sameAs
BCL2-associated X proteinMitofusin 2BCL2 related protein A1Fission, mitochondrial 1Mitochondrial elongation factor 2Mitochondrial elongation factor 1Mitoguardin 2Mitoguardin 1OPA1 mitochondrial dynamin like GTPaseCoiled-coil-helix-coiled-coil-helix domain containing 3AFG3 like matrix AAA peptidase subunit 2Mitoguardin-2Suppressor of tumorigenicity 20Phospholipase D family member 6Ubiquitin specific peptidase 30Ganglioside induced differentiation associated protein 1Mitofusin 1AFG3-like AAA ATPase 1Coiled-coil-helix-coiled-coil-helix domain containing 3Ganglioside-induced differentiation-associated-protein 1Fission, mitochondrial 1Mitochondrial fission factorB cell leukemia/lymphoma 2 related protein A1aBCL2-antagonist/killer 1Mitoguardin 1Mitoguardin 2AFG3-like AAA ATPase 2Phospholipase D family, member 6Mitofusin 1OPA1, mitochondrial dynamin like GTPaseUbiquitin specific peptidase 30SCF ubiquitin ligase complex subunit MDM30 YLR368WAAA family ATPase AFG3 YER017CM-AAA protease subunit YTA12 YMR089CUgo1p YDR470CMitofusin YBR179CDynamin-related GTPase MGM1 YOR211CMitochondrial fission factorUbiquitin specific peptidase 30Mitofusin 1
P682
ChChd3, an inner mitochondrial membrane protein, is essential for maintaining crista integrity and mitochondrial functionQuantitation of mitochondrial dynamics by photolabeling of individual organelles shows that mitochondrial fusion is blocked during the Bax activation phase of apoptosisThe BH3-only Bnip3 binds to the dynamin Opa1 to promote mitochondrial fragmentation and apoptosis by distinct mechanismsDominant GDAP1 mutations cause predominantly mild CMT phenotypesAdaptor proteins MiD49 and MiD51 can act independently of Mff and Fis1 in Drp1 recruitment and are specific for mitochondrial fission.MFN1 structures reveal nucleotide-triggered dimerization critical for mitochondrial fusionHigh-throughput detection and quantification of mitochondrial fusion through imaging flow cytometry.A mitochondrial division apparatus takes shape.A yeast-based screening assay identifies repurposed drugs that suppress mitochondrial fusion and mtDNA maintenance defects-Related Mitochondrial DNA Depletion Syndrome 13 (MTDPS13): A Case Report With a Comprehensive Mutation Review
P921
Q14905404-69C07627-70DA-4D75-B5C0-A1655D22B8E3Q14905404-8E147591-6853-4758-B2F1-F86981EA9135Q15334427-9D797587-EADC-4DDB-B5FC-96B281DD4F05Q15334427-C20E3B1C-7100-4894-A383-53DD5D84089EQ21100281-40C71471-9B4A-4BA9-A6D6-51299F2806E0Q21100434-AD610A80-B8FD-40C7-A896-873761518B43Q21105366-67DB2584-A2A4-4814-BD88-D8A95742E203Q21105388-8BD4CD53-C79E-4550-A6E1-AE4FCC0BF53DQ21105966-229A2853-16EE-497B-95F3-BD384884D66BQ21105974-19DEE07E-EC86-4B48-973C-7F48E51E731DQ21106682-2A8C9B80-CA11-4F38-BF52-7D572E5349ABQ21112573-27ACDFFD-2C3E-46EB-A0D1-1D120377F472Q21116440-870104EE-29D9-4D2C-BB77-78992913985EQ21116440-94E177FB-7720-49B6-862D-15651021C463Q21117897-7F73E05F-6B4A-45BB-B832-3ACD10149D50Q21122150-57405F7F-581C-4671-B049-D8FE373309DAQ21124923-5F3D0EC3-3DCE-45F8-9F24-533DC3935E24Q21125557-142C36C3-3D80-4C79-B8D0-636920E4C94CQ21133117-3216D2B4-2AF5-4E21-B7A6-0394AF5863FCQ21133117-9A892EF5-4171-49D0-B119-97D2310DABB4Q21133189-5C731CC3-E5A9-46D6-8FF9-B6B040B39330Q21133189-8F20A28A-DEE0-487D-97EB-4F4905588E56Q21432062-02B488F7-F466-42FB-B2A3-3B542BE3923DQ21432062-D5842B86-865B-4451-906F-FAAEC08EC713Q21433573-15E381AA-C882-4121-9110-1D1ACDB6DCF9Q21433573-C7C2BB56-6FDC-4028-982E-13853F359EE2Q21495752-22D92702-235F-4A5F-8C19-EB5B9130FE8BQ21495752-8E01AAE2-6F8B-4AD8-B66E-C78F90DB4ED3Q21496377-990B5D8B-029A-43D2-B745-0FC25899DF76Q21496599-D3A11B49-7189-45A6-A33F-02398B3850DEQ21497055-531096A8-FBC0-4F5B-84C6-1B91D0EC5A95Q21497080-C83B3CBC-4B55-4B7D-A201-5B2BC3B57175Q21497657-307ECFC8-7B57-4F3D-9FF9-F1387EDF448AQ21497688-EF7F60F4-60A3-4088-9D4C-2806C7615EFEQ21984958-00A9B707-B918-4179-8824-2F85B0E070C1Q21984958-878988BF-931D-4B2F-AD76-CBC087D98035Q21985214-06A3AFA7-1C7A-472D-9CAC-57AF2CE2C535Q21985697-D81F5DBB-8776-440D-900D-5A2F846BAD04Q21985697-F337E62D-7942-4D3D-A7E3-E1C595F7F7E2Q21987346-77871570-3484-4C80-A18A-C8FC22236F9A
P682
Q24307501-A880C994-F6E1-4335-8ADD-77F9E21A9262Q24307662-95DA454A-671E-4DA0-88D0-50E0C6303462Q24309355-F9E40F71-806B-4823-8ABF-C9CEF4B7359CQ24313568-DE6A0759-39BD-46E5-83E4-12140DFD9E10Q24315659-779AAA51-CEE5-4288-9A3D-A277AD0916ADQ28854598-00CC5192-13AF-4459-9E6A-A9C113487102Q30276405-FD6D4003-9574-4D5F-8DAC-4B380EFF7307Q36366917-B89E5818-CAE2-442A-8C8E-9675ECDDDC58Q63359481-77A9240B-E41B-4AC5-817C-5A12560225D5Q64040273-D3F5C6FB-460B-40E9-8444-02F96AFC18A5
P921
description
Merging of two or more mitochondria within a cell to form a single compartment.
@en
biologisch proces
@nl
name
mitochondrial fusion
@en
type
label
mitochondrial fusion
@en
altLabel
GO:0008053
@en
Mitochondrial fusion
@en
prefLabel
mitochondrial fusion
@en
P6366
P2888
P6366
P686
GO:0008053