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(SUMO-2)-nucleophosmin 1 conjugate + H2O
SUMO-2 + nucleophosmin 1
(SUMO-2)-p300 protein + H2O
(SUMO-2) + p300 protein
(SUMO-2/3)-promyelocytic leukemia protein + H2O
SUMO-2/3 + promyelocytic leukemia protein
(SUMO-3)-hypoxia-inducible factor-1alpha protein + H2O
SUMO-3 + hypoxia-inducible factor-1alpha protein
SENP3 can remove SUMO3, but not SUMO1 from hypoxia-inducible factor-1alpha protein
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-
?
(SUMO2)-Borealin protein + H2O
SUMO2 + Borealin protein
SUMOylated FOXC2 + H2O
FOXC2 + SUMO
SUMOylated GTPase Drp1 + H2O
GTPase Drp1 + SUMO
SUMOylated RbBP5 + H2O
RbBP5 + SUMO
SUMOylated transcription factor BACH2 + H2O
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additional information
?
-
(SUMO-2)-nucleophosmin 1 conjugate + H2O
SUMO-2 + nucleophosmin 1
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-
-
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?
(SUMO-2)-nucleophosmin 1 conjugate + H2O
SUMO-2 + nucleophosmin 1
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SENP3 as an essential factor for ribosome biogenesis. It is suggested that deconjugation of SUMO2 from nucleophosmin 1 (NPM1) by SENP3 is critically involved in 28S rRNA maturation
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(SUMO-2)-p300 protein + H2O
(SUMO-2) + p300 protein
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-
-
?
(SUMO-2)-p300 protein + H2O
(SUMO-2) + p300 protein
removing SUMO2/3 from p300 enhances its binding to HIF-1alpha. SENP3 is a redox sensor that regulates hypoxia-inducible factor-1alpha transcriptional activity under oxidative stress through the de-SUMOylation of p300
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?
(SUMO-2/3)-promyelocytic leukemia protein + H2O
SUMO-2/3 + promyelocytic leukemia protein
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-
?
(SUMO-2/3)-promyelocytic leukemia protein + H2O
SUMO-2/3 + promyelocytic leukemia protein
SENP3 appears to be a key mediator in mild oxidative stress-induced cell proliferation via regulation of the SUMOylation status of promyelocytic leukemia protein. SENP3-mediated de-conjugation of SUMO2/3 from PML is responsible for accelerated cell proliferation and decreased promyelocytic leukemia bodies under mild oxidative stress
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?
(SUMO2)-Borealin protein + H2O
SUMO2 + Borealin protein
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-
-
?
(SUMO2)-Borealin protein + H2O
SUMO2 + Borealin protein
Borealin is dynamically modified by SUMO2/3 during mitosis
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-
?
SUMOylated FOXC2 + H2O
FOXC2 + SUMO
-
deSUMOylation by enzyme SENP3
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-
?
SUMOylated FOXC2 + H2O
FOXC2 + SUMO
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deSUMOylation by enzyme SENP3, deconjugation of SUMO2/3
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-
?
SUMOylated GTPase Drp1 + H2O
GTPase Drp1 + SUMO
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the substrate is a key target for SENP3-mediated deSUMOylation
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-
?
SUMOylated GTPase Drp1 + H2O
GTPase Drp1 + SUMO
-
Drp1 is both SUMO-1 and SUMO-2/3 conjugated, SUMO-2/3-specific deSUMOylating by enzyme SENP3
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-
?
SUMOylated RbBP5 + H2O
RbBP5 + SUMO
-
deSUMOylation by enzyme SENP3
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-
?
SUMOylated RbBP5 + H2O
RbBP5 + SUMO
-
deSUMOylation by enzyme SENP3, the protein is part of SET1/MLL complexes
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additional information
?
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-
SUMO-2/3-conjugated targets are more successfully deconjugated by SENP3 than SUMO-1-containing species
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additional information
?
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enzyme SENP3 deconjugates SUMO2/3 from protein substrates
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additional information
?
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SUMO-2/3-conjugated targets are more successfully deconjugated by SENP3 than SUMO-1-containing species
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additional information
?
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enzyme SENP3 deconjugates SUMO2/3 from protein substrates
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?
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Acute Lung Injury
SENP3 in monocytes/macrophages up-regulates tissue factor and mediates lipopolysaccharide-induced acute lung injury by enhancing JNK phosphorylation.
