Gene description for HIST1H2AC
Gene name histone cluster 1, H2ac
Gene symbol HIST1H2AC
Other names/aliases H2A/l
H2AFL
dJ221C16.4
Species Homo sapiens
 Database cross references - HIST1H2AC
ExoCarta ExoCarta_8334
Vesiclepedia VP_8334
Entrez Gene 8334
HGNC 4733
MIM 602794
UniProt Q93077  
 HIST1H2AC identified in sEVs derived from the following tissue/cell type
Chondrocytes 35931686    
Chondrocytes 35931686    
Chondrocytes 35931686    
Chondrocytes 35931686    
Gastric cancer cells 33991177    
Gastric cancer cells 33991177    
Gastric cancer cells 33991177    
Neuroblastoma cells 25944692    
Prostate cancer cells 22723089    
Prostate cancer cells 22723089    
Prostate cancer cells 22723089    
Prostate cancer cells 22723089    
Prostate cancer cells 22723089    
Prostate cancer cells 22723089    
Prostate cancer cells 22723089    
Prostate cancer cells 25844599    
Prostate cancer cells 25844599    
Retinal pigment epithelial cells 35333565    
Retinal pigment epithelial cells 35333565    
 Gene ontology annotations for HIST1H2AC
Molecular Function
    DNA binding GO:0003677 IEA
    protein binding GO:0005515 IPI
    structural constituent of chromatin GO:0030527 IBA
    protein heterodimerization activity GO:0046982 IEA
Biological Process
    negative regulation of cell population proliferation GO:0008285 IMP
    heterochromatin formation GO:0031507 IBA
Subcellular Localization
    nucleosome GO:0000786 IBA
    nucleus GO:0005634 HDA
    nucleus GO:0005634 IBA
    nucleus GO:0005634 IDA
    nucleoplasm GO:0005654 TAS
    extracellular exosome GO:0070062 HDA
 Experiment description of studies that identified HIST1H2AC in sEVs
1
Experiment ID 494
MISEV standards
EM
Biophysical techniques
CD9|CD81|CD151|CD63|CD82|FLOT1|FLOT2|GAPDH|LAMP1|LAMP2|SDCBP|TFRC|TSG101
Enriched markers
Negative markers
NTA
Particle analysis
Identified molecule Protein
Identification method Mass spectrometry
PubMed ID 35931686    
Organism Homo sapiens
Experiment description Extracellular vesicles enriched in connexin 43 promote a senescent phenotype in bone and synovial cells contributing to osteoarthritis progression
Authors "Varela-Eirín M, Carpintero-Fernández P, Guitián-Caamaño A, Varela-Vázquez A, García-Yuste A, Sánchez-Temprano A, Bravo-López SB, Yañez-Cabanas J, Fonseca E, Largo R, Mobasheri A, Caeiro JR, Mayán MD."
Journal name Cell Death Dis
Publication year 2022
Sample Chondrocytes
Sample name Osteoarthritic cartilage
Isolation/purification methods Differential centrifugation
Filtration
Ultracentrifugation
Flotation density -
Molecules identified in the study Protein
Methods used in the study Western blotting
Mass spectometry
2
Experiment ID 496
MISEV standards
Biophysical techniques
CD9|CD151|CD63|CD81|CD82|FLOT1|FLOT2|GAPDH|LAMP1|LAMP2|SDCBP|TFRC|TSG101
Enriched markers
Negative markers
Particle analysis
Identified molecule Protein
Identification method Mass spectrometry
PubMed ID 35931686    
Organism Homo sapiens
Experiment description Extracellular vesicles enriched in connexin 43 promote a senescent phenotype in bone and synovial cells contributing to osteoarthritis progression
Authors "Varela-Eirín M, Carpintero-Fernández P, Guitián-Caamaño A, Varela-Vázquez A, García-Yuste A, Sánchez-Temprano A, Bravo-López SB, Yañez-Cabanas J, Fonseca E, Largo R, Mobasheri A, Caeiro JR, Mayán MD."
