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This regulatory network was inferred from the input dataset. The miRNAs and mRNAs are presented as round and rectangle nodes respectively. The numerical value popped up upon mouse over the gene node is the log2 transformed fold-change of the gene expression between the two groups. All of the nodes are clickable, and the detailed information of the miRNAs/mRNAs and related cancer pathway will be displayed in another window. The edges between nodes are supported by both interactions (predicted or experimentally verified) and correlations learnt from cancer dataset. The numerical value popped up upon mouse over the edge is the correlation beat value (effect size) between the two nodes. The experimental evidences of the edges reported in previous cancer studies are highlighted by red/orange color. All of these information can be accessed by the "mouse-over" action. This network shows a full map of the miRNA-mRNA regulation of the input gene list(s), and the hub miRNAs (with the high network degree/betweenness centrality) would be the potential cancer drivers or tumor suppressors. The full result table can be accessed in the "Regulations" tab.

"miRNACancerMAP" is also a network visualization tool for users to draw their regulatory network by personal customization. Users can set the complexity of the network by limiting the number of nodes or edges. And the color of the nodes can be defined by different categories of the mRNAs and miRNAs, such as Gene-Ontology, pathway, and expression status. Users can also select to use network degree or network betweenness centrality to define the node size. And edges can be black or colored by the correlation. Purple edge means negative correlation (mostly found between miRNA and mRNA), and blue edge means positive correlation (found in PPI or miRNA-miRNA sponge effect). We can also add the protein-protein interactions (PPI) into the network. This result will show the cluster of genes regulated by some specific miRNAs. Additionally, miRNA-miRNA edges can be added by the "miRNA sponge" button, presenting some clusters of miRNAs that have the interactions via sponge effect.

miRNA-gene regulations

(Download full result)

Num microRNA           Gene miRNA log2FC miRNA pvalue Gene log2FC Gene pvalue Interaction Correlation beta Correlation P-value PMID Reported in cancer studies
1 hsa-miR-330-5p CIRBP 0.17 0.33643 -0.57 0.0003 miRanda -0.15 0.00053 NA