Brain Injuries
Expression and Cell Distribution of SENP3 in the Cerebral Cortex After Experimental Subarachnoid Hemorrhage in Rats: A Pilot Study.
Brain Injuries, Traumatic
Expression and Cell Distribution of SENP3 in Brain Tissue After Traumatic Brain Injury in Mice: A Pilot Study.
Breast Neoplasms
E2F1 sumoylation as a protective cellular mechanism in oxidative stress response.
Breast Neoplasms
SENP3 loss promotes M2 macrophage polarization and breast cancer progression.
Carcinogenesis
High SENP3 Expression Promotes Cell Migration, Invasion, and Proliferation by Modulating DNA Methylation of E-Cadherin in Osteosarcoma.
Carcinogenesis
Mitotic Phosphorylation of SENP3 Regulates De-SUMOylation of Chromosome-Associated Proteins and Chromosome Stability.
Carcinogenesis
Upregulation of SENP3/SMT3IP1 promotes epithelial ovarian cancer progression and forecasts poor prognosis.
Carcinoma
Nuclear Nrf2 Activity in Laryngeal Carcinoma is Regulated by SENP3 After Cisplatin-Induced Reactive Oxygen Species Stress.
Carcinoma
Overexpression of SENP3 in oral squamous cell carcinoma and its association with differentiation.
Carcinoma
SUMOylation and SENP3 regulate STAT3 activation in head and neck cancer.
Carcinoma, Hepatocellular
Combined identification of ARID1A, CSMD1, and SENP3 as effective prognostic biomarkers for hepatocellular carcinoma.
Carcinoma, Ovarian Epithelial
Common Genetic Variation in Circadian Rhythm Genes and Risk of Epithelial Ovarian Cancer (EOC).
Carcinoma, Ovarian Epithelial
Upregulation of SENP3/SMT3IP1 promotes epithelial ovarian cancer progression and forecasts poor prognosis.
Cardiovascular Diseases
The Critical Roles of the SUMO-Specific Protease SENP3 in Human Diseases and Clinical Implications.
Colonic Neoplasms
SENP3-mediated de-conjugation of SUMO2/3 from promyelocytic leukemia is correlated with accelerated cell proliferation under mild oxidative stress.
Colorectal Neoplasms
SENP3 senses oxidative stress to facilitate STING-dependent dendritic cell antitumor function.
Epilepsy
SUMO proteases SENP3 and SENP5 spatiotemporally regulate the kinase activity of Aurora A.
Fatty Liver
SUMO-specific protease 3 is a key regulator for hepatic lipid metabolism in non-alcoholic fatty liver disease.
Head and Neck Neoplasms
SUMOylation and SENP3 regulate STAT3 activation in head and neck cancer.
Leukemia
SENP3-mediated de-conjugation of SUMO2/3 from promyelocytic leukemia is correlated with accelerated cell proliferation under mild oxidative stress.
Liver Diseases
SUMO-specific protease 3 is a key regulator for hepatic lipid metabolism in non-alcoholic fatty liver disease.
Lymphatic Metastasis
Upregulation of SENP3/SMT3IP1 promotes epithelial ovarian cancer progression and forecasts poor prognosis.
Myocardial Ischemia
The desumoylating enzyme sentrin-specific protease 3 contributes to myocardial ischemia reperfusion injury.
Neoplasm Metastasis
De-SUMOylation of FOXC2 by SENP3 promotes the epithelial-mesenchymal transition in gastric cancer cells.
Neoplasm Metastasis
Upregulation of SENP3/SMT3IP1 promotes epithelial ovarian cancer progression and forecasts poor prognosis.
Neoplasms
An upregulation of SENP3 after spinal cord injury: implications for neuronal apoptosis.
Neoplasms
Arf-induced turnover of the nucleolar nucleophosmin-associated SUMO-2/3 protease Senp3.
Neoplasms
Assessment of SENP3-interacting proteins in hepatocytes treated with diethylnitrosamine by BioID assay.
Neoplasms
De-SUMOylation of FOXC2 by SENP3 promotes the epithelial-mesenchymal transition in gastric cancer cells.
Neoplasms
E2F1 sumoylation as a protective cellular mechanism in oxidative stress response.
Neoplasms
High SENP3 Expression Promotes Cell Migration, Invasion, and Proliferation by Modulating DNA Methylation of E-Cadherin in Osteosarcoma.