Journal name Cell Death Dis
Publication year 2022
Sample Chondrocytes
Sample name Healthy cartilage
Isolation/purification methods Differential centrifugation
Filtration
Ultracentrifugation
Flotation density -
Molecules identified in the study Protein
Methods used in the study Western blotting
Mass spectometry
3
Experiment ID 497
MISEV standards
Biophysical techniques
CD9|CD151|CD63|CD81|CD82|FLOT1|FLOT2|GAPDH|LAMP1|LAMP2|RAB5A|SDCBP|TFRC|TSG101|UCHL1
Enriched markers
Negative markers
NTA
Particle analysis
Identified molecule Protein
Identification method Mass spectrometry
PubMed ID 35931686    
Organism Homo sapiens
Experiment description Extracellular vesicles enriched in connexin 43 promote a senescent phenotype in bone and synovial cells contributing to osteoarthritis progression
Authors "Varela-Eirín M, Carpintero-Fernández P, Guitián-Caamaño A, Varela-Vázquez A, García-Yuste A, Sánchez-Temprano A, Bravo-López SB, Yañez-Cabanas J, Fonseca E, Largo R, Mobasheri A, Caeiro JR, Mayán MD."
Journal name Cell Death Dis
Publication year 2022
Sample Chondrocytes
Sample name T/C-28a2
Isolation/purification methods Differential centrifugation
Filtration
Ultracentrifugation
Flotation density -
Molecules identified in the study Protein
Methods used in the study Western blotting
Mass spectometry
4
Experiment ID 498
MISEV standards
EM
Biophysical techniques
CD9|CD151|CD63|CD81|CD82|FLOT1|FLOT2|GAPDH|LAMP1|LAMP2|RAB5A|SDCBP|TFRC|TSG101|UCHL1
Enriched markers
Negative markers
NTA
Particle analysis
Identified molecule Protein
Identification method Mass spectrometry
PubMed ID 35931686    
Organism Homo sapiens
Experiment description Extracellular vesicles enriched in connexin 43 promote a senescent phenotype in bone and synovial cells contributing to osteoarthritis progression
Authors "Varela-Eirín M, Carpintero-Fernández P, Guitián-Caamaño A, Varela-Vázquez A, García-Yuste A, Sánchez-Temprano A, Bravo-López SB, Yañez-Cabanas J, Fonseca E, Largo R, Mobasheri A, Caeiro JR, Mayán MD."
Journal name Cell Death Dis
Publication year 2022
Sample Chondrocytes
Sample name T/C-28a2
Isolation/purification methods Differential centrifugation
Filtration
Ultracentrifugation
Flotation density -
Molecules identified in the study Protein
Methods used in the study Western blotting
Mass spectometry
5
Experiment ID 363
MISEV standards
Biophysical techniques
TSG101|GAPDH|AQP1|CD151|CD81|CD82|CD9|EPCAM|FLOT1|FLOT2|ICAM1|ITGA2B|LAMP2|RAB35|RAB5A|RAB5B|SDCBP|TFRC|UCHL1
Enriched markers
DCLK1
Negative markers
NTA
Particle analysis
Identified molecule Protein
Identification method Mass spectrometry
PubMed ID 33991177    
Organism Homo sapiens
Experiment description Cancer stem cell marker DCLK1 reprograms small extracellular vesicles toward migratory phenotype in gastric cancer cells
Authors "Carli ALE, Afshar-Sterle S, Rai A, Fang H, O'Keefe R, Tse J, Ferguson FM, Gray NS, Ernst M, Greening DW, Buchert M."
Journal name Proteomics
Publication year 2021
Sample Gastric cancer cells
Sample name MKN1 - 100K pellet
Isolation/purification methods Differential centrifugation
Ultracentrifugation
Flotation density -
Molecules identified in the study Protein
Methods used in the study Western blotting
Mass spectrometry
6
Experiment ID 364
MISEV standards
Biophysical techniques
TSG101|GAPDH|AQP1|CD151|CD81|CD82|CD9|EPCAM|FLOT1|FLOT2|ICAM1|ITGA2B|LAMP2|RAB35|RAB5A|RAB5B|SDCBP|TFRC|UCHL1
Enriched markers
DCLK1
Negative markers
NTA
Particle analysis
Identified molecule Protein
Identification method Mass spectrometry
PubMed ID 33991177    
Organism Homo sapiens
Experiment description Cancer stem cell marker DCLK1 reprograms small extracellular vesicles toward migratory phenotype in gastric cancer cells
Authors "Carli ALE, Afshar-Sterle S, Rai A, Fang H, O'Keefe R, Tse J, Ferguson FM, Gray NS, Ernst M, Greening DW, Buchert M."
