about
Microtubule-associated protein tauLeucine-rich repeat kinase 2Dynamin 1 likeOPA1 mitochondrial dynamin like GTPaseLysine acetyltransferase 2AClustered mitochondria homologBasic helix-loop-helix family member a15Putative GED domain-containing protein DNM1P34Synaptojanin 2 binding proteinBasic helix-loop-helix family, member a15Clustered mitochondria (cluA/CLU1) homologPredicted gene 20498Dynamin 1-likeK(lysine) acetyltransferase 2AMitofusin 1OPA1, mitochondrial dynamin like GTPaseO-linked N-acetylglucosamine (GlcNAc) transferase (UDP-N-acetylglucosamine:polypeptide-N-acetylglucosaminyl transferase)Synaptojanin 2Translation initiation factor 3 subunit CLU1 YMR012WSynaptojanin 2 binding proteinMitofusin 1OPA1, mitochondrial dynamin like GTPaseBasic helix-loop-helix family, member a15O-linked N-acetylglucosamine (GlcNAc) transferaseDynamin 1-likeSynaptojanin 2Lysine acetyltransferase 2ALeucine-rich repeat kinase 2Clustered mitochondria protein homolog CELE_F55H2.6Clueless Dmel_CG8443Tout-velu Dmel_CG10117Dynamin related protein 1 Dmel_CG3210Sulfateless Dmel_CG8339Kinesin heavy chain Dmel_CG7765PTEN-induced putative kinase 1 Dmel_CG4523Si:dkey-32e23.4Clustered mitochondria (cluA/CLU1) homolog aDynamin 1-likeLeucine rich repeat kinase 2Microtubule associated protein tau
P682
CLUH regulates mitochondrial biogenesis by binding mRNAs of nuclear-encoded mitochondrial proteinsLRRK2 kinase regulates synaptic morphology through distinct substrates at the presynaptic and postsynaptic compartments of the Drosophila neuromuscular junctionTau accumulation causes mitochondrial distribution deficits in neurons in a mouse model of tauopathy and in human Alzheimer's disease brain
P921
Q14865311-AC9EBFF1-3DC0-42F9-818A-81501D148C64Q15331171-0E5D1D96-FFC3-4708-98F2-389136BFA7CFQ21101107-7843239D-898E-48D9-B595-433DAC2E95DEQ21106682-1C6180A9-E3E3-420D-8C1D-70457F16E095Q21110334-AF20A37C-3E7A-4C9E-A8A8-2AEB5D9B2192Q21111944-117DA385-8EF5-42A4-A2E7-219912E0CD75Q21111944-EE8875CE-268A-4630-BF98-5CFC297E06FAQ21115508-03C37C47-04AC-4E6A-A929-E510A6FCCAC5Q21117497-CEB0F493-E258-4328-873D-2715B18A2F99Q21135064-5316B632-8401-488F-98DE-D4AA1B2E3A43Q21493982-A5DD7428-B7F2-4DB4-8054-EEB68BE03843Q21495462-DC74CE72-741A-4ADE-8B05-4F44F6444A14Q21495462-ECA1B8E6-8D7E-4FA9-BE2D-253C3EE0DC20Q21495926-BF876350-8012-4F9E-9A8D-E9D0B2EB21CEQ21984174-5F2BE2A4-F072-4266-AFB5-354B502F0F26Q21984174-E3BD7660-B973-4B04-9AC2-DE4C081FC25DQ21985608-9677AD57-A280-4958-8982-DA64C0ABC7C5Q21985697-00D4C1AB-30F8-482E-98CD-7F6B1882D472Q21987346-E3A06FD8-5FE2-4019-A069-F33AC60BAF13Q21988878-9223F073-199C-4800-9DA3-1ED81FC38BD1Q21991778-59EBCD0D-9011-4801-87A4-B10CBFB82C6CQ27552261-0EE7628B-756A-4D3B-AA8F-192341337164Q27552261-EE987111-7079-4061-A884-23F3F723F9F9Q28557327-D692D34B-CF0C-4271-9125-04B633701C18Q28557837-0B1B93EB-3C15-4473-AC05-82BAE18BC425Q28560345-69D61646-7903-4B78-9D1C-8269FDCDC073Q28560802-723FEF8F-7368-40CB-9223-E857BB766A90Q28562520-D78F7143-206D-4DE9-8576-EF3FEA9AA0B7Q28563061-A0B6D759-D913-4226-8B02-EA4708FCAE08Q28563219-930736A4-B4BB-485C-846B-033FFF5BE1ABQ29515988-803D4C0A-AAC0-43EA-BFB9-32ED64871E39Q29518499-7A044AB1-EF39-481A-8CE3-F2EB8E429EC2Q29808015-053F3D09-6B5C-4683-8145-BD5ADC73235CQ29808015-8CFEB2D2-D030-4900-BB22-B29D6030C0FDQ29811668-0635B4E2-439C-4C5E-9A68-0AF68E12F87FQ29811668-37FCB507-7588-46B7-8B42-0039B3903280Q29814757-4090815E-94F4-41CA-A58B-9A9DA30F7F71Q29815763-1180951A-AE71-4B36-914C-8C65660864F4Q29817883-DC536D7C-EBFD-4251-B9C9-933C5EF3E1BCQ29817883-E0F09BAF-178B-4912-BA12-5CE93B7B8422
P682
description
Any process that establishes the spatial arrangement of mitochondria within the cell.
@en
biologisch proces
@nl
name
intracellular distribution of mitochondria
@en
type
label
intracellular distribution of mitochondria
@en
altLabel
GO:0048312
@en
mitochondria positioning within cell
@en
mitochondrion positioning within cell
@en
prefLabel
intracellular distribution of mitochondria
@en
P2888
P686
GO:0048312