Gene description for Psmc5
Gene name proteasome (prosome, macropain) 26S subunit, ATPase, 5
Gene symbol Psmc5
Other names/aliases Sug1
Species Rattus norvegicus
 Database cross references - Psmc5
ExoCarta ExoCarta_81827
Vesiclepedia VP_81827
Entrez Gene 81827
UniProt P62198  
 Psmc5 identified in exosomes derived from the following tissue/cell type
Reticulocytes 21828046    
Reticulocytes 21828046    
Reticulocytes 21828046    
Reticulocytes 21828046    
Reticulocytes 21828046    
Reticulocytes 21828046    
Reticulocytes 21828046    
 Gene ontology annotations for Psmc5
Molecular Function
    signaling receptor binding GO:0005102 ISO
    ATP binding GO:0005524 IEA
    ATP hydrolysis activity GO:0016887 IDA
    ATP hydrolysis activity GO:0016887 IEA
    TBP-class protein binding GO:0017025 IPI
    thyrotropin-releasing hormone receptor binding GO:0031531 IEA
    thyrotropin-releasing hormone receptor binding GO:0031531 ISO
    thyrotropin-releasing hormone receptor binding GO:0031531 ISS
    proteasome-activating activity GO:0036402 IBA
    general transcription initiation factor binding GO:0140296 IEA
    general transcription initiation factor binding GO:0140296 ISO
    general transcription initiation factor binding GO:0140296 ISS
    DNA-binding transcription factor binding GO:0140297 IEA
    DNA-binding transcription factor binding GO:0140297 ISO
Biological Process
    regulation of transcription by RNA polymerase II GO:0006357 IEA
    regulation of transcription by RNA polymerase II GO:0006357 ISO
    proteasome-mediated ubiquitin-dependent protein catabolic process GO:0043161 IBA
    proteasome-mediated ubiquitin-dependent protein catabolic process GO:0043161 IEA
    proteasome-mediated ubiquitin-dependent protein catabolic process GO:0043161 ISO
    proteasome-mediated ubiquitin-dependent protein catabolic process GO:0043161 ISS
    negative regulation of DNA-templated transcription GO:0045892 IEA
    negative regulation of DNA-templated transcription GO:0045892 ISO
    positive regulation of inclusion body assembly GO:0090261 IMP
    positive regulation of proteasomal protein catabolic process GO:1901800 IEA
Subcellular Localization
    proteasome complex GO:0000502 IEA
    proteasome complex GO:0000502 ISO
    proteasome complex GO:0000502 ISS
    nucleus GO:0005634 IEA
    nucleus GO:0005634 ISO
    nucleus GO:0005634 ISS
    cytoplasm GO:0005737 IEA
    cytoplasm GO:0005737 ISO
    cytoplasm GO:0005737 ISS
    proteasome regulatory particle GO:0005838 IEA
    proteasome regulatory particle GO:0005838 ISO
    proteasome regulatory particle, base subcomplex GO:0008540 IBA
    inclusion body GO:0016234 IDA
    proteasome accessory complex GO:0022624 ISO
    proteasome accessory complex GO:0022624 ISS
    cytoplasmic vesicle GO:0031410 IEA
    cytoplasmic vesicle GO:0031410 ISO
    nuclear proteasome complex GO:0031595 IDA
    cytosolic proteasome complex GO:0031597 IDA
 Experiment description of studies that identified Psmc5 in exosomes
1
Experiment ID 90
MISEV standards
EM
Biophysical techniques
HSC70|HSP90|TSG101|MHCI
Enriched markers
Negative markers
Particle analysis
Identified molecule protein
Identification method Mass spectrometry [Orbitrap]
PubMed ID 21828046    
Organism Rattus norvegicus
Experiment description The proteo-lipidic composition of exosomes changes during reticulocyte maturation.
Authors "Carayon K, Chaoui K, Ronzier E, Lazar I, Bertrand-Michel J, Roques V, Balor S, Terce F, Lopez A, Salome L, Joly E"
Journal name JBC
Publication year 2011
Sample Reticulocytes
Sample name Reticulocytes - D2 Rep 1
Isolation/purification methods Differential centrifugation
Ultracentrifugation
Sucrose density gradient
Flotation density 1.16-1.21 g/mL
Molecules identified in the study Protein
Lipids
Methods used in the study Mass spectrometry [QSTAR]
Mass spectrometry [Orbitrap]
Western blotting
2
Experiment ID 94
MISEV standards
EM
Biophysical techniques
TSG101|HSP90|HSC70|MHCI
Enriched markers
Negative markers
Particle analysis
Identified molecule protein
Identification method Mass spectrometry [Orbitrap]
PubMed ID 21828046    
Organism Rattus norvegicus
Experiment description The proteo-lipidic composition of exosomes changes during reticulocyte maturation.