Neoplasms
Nuclear Nrf2 Activity in Laryngeal Carcinoma is Regulated by SENP3 After Cisplatin-Induced Reactive Oxygen Species Stress.
Neoplasms
Overexpression of SENP3 in oral squamous cell carcinoma and its association with differentiation.
Neoplasms
Redox-sensitive enzyme SENP3 mediates vascular remodeling via de-SUMOylation of ?-catenin and regulation of its stability.
Neoplasms
SENP3 loss promotes M2 macrophage polarization and breast cancer progression.
Neoplasms
SENP3 maintains the stability and function of regulatory T cells via BACH2 deSUMOylation.
Neoplasms
SENP3 regulates the global protein turnover and the Sp1 level via antagonizing SUMO2/3-targeted ubiquitination and degradation.
Neoplasms
SENP3 senses oxidative stress to facilitate STING-dependent dendritic cell antitumor function.
Neoplasms
SENP3-mediated de-conjugation of SUMO2/3 from promyelocytic leukemia is correlated with accelerated cell proliferation under mild oxidative stress.
Neoplasms
SUMO Losing Balance: SUMO Proteases Disrupt SUMO Homeostasis to Facilitate Cancer Development and Progression.
Neoplasms
The Critical Roles of the SUMO-Specific Protease SENP3 in Human Diseases and Clinical Implications.
Neoplasms
Upregulation of SENP3/SMT3IP1 promotes epithelial ovarian cancer progression and forecasts poor prognosis.
Non-alcoholic Fatty Liver Disease
SUMO-specific protease 3 is a key regulator for hepatic lipid metabolism in non-alcoholic fatty liver disease.
Osteosarcoma
High SENP3 Expression Promotes Cell Migration, Invasion, and Proliferation by Modulating DNA Methylation of E-Cadherin in Osteosarcoma.
Ovarian Neoplasms
Upregulation of SENP3/SMT3IP1 promotes epithelial ovarian cancer progression and forecasts poor prognosis.
Prostatic Neoplasms
SUMO Losing Balance: SUMO Proteases Disrupt SUMO Homeostasis to Facilitate Cancer Development and Progression.
Reperfusion Injury
Protective role of the deSUMOylating enzyme SENP3 in myocardial ischemia-reperfusion injury.
Reperfusion Injury
The desumoylating enzyme sentrin-specific protease 3 contributes to myocardial ischemia reperfusion injury.
Sarcoma
High SENP3 Expression Promotes Cell Migration, Invasion, and Proliferation by Modulating DNA Methylation of E-Cadherin in Osteosarcoma.
senp3 peptidase deficiency
DeSUMOylation of MKK7 kinase by the SUMO2/3 protease SENP3 potentiates lipopolysaccharide-induced inflammatory signaling in macrophages.
senp3 peptidase deficiency
SENP3 loss promotes M2 macrophage polarization and breast cancer progression.
senp3 peptidase deficiency
SENP3 Suppresses Osteoclastogenesis by De-conjugating SUMO2/3 from IRF8 in Bone Marrow-Derived Monocytes.
Sepsis
SENP3 in monocytes/macrophages up-regulates tissue factor and mediates lipopolysaccharide-induced acute lung injury by enhancing JNK phosphorylation.
Shock, Septic
DeSUMOylation of MKK7 kinase by the SUMO2/3 protease SENP3 potentiates lipopolysaccharide-induced inflammatory signaling in macrophages.
Spinal Cord Injuries
An upregulation of SENP3 after spinal cord injury: implications for neuronal apoptosis.
Squamous Cell Carcinoma of Head and Neck
Overexpression of SENP3 in oral squamous cell carcinoma and its association with differentiation.
Starvation
A fine-tuning mechanism underlying self-control for autophagy: deSUMOylation of BECN1 by SENP3.
Stomach Neoplasms
De-SUMOylation of FOXC2 by SENP3 promotes the epithelial-mesenchymal transition in gastric cancer cells.
Stomach Neoplasms
SENP3 regulates the global protein turnover and the Sp1 level via antagonizing SUMO2/3-targeted ubiquitination and degradation.
Subarachnoid Hemorrhage
Expression and Cell Distribution of SENP3 in the Cerebral Cortex After Experimental Subarachnoid Hemorrhage in Rats: A Pilot Study.
Subarachnoid Hemorrhage
Inhibition of SENP3 by lentivirus induces suppression of apoptosis in experimental subarachnoid hemorrhage in rats.