2 hsa-miR-590-3p CIRBP 0.84 0.00129 -0.57 0.0003 miRanda -0.19 0 NA
3 hsa-miR-590-5p CIRBP 2.07 0 -0.57 0.0003 miRanda -0.15 0 NA
4 hsa-miR-629-3p CIRBP 1.32 0.00011 -0.57 0.0003 mirMAP -0.12 0 NA

Over-represented Gene Ontology Biological Process

NumGOOverlapSizeP ValueAdj. P Value
1 RNA PROCESSING 85 835 1.703e-57 7.922e-54
2 MRNA METABOLIC PROCESS 68 611 9.364e-48 2.179e-44
3 MRNA PROCESSING 59 432 2.273e-46 3.525e-43
4 RNA SPLICING VIA TRANSESTERIFICATION REACTIONS 50 267 3.432e-46 3.993e-43
5 RNA SPLICING 53 367 8.079e-43 7.518e-40
6 RIBONUCLEOPROTEIN COMPLEX BIOGENESIS 52 440 1.85e-37 1.435e-34
7 RIBOSOME BIOGENESIS 32 308 2.259e-21 1.502e-18
8 RRNA METABOLIC PROCESS 27 255 2.221e-18 1.292e-15
9 NCRNA METABOLIC PROCESS 36 533 1.001e-17 4.658e-15
10 RIBONUCLEOPROTEIN COMPLEX SUBUNIT ORGANIZATION 24 199 9.137e-18 4.658e-15
11 NCRNA PROCESSING 31 386 1.79e-17 7.572e-15
12 REGULATION OF PROTEIN LOCALIZATION TO CHROMOSOME TELOMERIC REGION 9 14 5.959e-15 2.31e-12
13 REGULATION OF TELOMERASE RNA LOCALIZATION TO CAJAL BODY 9 15 1.475e-14 4.902e-12
14 POSITIVE REGULATION OF TELOMERASE RNA LOCALIZATION TO CAJAL BODY 9 15 1.475e-14 4.902e-12
15 PROTEIN FOLDING 22 224 1.739e-14 5.396e-12
16 SPLICEOSOMAL COMPLEX ASSEMBLY 12 53 7.438e-13 2.074e-10
17 CELLULAR MACROMOLECULAR COMPLEX ASSEMBLY 35 727 7.579e-13 2.074e-10
18 NUCLEAR IMPORT 16 129 2e-12 5.169e-10
19 POSTTRANSCRIPTIONAL REGULATION OF GENE EXPRESSION 27 448 2.444e-12 5.986e-10
20 NUCLEAR TRANSPORT 24 355 3.922e-12 9.123e-10
21 REGULATION OF ESTABLISHMENT OF PROTEIN LOCALIZATION TO CHROMOSOME 7 11 7.945e-12 1.76e-09
22 RNA LOCALIZATION 17 185 5.296e-11 1.12e-08
23 HISTONE MRNA METABOLIC PROCESS 8 28 7.146e-10 1.446e-07
24 MACROMOLECULAR COMPLEX ASSEMBLY 44 1398 9.444e-10 1.831e-07
25 RNA SECONDARY STRUCTURE UNWINDING 9 44 1.562e-09 2.906e-07
26 POSITIVE REGULATION OF TELOMERE MAINTENANCE 9 47 2.913e-09 5.212e-07
27 POSITIVE REGULATION OF TELOMERE MAINTENANCE VIA TELOMERE LENGTHENING 8 33 3.037e-09 5.234e-07
28 REGULATION OF TELOMERE MAINTENANCE 10 67 4.849e-09 8.059e-07
29 REGULATION OF TELOMERE MAINTENANCE VIA TELOMERE LENGTHENING 9 50 5.197e-09 8.338e-07
30 SPLICEOSOMAL SNRNP ASSEMBLY 8 38 1.018e-08 1.579e-06
31 REGULATION OF MRNA METABOLIC PROCESS 12 118 1.23e-08 1.845e-06
32 RNA 3 END PROCESSING 11 98 1.784e-08 2.594e-06
33 DNA TEMPLATED TRANSCRIPTION TERMINATION 11 101 2.455e-08 3.461e-06
34 REGULATION OF CELLULAR AMIDE METABOLIC PROCESS 19 354 3.282e-08 4.492e-06
35 TERMINATION OF RNA POLYMERASE II TRANSCRIPTION 9 62 3.731e-08 4.96e-06