Journal name Proteomics
Publication year 2021
Sample Gastric cancer cells
Sample name MKN1 - 100K pellet
Isolation/purification methods Differential centrifugation
Ultracentrifugation
Flotation density -
Molecules identified in the study Protein
Methods used in the study Western blotting
Mass spectrometry
7
Experiment ID 365
MISEV standards
Biophysical techniques
TSG101|GAPDH|AQP1|CD151|CD81|CD82|CD9|EPCAM|FLOT1|FLOT2|ICAM1|ITGA2B|LAMP2|RAB35|RAB5A|RAB5B|SDCBP|TFRC|UCHL1
Enriched markers
DCLK1
Negative markers
NTA
Particle analysis
Identified molecule Protein
Identification method Mass spectrometry
PubMed ID 33991177    
Organism Homo sapiens
Experiment description Cancer stem cell marker DCLK1 reprograms small extracellular vesicles toward migratory phenotype in gastric cancer cells
Authors "Carli ALE, Afshar-Sterle S, Rai A, Fang H, O'Keefe R, Tse J, Ferguson FM, Gray NS, Ernst M, Greening DW, Buchert M."
Journal name Proteomics
Publication year 2021
Sample Gastric cancer cells
Sample name MKN1 - 100K pellet
Isolation/purification methods Differential centrifugation
Ultracentrifugation
Flotation density -
Molecules identified in the study Protein
Methods used in the study Western blotting
Mass spectrometry
8
Experiment ID 224
MISEV standards
EM|AFM
Biophysical techniques
Alix|TSG101|CD63|CD81
Enriched markers
GOLGA2
Negative markers
Particle analysis
Identified molecule protein
Identification method Mass spectrometry
PubMed ID 25944692    
Organism Homo sapiens
Experiment description Proteogenomic analysis reveals exosomes are more oncogenic than ectosomes
Authors "Keerthikumar S, Gangoda L, Liem M, Fonseka P, Atukorala I, Ozcitti C, Mechler A, Adda CG, Ang CS, Mathivanan S"
Journal name Oncotarget
Publication year 2015
Sample Neuroblastoma cells
Sample name SH-SY5Y
Isolation/purification methods Differential centrifugation
Ultracentrifugation
OptiPrep density gradient
Flotation density 1.10 g/mL
Molecules identified in the study Protein
Methods used in the study Mass spectrometry
Western blotting
9
Experiment ID 138
MISEV standards
EM
Biophysical techniques
HSP70|HSP90|RAB5|LAMP2|CD9
Enriched markers
HSP90B1
Negative markers
Particle analysis
Identified molecule protein
Identification method
Mass spectrometry [QTOF]   
PubMed ID 22723089    
Organism Homo sapiens
Experiment description Prostate cancer cell derived exosomes
Authors "Hosseini-Beheshti E, Guns ES."
Journal name MCP
Publication year 2012
Sample Prostate cancer cells
Sample name DU145 - Rep 2
Isolation/purification methods Sucrose density gradient
Flotation density -
Molecules identified in the study Protein
Methods used in the study Mass spectrometry [QTOF]
10
Experiment ID 140
MISEV standards
EM
Biophysical techniques
HSP70|HSP90|RAB5|LAMP2|CD9
Enriched markers
HSP90B1
Negative markers
Particle analysis
Identified molecule protein
Identification method
Mass spectrometry [QTOF]   
PubMed ID 22723089    
Organism Homo sapiens
Experiment description Prostate cancer cell derived exosomes
Authors "Hosseini-Beheshti E, Guns ES."