Authors "Carayon K, Chaoui K, Ronzier E, Lazar I, Bertrand-Michel J, Roques V, Balor S, Terce F, Lopez A, Salome L, Joly E."
Journal name JBC
Publication year 2011
Sample Reticulocytes
Sample name Reticulocytes - D4 Rep 1
Isolation/purification methods Differential centrifugation
Ultracentrifugation
Sucrose density gradient
Flotation density 1.16-1.21 g/mL
Molecules identified in the study Protein
Lipids
Methods used in the study Mass spectrometry [QSTAR]
Mass spectrometry [Orbitrap]
Western blotting
3
Experiment ID 95
MISEV standards
EM
Biophysical techniques
TSG101|HSP90|HSC70|MHCI
Enriched markers
Negative markers
Particle analysis
Identified molecule protein
Identification method Mass spectrometry [Orbitrap]
PubMed ID 21828046    
Organism Rattus norvegicus
Experiment description The proteo-lipidic composition of exosomes changes during reticulocyte maturation.
Authors "Carayon K, Chaoui K, Ronzier E, Lazar I, Bertrand-Michel J, Roques V, Balor S, Terce F, Lopez A, Salome L, Joly E."
Journal name JBC
Publication year 2011
Sample Reticulocytes
Sample name Reticulocytes - D7 Rep 1
Isolation/purification methods Differential centrifugation
Ultracentrifugation
Sucrose density gradient
Flotation density 1.13-1.25 g/mL
Molecules identified in the study Protein
Lipids
Methods used in the study Mass spectrometry [QSTAR]
Mass spectrometry [Orbitrap]
Western blotting
4
Experiment ID 96
MISEV standards
EM
Biophysical techniques
TSG101|HSP90|HSC70|MHCI
Enriched markers
Negative markers
Particle analysis
Identified molecule protein
Identification method Mass spectrometry [Orbitrap]
PubMed ID 21828046    
Organism Rattus norvegicus
Experiment description The proteo-lipidic composition of exosomes changes during reticulocyte maturation.
Authors "Carayon K, Chaoui K, Ronzier E, Lazar I, Bertrand-Michel J, Roques V, Balor S, Terce F, Lopez A, Salome L, Joly E."
Journal name JBC
Publication year 2011
Sample Reticulocytes
Sample name Reticulocytes - D2 Rep 2
Isolation/purification methods Differential centrifugation
Ultracentrifugation
Sucrose density gradient
Flotation density 1.16-1.21 g/mL
Molecules identified in the study Protein
Lipids
Methods used in the study Mass spectrometry [QSTAR]
Mass spectrometry [Orbitrap]
Western blotting
5
Experiment ID 97
MISEV standards
EM
Biophysical techniques
TSG101|HSP90|HSC70|MHCI
Enriched markers
Negative markers
Particle analysis
Identified molecule protein
Identification method Mass spectrometry [Orbitrap]
PubMed ID 21828046    
Organism Rattus norvegicus
Experiment description The proteo-lipidic composition of exosomes changes during reticulocyte maturation.
Authors "Carayon K, Chaoui K, Ronzier E, Lazar I, Bertrand-Michel J, Roques V, Balor S, Terce F, Lopez A, Salome L, Joly E."
Journal name JBC
Publication year 2011
Sample Reticulocytes
Sample name Reticulocytes - D4 Rep 2
Isolation/purification methods Differential centrifugation
Ultracentrifugation
Sucrose density gradient
Flotation density 1.16-1.21 g/mL
Molecules identified in the study Protein
Lipids
Methods used in the study Mass spectrometry [QSTAR]
Mass spectrometry [Orbitrap]
Western blotting
6
Experiment ID 98
MISEV standards
EM
Biophysical techniques
TSG101|HSP90|HSC70|MHCI
Enriched markers
Negative markers
Particle analysis
Identified molecule protein
Identification method Mass spectrometry [Orbitrap]
PubMed ID 21828046    
Organism Rattus norvegicus
Experiment description The proteo-lipidic composition of exosomes changes during reticulocyte maturation.
Authors "Carayon K, Chaoui K, Ronzier E, Lazar I, Bertrand-Michel J, Roques V, Balor S, Terce F, Lopez A, Salome L, Joly E."
Journal name JBC
Publication year 2011
Sample Reticulocytes
Sample name Reticulocytes - D7 Rep 2
Isolation/purification methods Differential centrifugation
Ultracentrifugation
Sucrose density gradient
Flotation density 1.13-1.25 g/mL
Molecules identified in the study Protein
Lipids
Methods used in the study Mass spectrometry [QSTAR]
Mass spectrometry [Orbitrap]
Western blotting
7
Experiment ID 101
MISEV standards
EM
Biophysical techniques
TSG101|HSP90|HSC70|MHCI
Enriched markers
Negative markers
Particle analysis
Identified molecule protein
Identification method Mass spectrometry [QSTAR]
PubMed ID 21828046    
Organism Rattus norvegicus
Experiment description The proteo-lipidic composition of exosomes changes during reticulocyte maturation.