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evolution
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the enzyme is a member of the small ubiquitin-like modifier-specific protease family
evolution
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the enzyme is a member of the SUMO-specific protease family
evolution
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the enzyme is a member of the SUMO-specific protease family
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evolution
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the enzyme is a member of the small ubiquitin-like modifier-specific protease family
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malfunction
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depletion of SENP3 by short interfering RNA interferes with nucleolar ribosomal RNA processing and inhibits the conversion of the 32S rRNA species to the 28S form, thus phenocopying the processing defect observed on depletion of nucleophosmin 1 (NPM1)
malfunction
upon depletion of SENP3 the amount of Borealin-SUMO2/3 conjugates is significantly increased
malfunction
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downregulation of SENP3 increases Drp1 SUMO-2/3ylation and decreases its mitochondrial association, which reduces Drp1-dependent cytochrome c release via reduced mitochondrial fission and fragmentation. Depletion of enzyme SENP3 prolongs GTPase Drp1 SUMOylation, which suppresses Drp1-mediated cytochrome c release and caspase-mediated cell death. SENP3 levels recover following reoxygenation after oxygen/glucose deprivation allowing deSUMOylation of Drp1, which facilitates Drp1 localization at mitochondria and promotes fragmentation and cytochrome c release. RNAi knockdown of SENP3 protects cells from reoxygenation-induced cell death via a mechanism that requires Drp1 SUMOylation
malfunction
-
expression of mesenchymal marker genes and cell migration ability are enhanced in SENP3-overexpressing gastric cancer cells and attenuated in SENP3-knockdown cells
malfunction
-
in the absence of SENP3, the association of menin and Ash2L with the DLX3 geneis impaired, leading to decreased H3K4 methylation and reduced recruitment of active RNA polymerase II
metabolism
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correlation between SENP3 expression and gastric cancer metastasis
metabolism
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molecular mechanisms of SUMOylation in the cellular response to oxygen/glucose deprivation, overview
physiological function
SENP3 appears to be a key mediator in mild oxidative stress-induced cell proliferation via regulation of the SUMOylation status of promyelocytic leukemia protein
physiological function
-
SENP3 as an essential factor for ribosome biogenesis. It is suggested that deconjugation of SUMO2 from nucleophosmin 1 (NPM1) by SENP3 is critically involved in 28S rRNA maturation
physiological function
SENP3 is a redox sensor that regulates hypoxia-inducible factor-1alpha transcriptional activity under oxidative stress through the de-SUMOylation of p300
physiological function
-
enzyme SENP3 may play an important role in the development of oral squamous cell carcinoma under oxidative stress
physiological function
-
enzyme SENP3-mediated deSUMOylation of dynamin-related protein 1 promotes cell death following ischaemia
physiological function
-
SUMO-specific isopeptidase SENP3 regulates MLL1/MLL2 methyltransferase complexes and controls osteogenic differentiation of and DLX3 and RUNX2 expression in human dental follicle stem cells. SUMO-specific isopeptidase SENP3 controls H3K4 methylation by regulating histone-modifying SET1/MLL complexes. SET1/MLL complexes are composed of a histone methyltransferase and the regulatory components WDR5, RbBP5, Ash2L, and DPY-30. MLL1/MLL2 complexes contain menin as additional component and are particularly important for the activationof HOX genes
physiological function
-
the enzyme potentiates the transcriptional activity of FOXC2 through deSUMOylation, in favor of the induction of specific mesenchymal gene expression in gastric cancer metastasis. And the enzyme upregulates the transcription of N-cadherin through deSUMOlyation of FOXC2
physiological function
-
the enzyme SENP3 is critical for maintaining the level of SUMOylated and un-SUMOylated substrates required for normal physiology because of its isopeptidase activity, whereby it cleaves the isopeptide bond between SUMO and substrate proteins, as a result, SENP3 may weaken the neuroprotective effect of SUMO-2/3