Journal name MCP
Publication year 2012
Sample Prostate cancer cells
Sample name VCaP - Rep 2
Isolation/purification methods Sucrose density gradient
Flotation density -
Molecules identified in the study Protein
Methods used in the study Mass spectrometry [QTOF]
11
Experiment ID 141
MISEV standards
EM
Biophysical techniques
HSP70|HSP90|RAB5|LAMP2|CD9
Enriched markers
HSP90B1
Negative markers
Particle analysis
Identified molecule protein
Identification method
Mass spectrometry [QTOF]   
PubMed ID 22723089    
Organism Homo sapiens
Experiment description Prostate cancer cell derived exosomes
Authors "Hosseini-Beheshti E, Guns ES."
Journal name MCP
Publication year 2012
Sample Prostate cancer cells
Sample name VCaP - Rep 3
Isolation/purification methods Sucrose density gradient
Flotation density -
Molecules identified in the study Protein
Methods used in the study Mass spectrometry [QTOF]
12
Experiment ID 142
MISEV standards
EM
Biophysical techniques
HSP70|HSP90|RAB5|LAMP2|CD9
Enriched markers
HSP90B1
Negative markers
Particle analysis
Identified molecule protein
Identification method
Mass spectrometry [QTOF]   
PubMed ID 22723089    
Organism Homo sapiens
Experiment description Prostate cancer cell derived exosomes
Authors "Hosseini-Beheshti E, Guns ES."
Journal name MCP
Publication year 2012
Sample Prostate cancer cells
Sample name LNCaP - Rep 2
Isolation/purification methods Sucrose density gradient
Flotation density -
Molecules identified in the study Protein
Methods used in the study Mass spectrometry [QTOF]
13
Experiment ID 144
MISEV standards
EM
Biophysical techniques
HSP70|HSP90|RAB5|CD9
Enriched markers
HSP90B1
Negative markers
Particle analysis
Identified molecule protein
Identification method
Mass spectrometry [QTOF]   
PubMed ID 22723089    
Organism Homo sapiens
Experiment description Prostate cancer cell derived exosomes
Authors "Hosseini-Beheshti E, Guns ES."
Journal name MCP
Publication year 2012
Sample Prostate cancer cells
Sample name C4-2 - Rep 2
Isolation/purification methods Sucrose density gradient
Flotation density -
Molecules identified in the study Protein
Methods used in the study Mass spectrometry [QTOF]
14
Experiment ID 145
MISEV standards
EM
Biophysical techniques
HSP70|HSP90|RAB5|CD10
Enriched markers
HSP90B1
Negative markers
Particle analysis
Identified molecule protein
Identification method
Mass spectrometry [QTOF]   
PubMed ID 22723089    
Organism Homo sapiens
Experiment description Prostate cancer cell derived exosomes
Authors "Hosseini-Beheshti E, Guns ES."
Journal name MCP
Publication year 2012
Sample Prostate cancer cells
Sample name C4-2 - Rep 3
Isolation/purification methods Sucrose density gradient
Flotation density -
Molecules identified in the study Protein
Methods used in the study Mass spectrometry [QTOF]
15
Experiment ID 146
MISEV standards
EM
Biophysical techniques
HSP70|HSP90|CD9
Enriched markers
HSP90B1
Negative markers
Particle analysis
Identified molecule protein
Identification method
Mass spectrometry [QTOF]   
PubMed ID 22723089    
Organism Homo sapiens
Experiment description Prostate cancer cell derived exosomes
Authors "Hosseini-Beheshti E, Guns ES."
Journal name MCP
Publication year 2012
Sample Prostate cancer cells
Sample name RWPE - Rep 2
Isolation/purification methods Sucrose density gradient
Flotation density -
Molecules identified in the study Protein
Methods used in the study Mass spectrometry [QTOF]
16
Experiment ID 275
MISEV standards
EM
Biophysical techniques
TSG101|Alix|RAB5A|CD9|CD82|CD63|CD81
Enriched markers
AIF
Negative markers
NTA
Particle analysis
Identified molecule protein
Identification method Mass spectrometry
PubMed ID 25844599    
Organism Homo sapiens
Experiment description Molecular profiling of prostate cancer derived exosomes may reveal a predictive signature for response to docetaxel.