36 REGULATION OF CELL CYCLE 32 949 5.281e-08 6.826e-06
37 POSITIVE REGULATION OF DNA REPLICATION 10 86 5.718e-08 7.191e-06
38 RNA CATABOLIC PROCESS 15 227 6.606e-08 8.089e-06
39 POSITIVE REGULATION OF GENE EXPRESSION 46 1733 7.234e-08 8.631e-06
40 POSITIVE REGULATION OF BIOSYNTHETIC PROCESS 47 1805 8.988e-08 1.045e-05
41 RIBONUCLEOPROTEIN COMPLEX LOCALIZATION 11 118 1.244e-07 1.412e-05
42 MRNA 3 END PROCESSING 9 72 1.416e-07 1.539e-05
43 NLS BEARING PROTEIN IMPORT INTO NUCLEUS 6 22 1.422e-07 1.539e-05
44 TOXIN TRANSPORT 7 36 1.572e-07 1.662e-05
45 PROTEIN IMPORT 12 155 2.569e-07 2.656e-05
46 MITOTIC CELL CYCLE 27 766 2.696e-07 2.727e-05
47 NUCLEIC ACID PHOSPHODIESTER BOND HYDROLYSIS 15 254 2.85e-07 2.763e-05
48 NUCLEAR TRANSCRIBED MRNA CATABOLIC PROCESS DEADENYLATION DEPENDENT DECAY 8 57 2.848e-07 2.763e-05
49 CELL CYCLE PHASE TRANSITION 15 255 2.998e-07 2.824e-05
50 POSITIVE REGULATION OF PROTEIN LOCALIZATION TO NUCLEUS 11 129 3.096e-07 2.824e-05
51 REGULATION OF PROTEIN STABILITY 14 221 3.067e-07 2.824e-05
52 MACROMOLECULE CATABOLIC PROCESS 30 926 3.383e-07 3.027e-05
53 PROTEIN STABILIZATION 11 131 3.618e-07 3.176e-05
54 POSITIVE REGULATION OF DNA BIOSYNTHETIC PROCESS 8 59 3.747e-07 3.229e-05
55 REGULATION OF DNA REPLICATION 12 161 3.877e-07 3.28e-05
56 CELL CYCLE G2 M PHASE TRANSITION 11 138 6.113e-07 5.079e-05
57 REGULATION OF RNA STABILITY 11 139 6.571e-07 5.364e-05
58 DNA METABOLIC PROCESS 26 758 7.628e-07 6.119e-05
59 INTERSPECIES INTERACTION BETWEEN ORGANISMS 24 662 7.932e-07 6.151e-05
60 SYMBIOSIS ENCOMPASSING MUTUALISM THROUGH PARASITISM 24 662 7.932e-07 6.151e-05
61 POSITIVE REGULATION OF CELLULAR PROTEIN LOCALIZATION 17 360 1.064e-06 8.118e-05
62 MULTI ORGANISM TRANSPORT 8 68 1.142e-06 8.437e-05
63 MULTI ORGANISM LOCALIZATION 8 68 1.142e-06 8.437e-05
64 REGULATION OF DNA BIOSYNTHETIC PROCESS 9 94 1.421e-06 0.0001004
65 POSITIVE REGULATION OF CHROMOSOME ORGANIZATION 11 150 1.401e-06 0.0001004
66 RIBOSOMAL LARGE SUBUNIT BIOGENESIS 7 49 1.424e-06 0.0001004
67 MRNA CIS SPLICING VIA SPLICEOSOME 5 18 1.492e-06 0.0001036
68 REGULATION OF PROTEIN LOCALIZATION TO NUCLEUS 13 218 1.614e-06 0.0001104
69 SIGNAL TRANSDUCTION IN RESPONSE TO DNA DAMAGE 9 96 1.697e-06 0.0001145
70 BINDING OF SPERM TO ZONA PELLUCIDA 6 33 1.898e-06 0.0001262
71 PROTEIN LOCALIZATION TO NUCLEUS 11 156 2.061e-06 0.000135
72 PROTEIN LOCALIZATION TO ORGANELLE 21 556 2.121e-06 0.0001371
73 REGULATION OF DNA METABOLIC PROCESS 16 340 2.327e-06 0.0001483
