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MCL coexpression mm9:1749

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Phase1 CAGE Peaks

 Short description
Mm9::chr1:186706870..186706910,-p1@C130074G19Rik
Mm9::chr5:117566094..117566106,-p5@Suds3
Mm9::chr6:72340615..72340633,-p2@Vamp8
Mm9::chr7:134614869..134614882,+p6@Prr14
Mm9::chr9:77602333..77602348,+p1@Gclc


Enriched pathways on this co-expression cluster<b>Summary:</b><br>Canonical pathway gene sets were compiled from Reactome, Wikipathways and KEGG. For the major signaling pathways, the transcriptionally-regulated genes (downstream targets) were obtained from Netpath. Combined, the canonical pathways and downstream targets totaled 489 human gene sets. The corresponding M. musculus gene sets were inferred by homology using the HomoloGene database. Enrichment for each of the canonical 489 pathways and gene sets included in the co-expression cluster was assessed by the hypergeometric probability. The resulting P values were also then adjusted by the Benjamini-Hochberg method for multiple comparisons.<br><b>Analyst: </b>Emmanuel Dimont<br><br>link to source dataset<br>data

GO IDGO nameFDR corrected p-value
GO:0016580Sin3 complex0.00793838039950046
GO:0051882mitochondrial depolarization0.00793838039950046
GO:0051900regulation of mitochondrial depolarization0.00793838039950046
GO:0017109glutamate-cysteine ligase complex0.00793838039950046
GO:0004357glutamate-cysteine ligase activity0.00793838039950046
GO:0031400negative regulation of protein modification process0.00793838039950046
GO:0031397negative regulation of protein ubiquitination0.00793838039950046
GO:0032436positive regulation of proteasomal ubiquitin-dependent protein catabolic process0.00793838039950046
GO:0045732positive regulation of protein catabolic process0.00793838039950046
GO:0046685response to arsenic0.00793838039950046
GO:0019852L-ascorbic acid metabolic process0.00793838039950046
GO:0051881regulation of mitochondrial membrane potential0.00793838039950046
GO:0032434regulation of proteasomal ubiquitin-dependent protein catabolic process0.00793838039950046
GO:0042826histone deacetylase binding0.00917248567671488
GO:0009896positive regulation of catabolic process0.00917248567671488
GO:0031396regulation of protein ubiquitination0.0107481232450235
GO:0031399regulation of protein modification process0.0114637225623367
GO:0006750glutathione biosynthetic process0.0114637225623367
GO:0042176regulation of protein catabolic process0.0199024952786521
GO:0010035response to inorganic substance0.0203103648031622
GO:0043161proteasomal ubiquitin-dependent protein catabolic process0.0203103648031622
GO:0009894regulation of catabolic process0.0203103648031622
GO:0009410response to xenobiotic stimulus0.0209199939838632
GO:0051899membrane depolarization0.0243383954177021
GO:0006749glutathione metabolic process0.026109373956511
GO:0000118histone deacetylase complex0.0290619734447417
GO:0005769early endosome0.0292552720323949
GO:0044272sulfur compound biosynthetic process0.0355521467343833
GO:0016567protein ubiquitination0.0445874032465923
GO:0006767water-soluble vitamin metabolic process0.0445874032465923
GO:0042391regulation of membrane potential0.0464568016525159
GO:0032446protein modification by small protein conjugation0.0482077793142717



Relative expression of the co-expression cluster over median <br>Analyst:




Enriched sample ontology terms on this co-expression cluster<b>Summary:</b>To summarize promoter activities (expression profile of a TSS region) across ~1000 samples, we performed enrichment analysis based on FANTOM5 Sample Ontology (FF ontology). The question here is “in which type of samples the promoter is more active”. To answer this question, we compared expressions (TPMs) in the samples associated with a sample ontology term and the rest of the samples by using the Mann-Whitney rank sum test. To summarize ontologies enriched in this co-expression cluster, we ran the same analysis on an averaged expression profile of all promoters that make up. <b>Analyst:</b> Hideya Kawaji <br><br>links to source dataset<br><br>cell_data<br>uberon_data<br><br>

Cell Type
Ontology termp-valuen
epithelial cell9.04e-0725

Uber Anatomy
Ontology termp-valuen
endoderm-derived structure3.20e-16118
endoderm3.20e-16118
presumptive endoderm3.20e-16118
trunk region element3.62e-1679
digestive system1.29e-15116
digestive tract1.29e-15116
primitive gut1.29e-15116
subdivision of trunk2.16e-1566
trunk7.63e-1590
subdivision of digestive tract1.54e-14114
abdomen element4.54e-1249
abdominal segment element4.54e-1249
abdominal segment of trunk4.54e-1249
abdomen4.54e-1249
exocrine gland1.20e-1125
exocrine system1.20e-1125
immaterial anatomical entity1.25e-1179
digestive tract diverticulum4.31e-1123
sac4.31e-1123
liver8.29e-1122
epithelial sac8.29e-1122
digestive gland8.29e-1122
epithelium of foregut-midgut junction8.29e-1122
anatomical boundary8.29e-1122
hepatobiliary system8.29e-1122
foregut-midgut junction8.29e-1122
hepatic diverticulum8.29e-1122
liver primordium8.29e-1122
septum transversum8.29e-1122
liver bud8.29e-1122
organ component layer1.00e-0924
intestine4.04e-0931
mucosa4.92e-0915
gastrointestinal system5.14e-0947
mesenchyme1.09e-0861
entire embryonic mesenchyme1.09e-0861
trunk mesenchyme2.29e-0845
endo-epithelium3.51e-0869
intestinal mucosa7.87e-0813
anatomical wall7.87e-0813
wall of intestine7.87e-0813
gastrointestinal system mucosa7.87e-0813


TFBS overrepresentation<b>Summary:</b>The values shown are the p-values for overrepresentation of the motif in this coexpression cluster. So a small p-value means a strong overrepresentation. <b>Analyst:</b> Michiel de Hoon <br><br>link to source data <br> Novel motifs <br>data <br><br> Jaspar motifs <br>data

Novel motifs




JASPAR motifs


Motifs-log10(p-value)

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