about
Demethyl-Q 7BCL2-associated X proteinCeramide transporter 1Fission, mitochondrial 1Dynamin 1 likeDNA polymerase gamma 2, accessory subunitDNA polymerase delta interacting protein 2Phosphotyrosine interaction domain containing 1OPA1 mitochondrial dynamin like GTPaseSuv3 like RNA helicaseFasciculation and elongation protein zeta 1SRA stem-loop interacting RNA binding proteinOuter mitochondrial membrane lipid metabolism regulator OPA3Polyribonucleotide nucleotidyltransferase 1Pantothenate kinase 2Nucleotide binding protein likeSingle stranded DNA binding protein 1Myosin heavy chain 14NADH:ubiquinone oxidoreductase subunit S6BCL2 like 1Optic atrophy 3Major urinary protein 9Major urinary protein 18Major urinary protein 3Major urinary protein 12Major urinary protein 2Major urinary protein 4Major urinary protein 5Major urinary protein 20X-linked myotubular myopathy gene 1Collagen, type IV, alpha 3 (Goodpasture antigen) binding proteinFission, mitochondrial 1Mitochondrial fission factorBCL2-like 1Polymerase (DNA directed), gamma 2, accessory subunitDynamin 1-likeFasciculation and elongation protein zeta 1 (zygin I)Mitofusin 1OPA1, mitochondrial dynamin like GTPaseMyosin, heavy polypeptide 14
P682
Myotubularin controls desmin intermediate filament architecture and mitochondrial dynamics in human and mouse skeletal muscle.Mff is an essential factor for mitochondrial recruitment of Drp1 during mitochondrial fission in mammalian cellsHuman ind1, an iron-sulfur cluster assembly factor for respiratory complex IThe mitochondrial outer membrane protein hFis1 regulates mitochondrial morphology and fission through self-interaction
P921
Q14872698-DD7A477D-3AFF-44D3-9542-D71EB0DEC448Q14905404-2B028E20-F9BD-4F02-90FF-6540E775DDCBQ21096462-6D209997-3641-442A-888F-FA64C448B9E7Q21100434-5C738555-17F6-4C70-B501-7FA0F6A1B033Q21101107-12F7B301-8788-46F4-BA66-62C71E5C39EDQ21101107-DB472C91-E67E-4050-AEFB-43C2D00BBB8BQ21101142-B4C25F20-BE07-49A8-B38E-4AAD65D3794AQ21103350-14D86B6B-36A0-4631-8ADF-2ADA44C3C55EQ21106619-DE1F7260-DBD3-4E40-A6DC-82A440A80DF5Q21106682-B1883361-F50B-4AB1-97C0-1D79CBA7CE59Q21108924-2BA2520D-FBE0-43D9-8141-E69113F348A0Q21117170-517EE632-9DFB-4EA9-9764-C0FC813F1C45Q21118561-1FA4911D-18BC-49B9-B112-990A100E1F4CQ21118561-97DD633C-B83C-4048-B87A-1387AF026C47Q21119630-163E0832-0184-49D9-A671-B46D03AE2A4FQ21123297-C0C2F82C-8700-44ED-9FBF-DB481B7A0A90Q21123728-4F7D1BFC-536E-466C-BA31-115B08F7B741Q21124907-57CCC2C1-BD9C-4679-8B2A-B49DFF5E98BFQ21126973-541CB91E-1B87-4092-9D3F-482163AD1F6FQ21133304-295F8CA0-A21D-4790-95E7-6EA2EBD534BCQ21133390-1A67151A-3F3A-4039-BEAB-C20B2CCD3647Q21173156-6ED31B66-3ABA-4F15-914D-4D7ECB4557F6Q21435799-EA1463CE-47C3-46F5-AB46-F245D849F3D6Q21438137-E27526DA-46F6-4EC9-9D7B-654F2C3AC5D8Q21438138-6EDF216B-51CE-4DA5-84C5-D2FE47CE1D97Q21438140-E5D6185F-6036-4231-9CC5-EE184AC2FBA1Q21438142-08DB2E27-8CFC-4B40-B76C-E81DBAC4E5ADQ21438143-A8F4FB89-0B40-4CC4-A41D-42F04E039F59Q21438144-02E3259A-D9BD-4390-9301-B100E31B048EQ21438145-A76B3FBD-545C-4BBD-A567-5696651ECC40Q21438148-77274FD7-1A6E-4B16-BAE3-7488E240D64FQ21493985-97D470B5-AC0C-4C03-9BC4-8BEE993E3B9FQ21494917-3E54CB74-F747-429A-8217-A5B35225C35CQ21496377-004F6F36-865D-463B-A838-7AB38CDF1089Q21496599-4ABC9C78-D9AC-4050-8651-1E1E7A03F898Q21497061-057A2E33-04A1-4FDA-8570-D35404618CE5Q21497510-650246D9-D75F-46A7-B427-253F8C292D52Q21984174-0F7D3541-BDE7-4002-A09E-453E386996F7Q21984174-B74DB0D7-A3C3-4D6A-BB33-368CF147C6CDQ21985336-1CEBD75C-2FEA-42DD-B53F-F7D188CD5A34
P682
description
The process in which the anato ...... n are generated and organized.
@en
biologisch proces
@nl
name
mitochondrion morphogenesis
@en
type
label
mitochondrion morphogenesis
@en
altLabel
GO:0070584
@en
prefLabel
mitochondrion morphogenesis
@en
P2888
P686
GO:0070584