74 ORGANIC CYCLIC COMPOUND CATABOLIC PROCESS 18 427 2.57e-06 0.0001616
75 CELL CYCLE PROCESS 31 1081 2.8e-06 0.0001737
76 NEGATIVE REGULATION OF CELL CYCLE 18 433 3.124e-06 0.0001912
77 CELL CYCLE 35 1316 3.262e-06 0.0001971
78 NUCLEOBASE CONTAINING COMPOUND TRANSPORT 12 199 3.641e-06 0.0002172
79 NEGATIVE REGULATION OF PROTEIN MODIFICATION BY SMALL PROTEIN CONJUGATION OR REMOVAL 10 139 5.049e-06 0.0002942
80 REGULATION OF PROTEIN MODIFICATION BY SMALL PROTEIN CONJUGATION OR REMOVAL 14 280 5.058e-06 0.0002942
81 CELL CYCLE G1 S PHASE TRANSITION 9 111 5.695e-06 0.0003232
82 G1 S TRANSITION OF MITOTIC CELL CYCLE 9 111 5.695e-06 0.0003232
83 REGULATION OF CELLULAR PROTEIN LOCALIZATION 20 552 6.941e-06 0.0003891
84 REGULATION OF MRNA SPLICING VIA SPLICEOSOME 7 62 7.176e-06 0.0003975
85 MATURATION OF SSU RRNA 6 42 8.243e-06 0.0004494
86 NUCLEAR EXPORT 10 147 8.305e-06 0.0004494
87 POSITIVE REGULATION OF DNA METABOLIC PROCESS 11 185 1.063e-05 0.0005686
88 RNA MODIFICATION 9 120 1.077e-05 0.0005696
89 CHAPERONE MEDIATED PROTEIN COMPLEX ASSEMBLY 4 13 1.142e-05 0.0005906
90 MATURATION OF LSU RRNA 4 13 1.142e-05 0.0005906
91 POSITIVE REGULATION OF MRNA METABOLIC PROCESS 6 45 1.243e-05 0.0006289
92 SPERM EGG RECOGNITION 6 45 1.243e-05 0.0006289
93 MODULATION BY SYMBIONT OF HOST CELLULAR PROCESS 5 28 1.557e-05 0.0007792
94 CHAPERONE MEDIATED PROTEIN FOLDING 6 47 1.608e-05 0.000796
95 CELL CYCLE CHECKPOINT 11 194 1.661e-05 0.0008124
96 REGULATION OF RNA SPLICING 8 97 1.676e-05 0.0008124
97 REGULATION OF CHROMOSOME ORGANIZATION 13 278 2.243e-05 0.001076
98 RNA STABILIZATION 5 31 2.617e-05 0.001243
99 AMIDE BIOSYNTHETIC PROCESS 18 507 2.65e-05 0.001245
100 POSITIVE REGULATION OF MRNA PROCESSING 5 32 3.073e-05 0.00143
101 MATURATION OF SSU RRNA FROM TRICISTRONIC RRNA TRANSCRIPT SSU RRNA 5 8S RRNA LSU RRNA 5 33 3.588e-05 0.001653
102 NEGATIVE REGULATION OF CELL CYCLE PROCESS 11 214 4.107e-05 0.001874
103 POSITIVE REGULATION OF CELLULAR AMIDE METABOLIC PROCESS 8 111 4.459e-05 0.002
104 POSITIVE REGULATION OF HOMEOSTATIC PROCESS 11 216 4.47e-05 0.002
105 NEGATIVE REGULATION OF CELL CYCLE PHASE TRANSITION 9 146 5.137e-05 0.002255
106 DNA INTEGRITY CHECKPOINT 9 146 5.137e-05 0.002255
107 X DE NOVO PROTEIN FOLDING 4 19 5.864e-05 0.00255
108 RIBOSOMAL SMALL SUBUNIT BIOGENESIS 6 59 6.012e-05 0.00259
109 MODULATION BY VIRUS OF HOST MORPHOLOGY OR PHYSIOLOGY 5 37 6.347e-05 0.002709
110 CELL CELL RECOGNITION 6 60 6.616e-05 0.002799
111 RNA PHOSPHODIESTER BOND HYDROLYSIS 8 120 7.766e-05 0.003255
