about
B cell leukemia/lymphoma 2Parkin RBR E3 ubiquitin protein ligaseHuntingtinBCL2-associated X proteinSuperoxide dismutase 1, solubleSuperoxide dismutase 2, mitochondrialSuperoxide dismutase 1Parkinsonism associated deglycasePhosphotyrosine interaction domain containing 1Inorganic pyrophosphatase 2NADH:ubiquinone oxidoreductase core subunit S1Chloride intracellular channel 1PTEN induced kinase 1Ubiquitin BPeptidylprolyl isomerase DPeroxiredoxin 3Storkhead box 1Opioid receptor delta 1Adenosine A2a receptorBeta-carotene oxygenase 2Retrotransposon Gag like 10Pyrroline-5-carboxylate reductase 1Uncoupling protein 2Solute carrier family 25 member 36Solute carrier family 25 member 33Pantothenate kinase 2Mitochondrial E3 ubiquitin protein ligase 1Tumor suppressor 2, mitochondrial calcium regulatorPRELI domain containing 1Solute carrier family 25 member 27BCL2 like 1SpartinChloride intracellular channel 1Pyrroline-5-carboxylate reductase 1BCL2-like 1BCL2-antagonist/killer 1Adenosine A2a receptorTumor suppressor 2, mitochondrial calcium regulatorBeta-carotene oxygenase 2Mitochondrial ubiquitin ligase activator of NFKB 1
P682
Bax interacts with the permeability transition pore to induce permeability transition and cytochrome c release in isolated mitochondriaMitochondrial damage due to SOD1 deficiency in SH-SY5Y neuroblastoma cells: a rationale for the redundancy of SOD1The c-Myc target gene PRDX3 is required for mitochondrial homeostasis and neoplastic transformationSPG20 protein spartin associates with cardiolipin via its plant-related senescence domain and regulates mitochondrial Ca2+ homeostasisThe human SLC25A33 and SLC25A36 genes of solute carrier family 25 encode two mitochondrial pyrimidine nucleotide transportersBiallelic PPA2 Mutations Cause Sudden Unexpected Cardiac Arrest in Infancy
P921
Q14863583-A424E3F8-6189-4BA5-A1A6-C02BD4C7D17EQ14864264-FC80347E-D6ED-44C4-9656-BBA0CEFAB31AQ14882525-DB86F82E-3087-418A-962B-AC5655A611CBQ14905404-40B9BACE-8A3D-4F89-8C68-8207C1CFC57EQ15328173-E85C1F7B-4999-4482-AB90-5485067DB85FQ15335644-D2FD1D2B-F393-4599-92DD-E604C61845DEQ2041084-A3753799-0111-47B9-91E1-C42C45F3F4D6Q21097342-AE2CD39D-64D3-4466-9288-1C5D05DEB4F5Q21106619-93B0BD76-E2C1-4C04-8187-8FABF7BFD3D2Q21107733-0790EEAE-3CFE-439A-9A24-A11579F0E71EQ21107733-130BCAA0-89C9-42B8-918B-2686573B3ABBQ21109055-159F23AB-B252-4406-904F-9BAAF0AF5635Q21109779-2A8FF335-0C28-4610-AE5E-03F8E5DB7958Q21112306-954BCD3F-4C9E-4044-9BD7-18357D9A956DQ21112968-68FAF71D-DE3D-4287-B4E6-E14F7546DD37Q21114583-CBD85B8D-4BF6-4638-982D-7B3447362131Q21114645-144D5CB4-05C8-4471-978F-B9D68FA8E894Q21114664-51A68733-9523-472A-B850-DEEA0468D594Q21115334-E15CFD6B-0170-473E-AA36-265CBA1C7F6AQ21116162-9C71C549-D8A3-4D88-BF42-A4C55D7CF212Q21116859-249AFE8A-063D-480F-BF1A-77E9CA2E5442Q21116892-6EA3131C-5A10-40ED-B7CA-3CF039FCB3B3Q21119668-B7A5B0AE-3BF8-42DF-B30D-6DB49DDCC3B4Q21120688-02669D85-CC2D-4520-AF74-D685DD5F0C9BQ21121338-AE06BF8F-45CD-4B9A-810A-03401CD4FBB3Q21121343-1E7C12CB-E97E-402F-B20F-E66BEA857B1FQ21123728-BD4062F6-2ECA-4A1C-8C5A-5EFA0BD212DFQ21131737-A380C141-A463-445F-B13C-8CF0E226E234Q21133288-4ABE1455-DEEA-4039-BDC5-D11A14476EA1Q21133422-E55A708B-E761-48CF-B7A9-76300C8D3016Q21135173-8C219385-2EBC-4241-86B6-EC67019ED209Q21173156-B808CADD-743E-4A47-AD6F-A42EE42EF525Q21173833-98EB0E96-9F0D-410C-9F03-35761973F9DAQ21495121-7E45F0D8-9EBC-40AF-906E-AF0BC30760DEQ21496663-52247ED2-7FF7-4CE1-B6FD-878ADE6E9A94Q21497061-FB77D91A-2667-4F3F-A353-0461ECD93164Q21497080-6CA6A14D-953D-48B0-9C6E-4101448DDF11Q21498708-A0C61F8C-1E43-4B5D-B477-32D9DA428A4DQ21980272-5402F094-63DC-45DF-91E9-FA3EAD15263CQ21984742-892A3243-75FC-4CB7-8429-2DBE1E8F795F
P682
description
Any process that modulates the ...... harges present in the media on
@en
biologisch proces
@nl
name
regulation of mitochondrial membrane potential
@en
type
label
regulation of mitochondrial membrane potential
@en
altLabel
GO:0051881
@en
prefLabel
regulation of mitochondrial membrane potential
@en
P2888
P686
GO:0051881