Authors "Kharaziha P, Chioureas D, Rutishauser D, Baltatzis G, Lennartsson L, Fonseca P, Azimi A, Hultenby K, Zubarev R, Ullen A, Yachnin J, Nilsson S, Panaretakis T."
Journal name Oncotarget
Publication year 2015
Sample Prostate cancer cells
Sample name DU145 - Docetaxel sensitive
Isolation/purification methods Filtration
Ultracentrifugation
Sucrose density gradient
Flotation density 1.12-1.19 g/mL
Molecules identified in the study Protein
Methods used in the study Mass spectrometry/Flow cytometry/Western blotting
17
Experiment ID 274
MISEV standards
EM
Biophysical techniques
TSG101|Alix|RAB5A|CD9|CD82|CD63|CD81
Enriched markers
AIF
Negative markers
NTA
Particle analysis
Identified molecule protein
Identification method Mass spectrometry
PubMed ID 25844599    
Organism Homo sapiens
Experiment description Molecular profiling of prostate cancer derived exosomes may reveal a predictive signature for response to docetaxel.
Authors "Kharaziha P, Chioureas D, Rutishauser D, Baltatzis G, Lennartsson L, Fonseca P, Azimi A, Hultenby K, Zubarev R, Ullen A, Yachnin J, Nilsson S, Panaretakis T."
Journal name Oncotarget
Publication year 2015
Sample Prostate cancer cells
Sample name DU145 - Docetaxel resistant
Isolation/purification methods Filtration
Ultracentrifugation
Sucrose density gradient
Flotation density 1.13-1.18 g/mL
Molecules identified in the study Protein
Methods used in the study Mass spectrometry
Flow cytometry
Western blotting
18
Experiment ID 834
MISEV standards
EM
Biophysical techniques
LAMP2|CD63|FLOT1|ITGA2B|ICAM1|CD9|CD151|TFRC|RAB5A|GAPDH|AQP1|TSG101
Enriched markers
CANX
Negative markers
NTA
Particle analysis
Identified molecule Protein
Identification method Mass spectrometry
PubMed ID 35333565    
Organism Homo sapiens
Experiment description LAMP2A regulates the loading of proteins into exosomes
Authors "Ferreira JV, da Rosa Soares A, Ramalho J, Máximo Carvalho C, Cardoso MH, Pintado P, Carvalho AS, Beck HC, Matthiesen R, Zuzarte M, Girão H, van Niel G, Pereira P"
Journal name Sci Adv
Publication year 2022
Sample Retinal pigment epithelial cells
Sample name ARPE-19
Isolation/purification methods Differential centrifugation
Filtration
Ultracentrifugation
Flotation density -
Molecules identified in the study Protein
Methods used in the study Western blotting
Mass spectrometry
19
Experiment ID 835
MISEV standards
EM
Biophysical techniques
CD63|FLOT1|ITGA2B|ICAM1|CD9|CD151|TFRC|RAB5A|GAPDH|AQP1|TSG101
Enriched markers
CANX
Negative markers
NTA
Particle analysis
Identified molecule Protein
Identification method Mass spectrometry
PubMed ID 35333565    
Organism Homo sapiens
Experiment description LAMP2A regulates the loading of proteins into exosomes
Authors "Ferreira JV, da Rosa Soares A, Ramalho J, Máximo Carvalho C, Cardoso MH, Pintado P, Carvalho AS, Beck HC, Matthiesen R, Zuzarte M, Girão H, van Niel G, Pereira P"
Journal name Sci Adv
Publication year 2022
Sample Retinal pigment epithelial cells
Sample name ARPE-19
Isolation/purification methods Differential centrifugation
Filtration
Ultracentrifugation
Flotation density -
Molecules identified in the study Protein
Methods used in the study Western blotting
Mass spectrometry
 Protein-protein interactions for HIST1H2AC