112 ESTABLISHMENT OF PROTEIN LOCALIZATION TO ORGANELLE 14 361 8.4e-05 0.003459
113 MITOTIC NUCLEAR DIVISION 14 361 8.4e-05 0.003459
114 CELL DIVISION 16 460 9.498e-05 0.003877
115 REGULATION OF CELL CYCLE PHASE TRANSITION 13 321 9.785e-05 0.003959
116 REGULATION OF TRANSFERASE ACTIVITY 25 946 0.0001033 0.004145
117 CYTOPLASMIC TRANSLATION 5 41 0.0001051 0.004179
118 REGULATION OF PROTEIN LOCALIZATION 25 950 0.0001104 0.004353
119 RESPONSE TO TOPOLOGICALLY INCORRECT PROTEIN 9 163 0.0001201 0.004694
120 PEPTIDE METABOLIC PROCESS 18 571 0.0001214 0.004706
121 REGULATION OF TRANSLATIONAL ELONGATION 4 24 0.0001536 0.005908
122 MODIFICATION BY SYMBIONT OF HOST MORPHOLOGY OR PHYSIOLOGY 5 45 0.000165 0.006294
123 POSITIVE REGULATION OF RNA SPLICING 4 25 0.0001813 0.006802
124 NUCLEAR TRANSCRIBED MRNA POLY A TAIL SHORTENING 4 25 0.0001813 0.006802
125 G1 DNA DAMAGE CHECKPOINT 6 73 0.0001986 0.007393
126 MRNA SPLICE SITE SELECTION 4 26 0.0002123 0.007839
127 REGULATION OF HOMEOSTATIC PROCESS 15 447 0.0002313 0.008476
128 POSITIVE REGULATION OF RECEPTOR BIOSYNTHETIC PROCESS 3 11 0.0002343 0.008519
129 DNA CATABOLIC PROCESS 4 27 0.000247 0.008839
130 RRNA MODIFICATION 4 27 0.000247 0.008839
131 REGULATION OF CELL CYCLE ARREST 7 108 0.0002597 0.009226
132 CELLULAR RESPONSE TO STRESS 34 1565 0.0002653 0.00935
133 CELLULAR RESPONSE TO DNA DAMAGE STIMULUS 20 720 0.0002757 0.009645
134 PROTEIN TARGETING 14 406 0.0002837 0.009697
135 POSITIVE REGULATION OF TELOMERASE ACTIVITY 4 28 0.0002855 0.009697
136 MATURATION OF 5 8S RRNA 4 28 0.0002855 0.009697
137 REGULATION OF CELL CYCLE PROCESS 17 558 0.0002793 0.009697
138 TRANSCRIPTION FROM RNA POLYMERASE II PROMOTER 20 724 0.0002961 0.009984
NumGOOverlapSizeP ValueAdj. P Value
1 RNA BINDING 141 1598 3.545e-95 3.293e-92
2 POLY A RNA BINDING 123 1170 1.443e-89 6.701e-87
3 RIBONUCLEOTIDE BINDING 73 1860 1.255e-21 3.888e-19
4 ADENYL NUCLEOTIDE BINDING 62 1514 4.459e-19 1.036e-16
5 RNA HELICASE ACTIVITY 16 67 3.965e-17 7.368e-15
6 PURINE NTP DEPENDENT HELICASE ACTIVITY 17 98 1.28e-15 1.981e-13
7 SINGLE STRANDED RNA BINDING 14 69 4.462e-14 5.922e-12
8 HELICASE ACTIVITY 17 153 2.465e-12 2.862e-10
9 HYDROLASE ACTIVITY ACTING ON ACID ANHYDRIDES 34 820 9.748e-11 1.006e-08
10 UNFOLDED PROTEIN BINDING 13 100 1.359e-10 1.263e-08
11 ATPASE ACTIVITY COUPLED 20 313 7.129e-10 6.021e-08
12 ATPASE ACTIVITY 23 427 1.02e-09 7.899e-08
13 NUCLEAR LOCALIZATION SEQUENCE BINDING 7 21 2.537e-09 1.813e-07