Authors "Carayon K, Chaoui K, Ronzier E, Lazar I, Bertrand-Michel J, Roques V, Balor S, Terce F, Lopez A, Salome L, Joly E."
Journal name JBC
Publication year 2011
Sample Reticulocytes
Sample name Reticulocytes - D7 Rep 3
Isolation/purification methods Differential centrifugation
Ultracentrifugation
Sucrose density gradient
Flotation density 1.13-1.25 g/mL
Molecules identified in the study Protein
Lipids
Methods used in the study Mass spectrometry [QSTAR]
Mass spectrometry [Orbitrap]
Western blotting
 Protein-protein interactions for Psmc5
  Protein Interactor ExoCarta ID Identification method PubMed Species
1 Camk2a  
Biochemical Activity Rattus norvegicus
2 Psmc3 29677
Co-fractionation Rattus norvegicus
3 CAMK2A 815
Affinity Capture-Western Homo sapiens
4 Psmd7 307821
Co-fractionation Rattus norvegicus
5 Psma2 29669
Affinity Capture-Western Rattus norvegicus
6 Cand1 117152
Affinity Capture-Western Rattus norvegicus
7 Canx 29144
Co-fractionation Rattus norvegicus
8 Tbp  
Affinity Capture-Western Rattus norvegicus
Co-fractionation Rattus norvegicus
Affinity Capture-Western Rattus norvegicus
9 Ciita  
Affinity Capture-Western Rattus norvegicus
10 Psmc2 25581
Affinity Capture-Western Rattus norvegicus
Co-fractionation Rattus norvegicus
Affinity Capture-Western Rattus norvegicus
11 Psmc1 117263
Affinity Capture-Western Rattus norvegicus
Affinity Capture-Western Rattus norvegicus
12 Esr1  
Two-hybrid Rattus norvegicus
13 Gabbr2  
Affinity Capture-Western Rattus norvegicus
14 STXBP5L  
Affinity Capture-MS Homo sapiens
15 Grm1  
Co-fractionation Rattus norvegicus
Affinity Capture-Western Rattus norvegicus
16 Homer3  
Co-fractionation Rattus norvegicus
Affinity Capture-Western Rattus norvegicus
Co-localization Rattus norvegicus
View the network image/svg+xml
 Pathways in which Psmc5 is involved
PathwayEvidenceSource
ABC-family proteins mediated transport IEA Reactome
Activation of APC/C and APC/C:Cdc20 mediated degradation of mitotic proteins IEA Reactome
Activation of NF-kappaB in B cells IEA Reactome
Adaptive Immune System IEA Reactome
Antigen processing-Cross presentation IEA Reactome
Antigen processing: Ubiquitination & Proteasome degradation IEA Reactome
APC/C-mediated degradation of cell cycle proteins IEA Reactome
APC/C:Cdc20 mediated degradation of mitotic proteins IEA Reactome
APC/C:Cdc20 mediated degradation of Securin IEA Reactome
APC/C:Cdh1 mediated degradation of Cdc20 and other APC/C:Cdh1 targeted proteins in late mitosis/early G1 IEA Reactome
APC:Cdc20 mediated degradation of cell cycle proteins prior to satisfation of the cell cycle checkpoint IEA Reactome
Assembly of the pre-replicative complex IEA Reactome
Asymmetric localization of PCP proteins IEA Reactome
AUF1 (hnRNP D0) binds and destabilizes mRNA IEA Reactome
Autodegradation of Cdh1 by Cdh1:APC/C IEA Reactome
Autodegradation of the E3 ubiquitin ligase COP1 IEA Reactome
Beta-catenin independent WNT signaling IEA Reactome
C-type lectin receptors (CLRs) IEA Reactome
Cdc20:Phospho-APC/C mediated degradation of Cyclin A IEA Reactome
CDK-mediated phosphorylation and removal of Cdc6 IEA Reactome
Cell Cycle IEA Reactome
Cell Cycle Checkpoints IEA Reactome
Cell Cycle, Mitotic IEA Reactome
Cellular response to chemical stress IEA Reactome
Cellular response to hypoxia IEA Reactome
Cellular responses to stimuli IEA Reactome
Cellular responses to stress IEA Reactome
Class I MHC mediated antigen processing & presentation IEA Reactome
CLEC7A (Dectin-1) signaling IEA Reactome
Cross-presentation of soluble exogenous antigens (endosomes) IEA Reactome
Cyclin A:Cdk2-associated events at S phase entry IEA Reactome
Cyclin E associated events during G1/S transition IEA Reactome
Cytokine Signaling in Immune system IEA Reactome
Dectin-1 mediated noncanonical NF-kB signaling IEA Reactome
Degradation of AXIN IEA Reactome