physiological function
hepatic SENP3 is upregulated in a nonalcoholic fatty liver disease model in vivo and after loading hepatocytes with free fatty acids in vitro. SENP3 gene silencing is associated in vitro with amelioration of lipid accumulation and overexpression with enhancement of lipid accumulation
physiological function
hepatic SENP3 is upregulated in nonalcoholic fatty liver disease patients and after loading hepatocytes with free fatty acids in vitro. SENP3 gene silencing is associated in vitro with amelioration of lipid accumulation and overexpression with enhancement of lipid accumulation. Among SENP3 related genes in nonalcoholic fatty liver disease, apoe, a2m and tnfrsf11b are regulated by SENP3 with free fatty acid stimulation
physiological function
knockdown of SENP3 compromises tight junctions in Sertoli cells by destructing the permeability function with a concomitant decline in trans-epithelial electrical resistance in primary Sertoli cells. SENP3 knockdown disrupts F-actin architecture in Sertoli cells through intervening Rac1/CDC42-N-WASP-Arp2/3 signaling pathway and Profilin-1 abundance
physiological function
SENP3 is a pivotal regulator of regulatory T cells (Treg cells) that functions by controlling the SUMOylation and nuclear localization of transcription factor BACH2. Treg cell-specific deletion of Senp3 results in T cell activation, autoimmune symptoms and enhanced antitumor T cell responses. SENP3-mediated BACH2 deSUMOylation prevents the nuclear export of BACH2, thereby repressing the genes associated with CD4+ T effector cell differentiation and stabilizing Treg cell-specific gene signatures. SENP3 accumulation triggered by reactive oxygen species is involved in Treg cell-mediated tumor immunosuppression
physiological function
-
the enzyme SENP3 is critical for maintaining the level of SUMOylated and un-SUMOylated substrates required for normal physiology because of its isopeptidase activity, whereby it cleaves the isopeptide bond between SUMO and substrate proteins, as a result, SENP3 may weaken the neuroprotective effect of SUMO-2/3
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additional information
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SENP3, a redox-sensitive SUMO2/3-specific protease
additional information
-
the SUMO-2/3-specific protease SENP3 is degraded during oxygen/glucose deprivation, proteolysis of SENP3 requires PERK kinase activity, in vitro modeling of ischaemia, via a pathway involving the unfolded protein response kinase PERK and the lysosomal enzyme cathepsin B, overview. SENP3 degradation does not involve ubiquitination
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Haindl, M.; Harasim, T.; Eick, D.; Muller, S.
The nucleolar SUMO-specific protease SENP3 reverses SUMO modification of nucleophosmin and is required for rRNA processing
EMBO Rep.
9
273-279
2008
Homo sapiens
brenda
Kuo, M.L.; den Besten, W.; Thomas, M.C.; Sherr, C.J.
Arf-induced turnover of the nucleolar nucleophosmin-associated SUMO-2/3 protease Senp3
Cell Cycle
7
3378-3387
2008
Mus musculus (Q9EP97), Mus musculus
brenda
Huang, C.; Han, Y.; Wang, Y.; Sun, X.; Yan, S.; Yeh, E.T.; Chen, Y.; Cang, H.; Li, H.; Shi, G.; Cheng, J.; Tang, X.; Yi, J.
SENP3 is responsible for HIF-1 transactivation under mild oxidative stress via p300 de-SUMOylation
EMBO J.
28
2748-2762
2009
Homo sapiens (Q9H4L4)
brenda
Yan, S.; Sun, X.; Xiang, B.; Cang, H.; Kang, X.; Chen, Y.; Li, H.; Shi, G.; Yeh, E.T.; Wang, B.; Wang, X.; Yi, J.
Redox regulation of the stability of the SUMO protease SENP3 via interactions with CHIP and Hsp90
EMBO J.
29
3773-3786
2010
Homo sapiens (Q9H4L4)
brenda
Han, Y.; Huang, C.; Sun, X.; Xiang, B.; Wang, M.; Yeh, E.T.; Chen, Y.; Li, H.; Shi, G.; Cang, H.; Sun, Y.; Wang, J.; Wang, W.; Gao, F.; Yi, J.
SENP3-mediated de-conjugation of SUMO2/3 from promyelocytic leukemia is correlated with accelerated cell proliferation under mild oxidative stress
J. Biol. Chem.
285
12906-12915
2010
Homo sapiens (Q9H4L4), Homo sapiens
brenda
Yun, C.; Wang, Y.; Mukhopadhyay, D.; Backlund, P.; Kolli, N.; Yergey, A.; Wilkinson, K.D.; Dasso, M.
Nucleolar protein B23/nucleophosmin regulates the vertebrate SUMO pathway through SENP3 and SENP5 proteases
J. Cell Biol.
183
589-595
2008
Homo sapiens
brenda
Klein, U.R.; Haindl, M.; Nigg, E.A.; Muller, S.