14 SNRNA BINDING 8 34 3.932e-09 2.609e-07
15 HEAT SHOCK PROTEIN BINDING 11 89 6.368e-09 3.944e-07
16 MRNA BINDING 13 155 3.118e-08 1.81e-06
17 DOUBLE STRANDED RNA BINDING 9 64 4.965e-08 2.713e-06
18 POLY PURINE TRACT BINDING 6 19 5.324e-08 2.748e-06
19 CYCLIN DEPENDENT PROTEIN KINASE ACTIVITY 7 34 1.033e-07 5.051e-06
20 SIGNAL SEQUENCE BINDING 7 39 2.812e-07 1.306e-05
21 TRANSLATION FACTOR ACTIVITY RNA BINDING 9 89 8.924e-07 3.948e-05
22 POLY PYRIMIDINE TRACT BINDING 5 17 1.088e-06 4.593e-05
23 POLY A BINDING 4 13 1.142e-05 0.0004245
24 RNA CAP BINDING 4 13 1.142e-05 0.0004245
25 SNORNA BINDING 5 26 1.062e-05 0.0004245
26 SINGLE STRANDED DNA BINDING 8 93 1.229e-05 0.0004391
27 ENZYME BINDING 39 1737 4.337e-05 0.001492
28 CYCLIN BINDING 4 19 5.864e-05 0.001946
29 PROTEIN SERINE THREONINE KINASE ACTIVITY 16 445 6.451e-05 0.002067
30 TRANSLATION ELONGATION FACTOR ACTIVITY 4 20 7.264e-05 0.002249
31 RIBONUCLEOPROTEIN COMPLEX BINDING 7 95 0.0001168 0.003501
32 PROTEIN TRANSPORTER ACTIVITY 7 99 0.0001514 0.004395
33 UBIQUITIN LIKE PROTEIN LIGASE BINDING 11 264 0.0002632 0.007408
34 TRANSLATION INITIATION FACTOR ACTIVITY 5 51 3e-04 0.008196
NumGOOverlapSizeP ValueAdj. P Value
1 RIBONUCLEOPROTEIN COMPLEX 79 721 1.504e-55 8.782e-53
2 SPLICEOSOMAL COMPLEX 40 172 6.196e-41 1.809e-38
3 CATALYTIC STEP 2 SPLICEOSOME 28 89 6.114e-33 1.19e-30
4 NUCLEOLUS 58 848 7.544e-29 1.101e-26
5 SMALL NUCLEAR RIBONUCLEOPROTEIN COMPLEX 18 60 4.126e-21 4.819e-19
6 U12 TYPE SPLICEOSOMAL COMPLEX 9 26 8.244e-12 8.024e-10
7 NUCLEAR BODY 23 349 1.893e-11 1.579e-09
8 SMALL NUCLEOLAR RIBONUCLEOPROTEIN COMPLEX 8 20 3.136e-11 2.289e-09
9 PRP19 COMPLEX 7 13 4.051e-11 2.628e-09
10 PRECATALYTIC SPLICEOSOME 8 22 7.804e-11 4.558e-09
11 RIBONUCLEOPROTEIN GRANULE 15 148 1.86e-10 9.878e-09
12 U5 SNRNP 7 16 2.622e-10 1.276e-08
13 SPLICEOSOMAL TRI SNRNP COMPLEX 8 26 3.664e-10 1.646e-08
14 U1 SNRNP 7 17 4.414e-10 1.841e-08
15 U2 SNRNP 7 19 1.121e-09 4.365e-08
16 U2 TYPE SPLICEOSOMAL COMPLEX 8 31 1.76e-09 6.294e-08
17 PRERIBOSOME 10 61 1.873e-09 6.294e-08
18 METHYLOSOME 6 12 1.94e-09 6.294e-08
19 NUCLEAR PORE 10 77 1.94e-08 5.962e-07
20 CYTOPLASMIC STRESS GRANULE 7 32 6.591e-08 1.925e-06
21 NUCLEAR ENVELOPE 20 416 8.638e-08 2.402e-06
22 PRESPLICEOSOME 6 21 1.044e-07 2.652e-06
23 U4 U6 X U5 TRI SNRNP COMPLEX 6 21 1.044e-07 2.652e-06
24 CAJAL BODY 8 52 1.363e-07 3.317e-06
25 NUCLEOPLASM PART 26 708 2.083e-07 4.866e-06
26 NUCLEAR SPECK 13 194 4.316e-07 9.695e-06
27 U2 TYPE PRESPLICEOSOME 5 16 7.75e-07 1.676e-05