  Protein Interactor ExoCarta ID Identification method PubMed Species
1 UBE2H 7328
Affinity Capture-MS Homo sapiens
2 SLFN11 91607
Affinity Capture-MS Homo sapiens
3 HIST2H2BE 8349
Affinity Capture-MS Homo sapiens
Cross-Linking-MS (XL-MS) Homo sapiens
4 HNRNPD 3184
Affinity Capture-MS Homo sapiens
5 PLEKHA4 57664
Affinity Capture-MS Homo sapiens
6 RARA 5914
Affinity Capture-MS Homo sapiens
7 AIRE  
Affinity Capture-MS Homo sapiens
8 SLC25A6 293
Cross-Linking-MS (XL-MS) Homo sapiens
9 FANCD2  
Affinity Capture-MS Homo sapiens
10 HIST1H4A 8359
Cross-Linking-MS (XL-MS) Homo sapiens
11 HIST1H2BN 8341
Cross-Linking-MS (XL-MS) Homo sapiens
12 MCM5 4174
Affinity Capture-MS Homo sapiens
13 H2AFZ 3015
Affinity Capture-MS Homo sapiens
14 LOC102724334 102724334
Cross-Linking-MS (XL-MS) Homo sapiens
15 HIST2H3C 126961
Cross-Linking-MS (XL-MS) Homo sapiens
16 HIST1H2BJ 8970
Cross-Linking-MS (XL-MS) Homo sapiens
17 HIST1H2BC 8347
Cross-Linking-MS (XL-MS) Homo sapiens
18 KIF20A 10112
Affinity Capture-MS Homo sapiens
19 HIST1H2BB 3018
Cross-Linking-MS (XL-MS) Homo sapiens
20 NUMA1 4926
Affinity Capture-MS Homo sapiens
21 MTNR1A  
Two-hybrid Homo sapiens
22 HIST3H2BB 128312
Cross-Linking-MS (XL-MS) Homo sapiens
23 HIST1H2BD 3017
Cross-Linking-MS (XL-MS) Homo sapiens
24 WHSC1 7468
Cross-Linking-MS (XL-MS) Homo sapiens
25 NUP35 129401
Proximity Label-MS Homo sapiens
26 HIST1H1B 3009
Cross-Linking-MS (XL-MS) Homo sapiens
27 DDX58 23586
Affinity Capture-RNA Homo sapiens
28 HIST1H2BO 8348
Cross-Linking-MS (XL-MS) Homo sapiens
Cross-Linking-MS (XL-MS) Homo sapiens
Cross-Linking-MS (XL-MS) Homo sapiens
29 HIST2H2BF 440689
Cross-Linking-MS (XL-MS) Homo sapiens
30 VRK1 7443
Affinity Capture-MS Homo sapiens
31 TOP2A 7153
Affinity Capture-MS Homo sapiens
32 HIST1H1D 3007
Cross-Linking-MS (XL-MS) Homo sapiens
33 WDR76  
Co-purification Homo sapiens
Affinity Capture-MS Homo sapiens
34 TBRG4 9238
Proximity Label-MS Homo sapiens
35 HIST1H2BA 255626
Cross-Linking-MS (XL-MS) Homo sapiens
36 MCM2 4171
Affinity Capture-MS Homo sapiens
37 PINK1  
Affinity Capture-MS Homo sapiens
38 HIST1H1E 3008
Cross-Linking-MS (XL-MS) Homo sapiens
39 HEMGN  
Two-hybrid Homo sapiens
40 HIST1H1A 3024
Cross-Linking-MS (XL-MS) Homo sapiens
41 SERBP1 26135
Affinity Capture-MS Homo sapiens
42 HIST1H1C 3006
Cross-Linking-MS (XL-MS) Homo sapiens
43 PARP1 142
Affinity Capture-MS Homo sapiens
44 C9orf72  
Affinity Capture-MS Homo sapiens
45 MYH11 4629
Cross-Linking-MS (XL-MS) Homo sapiens
46 HIST1H2BK 85236
Cross-Linking-MS (XL-MS) Homo sapiens
47 NUCKS1 64710
Affinity Capture-MS Homo sapiens
48 HMGA1 3159
Affinity Capture-MS Homo sapiens
49 HIST1H1T 3010
Cross-Linking-MS (XL-MS) Homo sapiens
50 ITGA4 3676
Affinity Capture-MS Homo sapiens
View the network image/svg+xml
 Pathways in which HIST1H2AC is involved
PathwayEvidenceSource
Activated PKN1 stimulates transcription of AR (androgen receptor) regulated genes KLK2 and KLK3 TAS Reactome
Activation of anterior HOX genes in hindbrain development during early embryogenesis IEA Reactome
Activation of HOX genes during differentiation IEA Reactome
Amyloid fiber formation TAS Reactome
Assembly of the ORC complex at the origin of replication TAS Reactome
