATP5A1 ATP5A1 4787 0.032 0.21 NO
19 NDUFA11 NDUFA11 NDUFA11 4856 0.031 0.22 NO
20 ATP6V1H ATP6V1H ATP6V1H 4942 0.029 0.22 NO
21 ATP6V0E1 ATP6V0E1 ATP6V0E1 4960 0.029 0.22 NO
22 ATP6V1B2 ATP6V1B2 ATP6V1B2 4969 0.029 0.23 NO
23 NDUFB10 NDUFB10 NDUFB10 5109 0.026 0.22 NO
24 ATP6V1A ATP6V1A ATP6V1A 5180 0.024 0.22 NO
25 NDUFB7 NDUFB7 NDUFB7 5353 0.021 0.22 NO
26 ATP5J ATP5J ATP5J 5441 0.02 0.22 NO
27 SDHC SDHC SDHC 5547 0.018 0.22 NO
28 COX8A COX8A COX8A 5576 0.017 0.22 NO
29 NDUFB9 NDUFB9 NDUFB9 5594 0.017 0.22 NO
30 NDUFC1 NDUFC1 NDUFC1 5657 0.016 0.22 NO
31 ATP6V0A1 ATP6V0A1 ATP6V0A1 5716 0.015 0.22 NO
32 UQCRC2 UQCRC2 UQCRC2 5723 0.015 0.22 NO
33 UQCR10 UQCR10 UQCR10 5726 0.015 0.23 NO
34 ATP5I ATP5I ATP5I 5759 0.014 0.23 NO
35 NDUFV3 NDUFV3 NDUFV3 5766 0.014 0.23 NO
36 UQCR11 UQCR11 UQCR11 5804 0.014 0.23 NO
37 ATP6V1G1 ATP6V1G1 ATP6V1G1 5942 0.011 0.23 NO
38 NDUFS6 NDUFS6 NDUFS6 5977 0.011 0.23 NO
39 NDUFB1 NDUFB1 NDUFB1 6078 0.0091 0.22 NO
40 COX6B1 COX6B1 COX6B1 6159 0.0078 0.22 NO
41 LHPP LHPP LHPP 6160 0.0077 0.22 NO
42 COX7B COX7B COX7B 6164 0.0076 0.22 NO
43 UQCRQ UQCRQ UQCRQ 6167 0.0075 0.23 NO
44 COX4I1 COX4I1 COX4I1 6370 0.0047 0.22 NO
45 ATP4A ATP4A ATP4A 6387 0.0044 0.22 NO
46 NDUFA6 NDUFA6 NDUFA6 6418 0.004 0.22 NO
47 NDUFB3 NDUFB3 NDUFB3 6428 0.0038 0.22 NO
48 NDUFV2 NDUFV2 NDUFV2 6469 0.0031 0.22 NO
49 COX10 COX10 COX10 6583 0.0013 0.21 NO
50 NDUFV1 NDUFV1 NDUFV1 6585 0.0013 0.21 NO
51 ATP5C1 ATP5C1 ATP5C1 6611 0.00091 0.21 NO
52 NDUFAB1 NDUFAB1 NDUFAB1 6690 -0.00034 0.21 NO
53 NDUFB5 NDUFB5 NDUFB5 6705 -0.00058 0.21 NO
54 COX5A COX5A COX5A 6727 -0.00088 0.21 NO
55 COX6A1 COX6A1 COX6A1 6733 -0.001 0.21 NO
56 ATP5B ATP5B ATP5B 6783 -0.0017 0.2 NO
57 CYC1 CYC1 CYC1 6822 -0.0022 0.2 NO
58 UQCRC1 UQCRC1 UQCRC1 6827 -0.0023 0.2 NO
59 NDUFB8 NDUFB8 NDUFB8 6923 -0.0033 0.2 NO
60 UQCRFS1 UQCRFS1 UQCRFS1 7018 -0.0044 0.2 NO
61 COX7C COX7C COX7C 7025 -0.0046 0.2 NO
62 ATP5G3 ATP5G3 ATP5G3 7147 -0.0062 0.19 NO
63 ATP5G2 ATP5G2 ATP5G2 7235 -0.0072 0.19 NO
64 ATP5F1 ATP5F1 ATP5F1 7302 -0.0082 0.19 NO
65 COX7A2 COX7A2 COX7A2 7414 -0.0096 0.18 NO
66 COX5B COX5B COX5B 7491 -0.011 0.18 NO
67 UQCRHL UQCRHL UQCRHL 7498 -0.011 0.18 NO
68 ATP5L ATP5L ATP5L 7670 -0.013 0.18 NO
69 NDUFB6 NDUFB6 NDUFB6 7680 -0.013 0.18 NO
70 UQCRH UQCRH UQCRH 7688 -0.013 0.18 NO