28 SMN SM PROTEIN COMPLEX 5 17 1.088e-06 2.269e-05
29 MICROTUBULE 18 405 1.217e-06 2.45e-05
30 SMALL SUBUNIT PROCESSOME 6 33 1.898e-06 3.695e-05
31 MICROTUBULE CYTOSKELETON 30 1068 6.193e-06 0.0001167
32 METHYLTRANSFERASE COMPLEX 8 90 9.634e-06 0.0001758
33 DNA REPLICATION FACTOR A COMPLEX 4 15 2.142e-05 0.000379
34 TRANSFERASE COMPLEX 22 703 2.358e-05 0.000405
35 NUCLEOLAR PART 6 62 7.97e-05 0.00133
36 PRERIBOSOME LARGE SUBUNIT PRECURSOR 4 21 8.892e-05 0.001443
37 X90S PRERIBOSOME 4 24 0.0001536 0.002425
38 CYTOPLASMIC MRNA PROCESSING BODY 6 71 0.0001703 0.002617
39 CATALYTIC COMPLEX 26 1038 0.000176 0.002635
40 CHROMOSOME 23 880 0.0002318 0.003338
41 ENDOPLASMIC RETICULUM CHAPERONE COMPLEX 3 11 0.0002343 0.003338
42 CYTOSOLIC PART 10 223 0.0002792 0.003882
43 REPLISOME 4 29 0.0003282 0.004458
44 ENVELOPE 26 1090 0.0003746 0.004972
45 SIN3 COMPLEX 3 13 0.0003993 0.005069
46 CHROMATOID BODY 3 13 0.0003993 0.005069
47 NUCLEAR MEMBRANE 11 280 0.0004334 0.005273
48 CYCLIN DEPENDENT PROTEIN KINASE HOLOENZYME COMPLEX 4 31 0.000427 0.005273
49 RNA CAP BINDING COMPLEX 3 14 0.0005039 0.006006
50 NUCLEAR PERIPHERY 7 121 0.0005184 0.006055
51 CYTOSKELETAL PART 31 1436 0.0005638 0.006457
52 MYELIN SHEATH 8 168 0.000766 0.008441
53 SIN3 TYPE COMPLEX 3 16 0.0007621 0.008441
54 SUPRAMOLECULAR FIBER 18 670 0.0008192 0.008859
55 ENDOCYTIC VESICLE LUMEN 3 17 0.0009175 0.009569
56 CHD TYPE COMPLEX 3 17 0.0009175 0.009569

Over-represented Pathway

NumPathwayPathviewOverlapSizeP ValueAdj. P Value
1 Cell_cycle_hsa04110 10 124 1.798e-06 9.35e-05
2 p53_signaling_pathway_hsa04115 5 68 0.001136 0.02953
3 Cellular_senescence_hsa04218 7 160 0.002625 0.0455
4 Gap_junction_hsa04540 5 88 0.003544 0.04608
5 Ferroptosis_hsa04216 3 40 0.01097 0.1141
6 Oocyte_meiosis_hsa04114 5 124 0.01462 0.1267
7 FoxO_signaling_pathway_hsa04068 5 132 0.01867 0.1387
8 Hippo_signaling_pathway_multiple_species_hsa04392 2 29 0.04396 0.2753
9 Tight_junction_hsa04530 5 170 0.04764 0.2753
10 Phagosome_hsa04145 4 152 0.09981 0.5017
11 Notch_signaling_pathway_hsa04330 2 48 0.1061 0.5017
12 Mitophagy_animal_hsa04137 2 65 0.173 0.7495
13 Apoptosis_hsa04210 3 138 0.2141 0.8283
14 PI3K_Akt_signaling_pathway_hsa04151 6 352 0.223 0.8283
15 NF_kappa_B_signaling_pathway_hsa04064 2 95 0.3002 1
16 Wnt_signaling_pathway_hsa04310 2 146 0.5045 1
17 Hippo_signaling_pathway_hsa04390 2 154 0.5331 1
18 Necroptosis_hsa04217 2 164 0.5671 1
19 MAPK_signaling_pathway_hsa04010 2 295 0.8576 1

Quest ID: 607c3d69886b4ce617720389d2c0723d