Assembly of the pre-replicative complex TAS Reactome
B-WICH complex positively regulates rRNA expression TAS Reactome
Base Excision Repair TAS Reactome
Base Excision Repair IEA Reactome
Base-Excision Repair, AP Site Formation TAS Reactome
Base-Excision Repair, AP Site Formation IEA Reactome
Cell Cycle TAS Reactome
Cell Cycle IEA Reactome
Cell Cycle, Mitotic TAS Reactome
Cellular responses to stimuli TAS Reactome
Cellular responses to stress TAS Reactome
Cellular Senescence TAS Reactome
Chromatin modifications during the maternal to zygotic transition (MZT) IEA Reactome
Chromatin modifying enzymes TAS Reactome
Chromatin modifying enzymes IEA Reactome
Chromatin organization TAS Reactome
Chromatin organization IEA Reactome
Chromosome Maintenance TAS Reactome
Cleavage of the damaged purine TAS Reactome
Cleavage of the damaged purine IEA Reactome
Cleavage of the damaged pyrimidine IEA Reactome
Condensation of Prophase Chromosomes TAS Reactome
Defective pyroptosis TAS Reactome
Deposition of new CENPA-containing nucleosomes at the centromere TAS Reactome
Depurination TAS Reactome
Depurination IEA Reactome
Depyrimidination IEA Reactome
Deubiquitination TAS Reactome
Developmental Biology IEA Reactome
Disease TAS Reactome
Diseases of programmed cell death TAS Reactome
DNA Damage/Telomere Stress Induced Senescence TAS Reactome
DNA methylation IEA Reactome
DNA Repair TAS Reactome
DNA Repair IEA Reactome
DNA Replication TAS Reactome
DNA Replication Pre-Initiation TAS Reactome
Epigenetic regulation by WDR5-containing histone modifying complexes IEA Reactome
Epigenetic regulation by WDR5-containing histone modifying complexes TAS Reactome
Epigenetic regulation of adipogenesis genes by MLL3 and MLL4 complexes IEA Reactome
Epigenetic regulation of adipogenesis genes by MLL3 and MLL4 complexes TAS Reactome
Epigenetic regulation of gene expression TAS Reactome
Epigenetic regulation of gene expression IEA Reactome
Epigenetic regulation of gene expression by MLL3 and MLL4 complexes IEA Reactome
Epigenetic regulation of gene expression by MLL3 and MLL4 complexes TAS Reactome
ERCC6 (CSB) and EHMT2 (G9a) positively regulate rRNA expression IEA Reactome
ESR-mediated signaling TAS Reactome
Estrogen-dependent gene expression TAS Reactome
Formation of the beta-catenin:TCF transactivating complex IEA Reactome
Formation of the beta-catenin:TCF transactivating complex TAS Reactome
Gene expression (Transcription) IEA Reactome
Gene expression (Transcription) TAS Reactome
Gene Silencing by RNA TAS Reactome
Generic Transcription Pathway TAS Reactome
Generic Transcription Pathway IEA Reactome
HATs acetylate histones IEA Reactome
HATs acetylate histones TAS Reactome
HCMV Early Events TAS Reactome
HCMV Infection TAS Reactome
HCMV Late Events TAS Reactome
HDACs deacetylate histones TAS Reactome
Infectious disease TAS Reactome
Inhibition of DNA recombination at telomere TAS Reactome
M Phase TAS Reactome
Maternal to zygotic transition (MZT) IEA Reactome
Meiosis IEA Reactome
Meiotic recombination IEA Reactome
Meiotic synapsis IEA Reactome
Metabolism of proteins TAS Reactome
Metalloprotease DUBs TAS Reactome
Mitotic Prophase TAS Reactome
MLL4 and MLL3 complexes regulate expression of PPARG target genes in adipogenesis and hepatic steatosis IEA Reactome