71 COX6C COX6C COX6C 7690 -0.013 0.19 NO
72 ATP6V1E2 ATP6V1E2 ATP6V1E2 7737 -0.014 0.19 NO
73 PPA2 PPA2 PPA2 7841 -0.015 0.18 NO
74 NDUFA9 NDUFA9 NDUFA9 8026 -0.017 0.18 NO
75 NDUFA2 NDUFA2 NDUFA2 8136 -0.018 0.18 NO
76 ATP6V0B ATP6V0B ATP6V0B 8172 -0.019 0.18 NO
77 NDUFA1 NDUFA1 NDUFA1 8213 -0.019 0.18 NO
78 ATP5E ATP5E ATP5E 8556 -0.023 0.17 NO
79 ATP5G1 ATP5G1 ATP5G1 8594 -0.024 0.17 NO
80 NDUFA7 NDUFA7 NDUFA7 8642 -0.024 0.17 NO
81 NDUFA10 NDUFA10 NDUFA10 8714 -0.025 0.18 NO
82 NDUFB2 NDUFB2 NDUFB2 8761 -0.026 0.18 NO
83 NDUFS3 NDUFS3 NDUFS3 8771 -0.026 0.18 NO
84 PPA1 PPA1 PPA1 9229 -0.031 0.17 NO
85 NDUFS2 NDUFS2 NDUFS2 9261 -0.031 0.17 NO
86 SDHB SDHB SDHB 9348 -0.032 0.17 NO
87 UQCRB UQCRB UQCRB 9385 -0.033 0.18 NO
88 NDUFA3 NDUFA3 NDUFA3 9415 -0.033 0.18 NO
89 ATP6AP1 ATP6AP1 ATP6AP1 9443 -0.034 0.18 NO
90 SDHD SDHD SDHD 9779 -0.037 0.18 NO
91 COX17 COX17 COX17 9872 -0.038 0.18 NO
92 NDUFA8 NDUFA8 NDUFA8 10414 -0.045 0.16 NO
93 NDUFA4 NDUFA4 NDUFA4 10682 -0.047 0.16 NO
94 COX15 COX15 COX15 11198 -0.053 0.15 NO
95 COX7A2L COX7A2L COX7A2L 11489 -0.057 0.14 NO
96 SDHA SDHA SDHA 11612 -0.058 0.15 NO
97 ATP6V1C2 ATP6V1C2 ATP6V1C2 12007 -0.063 0.14 NO
98 NDUFS1 NDUFS1 NDUFS1 12723 -0.073 0.12 NO
99 ATP6V1C1 ATP6V1C1 ATP6V1C1 12797 -0.074 0.13 NO
100 COX8C COX8C COX8C 12866 -0.075 0.14 NO
101 TCIRG1 TCIRG1 TCIRG1 12926 -0.076 0.15 NO
102 COX7B2 COX7B2 COX7B2 12973 -0.076 0.16 NO
103 COX11 COX11 COX11 14141 -0.095 0.13 NO
104 NDUFA5 NDUFA5 NDUFA5 14236 -0.096 0.14 NO
105 ATP6V0A2 ATP6V0A2 ATP6V0A2 14904 -0.11 0.13 NO
106 COX6A2 COX6A2 COX6A2 16928 -0.15 0.064 NO
107 COX7A1 COX7A1 COX7A1 17021 -0.16 0.087 NO
108 COX4I2 COX4I2 COX4I2 17174 -0.16 0.11 NO
109 ATP6V0D2 ATP6V0D2 ATP6V0D2 17374 -0.16 0.13 NO
110 ATP6V0E2 ATP6V0E2 ATP6V0E2 18399 -0.2 0.11 NO
111 ATP4B ATP4B ATP4B 19127 -0.22 0.12 NO
112 ATP6V1G2 ATP6V1G2 ATP6V1G2 20136 -0.26 0.12 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 RNA POLYMERASE.

Figure S60.  Get High-res Image For the top 5 core enriched genes in the pathway: KEGG RNA POLYMERASE, 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 = ESCA-TP.mRNAseq_RPKM_log2.txt

  • Phenotype data file = ESCA-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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