Degradation of beta-catenin by the destruction complex IEA Reactome
Degradation of DVL IEA Reactome
Degradation of GLI1 by the proteasome IEA Reactome
Deubiquitination IEA Reactome
DNA Replication IEA Reactome
DNA Replication Pre-Initiation IEA Reactome
Downstream signaling events of B Cell Receptor (BCR) IEA Reactome
FBXL7 down-regulates AURKA during mitotic entry and in early mitosis IEA Reactome
G1/S DNA Damage Checkpoints IEA Reactome
G1/S Transition IEA Reactome
G2/M Checkpoints IEA Reactome
G2/M Transition IEA Reactome
Gene expression (Transcription) IEA Reactome
Generic Transcription Pathway IEA Reactome
GLI3 is processed to GLI3R by the proteasome IEA Reactome
GSK3B and BTRC:CUL1-mediated-degradation of NFE2L2 IEA Reactome
Hedgehog 'off' state IEA Reactome
Hedgehog 'on' state IEA Reactome
Hedgehog ligand biogenesis IEA Reactome
Immune System IEA Reactome
Innate Immune System IEA Reactome
Intracellular signaling by second messengers IEA Reactome
KEAP1-NFE2L2 pathway IEA Reactome
M Phase IEA Reactome
MAPK family signaling cascades IEA Reactome
MAPK1/MAPK3 signaling IEA Reactome
MAPK6/MAPK4 signaling IEA Reactome
Metabolism IEA Reactome
Metabolism of amino acids and derivatives IEA Reactome
Metabolism of polyamines IEA Reactome
Metabolism of proteins IEA Reactome
Metabolism of RNA IEA Reactome
Mitotic Anaphase IEA Reactome
Mitotic G1 phase and G1/S transition IEA Reactome
Mitotic G2-G2/M phases IEA Reactome
Mitotic Metaphase and Anaphase IEA Reactome
Neddylation IEA Reactome
NIK-->noncanonical NF-kB signaling IEA Reactome
Nuclear events mediated by NFE2L2 IEA Reactome
Orc1 removal from chromatin IEA Reactome
Oxygen-dependent proline hydroxylation of Hypoxia-inducible Factor Alpha IEA Reactome
p53-Dependent G1 DNA Damage Response IEA Reactome
p53-Dependent G1/S DNA damage checkpoint IEA Reactome
p53-Independent DNA Damage Response IEA Reactome
p53-Independent G1/S DNA damage checkpoint IEA Reactome
PCP/CE pathway IEA Reactome
PIP3 activates AKT signaling IEA Reactome
Post-translational protein modification IEA Reactome
Proteasome assembly IEA Reactome
PTEN Regulation IEA Reactome
RAF/MAP kinase cascade IEA Reactome
Regulation of APC/C activators between G1/S and early anaphase IEA Reactome
Regulation of mitotic cell cycle IEA Reactome
Regulation of mRNA stability by proteins that bind AU-rich elements IEA Reactome
Regulation of ornithine decarboxylase (ODC) IEA Reactome
Regulation of PTEN stability and activity IEA Reactome
Regulation of RAS by GAPs IEA Reactome
Regulation of RUNX3 expression and activity IEA Reactome
RNA Polymerase II Transcription IEA Reactome
RUNX1 regulates transcription of genes involved in differentiation of HSCs IEA Reactome
S Phase IEA Reactome
SCF(Skp2)-mediated degradation of p27/p21 IEA Reactome
SCF-beta-TrCP mediated degradation of Emi1 IEA Reactome
Separation of Sister Chromatids IEA Reactome
Signal Transduction IEA Reactome
Signaling by Hedgehog IEA Reactome
Signaling by the B Cell Receptor (BCR) IEA Reactome
Signaling by WNT IEA Reactome
Stabilization of p53 IEA Reactome
Switching of origins to a post-replicative state IEA Reactome
Synthesis of DNA IEA Reactome
TCF dependent signaling in response to WNT IEA Reactome
The role of GTSE1 in G2/M progression after G2 checkpoint IEA Reactome
TNFR2 non-canonical NF-kB pathway IEA Reactome
Transcriptional regulation by RUNX1 IEA Reactome
Transcriptional regulation by RUNX3 IEA Reactome
Transport of small molecules IEA Reactome
Ub-specific processing proteases IEA Reactome
Ubiquitin Mediated Degradation of Phosphorylated Cdc25A IEA Reactome
Ubiquitin-dependent degradation of Cyclin D IEA Reactome
UCH proteinases IEA Reactome





Perform bioinformatics analysis of your extracellular vesicle data set using FunRich, a open access standalone tool. NEW UPDATED VERSION OF FunRich available for download (12/09/2016) from here