MLL4 and MLL3 complexes regulate expression of PPARG target genes in adipogenesis and hepatic steatosis TAS Reactome
Negative epigenetic regulation of rRNA expression TAS Reactome
Negative epigenetic regulation of rRNA expression IEA Reactome
NoRC negatively regulates rRNA expression TAS Reactome
NoRC negatively regulates rRNA expression IEA Reactome
Nucleosome assembly TAS Reactome
Oxidative Stress Induced Senescence TAS Reactome
Packaging Of Telomere Ends TAS Reactome
Positive epigenetic regulation of rRNA expression TAS Reactome
Positive epigenetic regulation of rRNA expression IEA Reactome
Post-translational protein modification TAS Reactome
PRC2 methylates histones and DNA TAS Reactome
Pre-NOTCH Expression and Processing IEA Reactome
Pre-NOTCH Transcription and Translation IEA Reactome
Recognition and association of DNA glycosylase with site containing an affected purine TAS Reactome
Recognition and association of DNA glycosylase with site containing an affected purine IEA Reactome
Recognition and association of DNA glycosylase with site containing an affected pyrimidine IEA Reactome
Regulation of endogenous retroelements TAS Reactome
Regulation of endogenous retroelements IEA Reactome
Regulation of endogenous retroelements by KRAB-ZFP proteins TAS Reactome
Regulation of endogenous retroelements by KRAB-ZFP proteins IEA Reactome
Regulation of endogenous retroelements by Piwi-interacting RNAs (piRNAs) IEA Reactome
Regulation of endogenous retroelements by the Human Silencing Hub (HUSH) complex TAS Reactome
Regulation of endogenous retroelements by the Human Silencing Hub (HUSH) complex IEA Reactome
Reproduction IEA Reactome
RHO GTPase Effectors TAS Reactome
RHO GTPases activate PKNs TAS Reactome
RMTs methylate histone arginines TAS Reactome
RNA Polymerase I Promoter Clearance TAS Reactome
RNA Polymerase I Promoter Escape TAS Reactome
RNA Polymerase I Promoter Opening TAS Reactome
RNA Polymerase I Transcription TAS Reactome
RNA Polymerase II Transcription TAS Reactome
RNA Polymerase II Transcription IEA Reactome
RUNX1 regulates genes involved in megakaryocyte differentiation and platelet function TAS Reactome
RUNX1 regulates transcription of genes involved in differentiation of HSCs IEA Reactome
Senescence-Associated Secretory Phenotype (SASP) TAS Reactome
Signal Transduction TAS Reactome
Signal Transduction IEA Reactome
Signaling by NOTCH IEA Reactome
Signaling by Nuclear Receptors TAS Reactome
Signaling by Rho GTPases TAS Reactome
Signaling by Rho GTPases, Miro GTPases and RHOBTB3 TAS Reactome
Signaling by WNT IEA Reactome
Signaling by WNT TAS Reactome
SIRT1 negatively regulates rRNA expression TAS Reactome
TCF dependent signaling in response to WNT IEA Reactome
TCF dependent signaling in response to WNT TAS Reactome
Telomere Maintenance TAS Reactome
Transcriptional regulation by RUNX1 TAS Reactome
Transcriptional regulation by RUNX1 IEA Reactome
Transcriptional regulation by small RNAs TAS Reactome
Transcriptional regulation of granulopoiesis IEA Reactome
Ub-specific processing proteases TAS Reactome
UCH proteinases TAS Reactome
Viral Infection Pathways TAS Reactome





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