RanBP2 and SENP3 function in a mitotic SUMO2/3 conjugation-deconjugation cycle on Borealin
Mol. Biol. Cell
20
410-418
2009
Homo sapiens (Q9H4L4)
brenda
Yang, Y.Q.; Li, H.; Zhang, X.; Wang, C.X.; Sun, Q.; Li, S.; Li, W.; Li, W.; Ding, K.; Liu, M.; Yu, Z.; Hang, C.H.
Expression and cell distribution of SENP3 in the cerebral cortex after experimental subarachnoid hemorrhage in rats: a pilot study
Cell. Mol. Neurobiol.
35
407-416
2015
Rattus norvegicus, Rattus norvegicus Sprague-Dawley
brenda
Yu, Z.; Li, H.; Yan, H.Y.; Yang, Y.Q.; Zhang, D.D.; Huang, L.T.; Xie, G.B.; Liu, M.; Tohti, M.; Hang, C.H.
Expression and cell distribution of SENP3 in brain tissue after traumatic brain injury in mice: a pilot study
Cell. Mol. Neurobiol.
35
733-740
2015
Mus musculus, Mus musculus ICR
brenda
Guo, C.; Hildick, K.L.; Luo, J.; Dearden, L.; Wilkinson, K.A.; Henley, J.M.
SENP3-mediated deSUMOylation of dynamin-related protein 1 promotes cell death following ischaemia
EMBO J.
32
1514-1528
2013
Homo sapiens
brenda
Nayak, A.; Viale-Bouroncle, S.; Morsczeck, C.; Muller, S.
The SUMO-specific isopeptidase SENP3 regulates MLL1/MLL2 methyltransferase complexes and controls osteogenic differentiation
Mol. Cell
55
47-58
2014
Homo sapiens
brenda
Sun, Z.; Hu, S.; Luo, Q.; Ye, D.; Hu, D.; Chen, F.
Overexpression of SENP3 in oral squamous cell carcinoma and its association with differentiation
Oncol. Rep.
29
1701-1706
2013
Homo sapiens
brenda
Ren, Y.H.; Liu, K.J.; Wang, M.; Yu, Y.N.; Yang, K.; Chen, Q.; Yu, B.; Wang, W.; Li, Q.W.; Wang, J.; Hou, Z.Y.; Fang, J.Y.; Yeh, E.T.; Yang, J.; Yi, J.
De-SUMOylation of FOXC2 by SENP3 promotes the epithelial-mesenchymal transition in gastric cancer cells
Oncotarget
5
7093-7104
2014
Homo sapiens
brenda
Akiyama, H.; Nakadate, K.; Sakakibara, S.I.
Synaptic localization of the SUMOylation-regulating protease SENP5 in the adult mouse brain
J. Comp. Neurol.
526
990-1005
2018
Mus musculus (Q9EP97), Mus musculus
brenda
Yu, X.; Lao, Y.; Teng, X.L.; Li, S.; Zhou, Y.; Wang, F.; Guo, X.; Deng, S.; Chang, Y.; Wu, X.; Liu, Z.; Chen, L.; Lu, L.M.; Cheng, J.; Li, B.; Su, B.; Jiang, J.; Li, H.B.; Huang, C.; Yi, J.; Zou, Q.
SENP3 maintains the stability and function of regulatory T cells via BACH2 deSUMOylation
Nat. Commun.
9
3157
2018
Mus musculus (Q9EP97)
brenda
Wu, D.; Huang, C.J.; Khan, F.A.; Jiao, X.F.; Liu, X.M.; Pandupuspitasari, N.S.; Brohi, R.D.; Huo, L.J.
SENP3 grants tight junction integrity and cytoskeleton architecture in mouse Sertoli cells
Oncotarget
8
58430-58442
2017
Mus musculus (Q9EP97), Mus musculus
brenda
Liu, Y.; Yu, F.; Han, Y.; Li, Q.; Cao, Z.; Xiang, X.; Jiang, S.; Wang, X.; Lu, J.; Lai, R.; Wang, H.; Cai, W.; Bao, S.; Xie, Q.
SUMO-specific protease 3 is a key regulator for hepatic lipid metabolism in non-alcoholic fatty liver disease
Sci. Rep.
6
37351
2016
Rattus norvegicus (G3V7S5), Homo sapiens (Q9H4L4), Homo sapiens
brenda