about
Acyl-CoA thioesterase 8Acyl-CoA oxidase 1Fission, mitochondrial 1Dynamin 1 likePeroxisomal biogenesis factor 11 alphaPeroxisomal biogenesis factor 11 gammaPeroxisomal biogenesis factor 11 betaSEC16 homolog B, endoplasmic reticulum export factorPeroxisomal biogenesis factor 19Dynamin-1-like proteinFission, mitochondrial 1Mitochondrial fission factorPeroxisomal biogenesis factor 19Dynamin 1-likeAcyl-CoA thioesterase 8Acyl-Coenzyme A oxidase 1, palmitoylPeroxisomal biogenesis factor 11 gammaPeroxisomal biogenesis factor 11 betaPeroxisomal biogenesis factor 11 alphaSEC16 homolog B (S. cerevisiae)Pex25p YPL112CProteasome regulatory particle lid subunit RPN11 YFR004WDynamin-like GTPase VPS1 YKR001CDynamin-related GTPase DNM1 YLL001WPex27p YOR193WCaf4p YKR036CMdv1p YJL112WPex11p YOL147CFis1p YIL065CDynamin-related GTPase MGM1 YOR211CFission, mitochondrial 1SEC16 homolog B, endoplasmic reticulum export factorPeroxisomal biogenesis factor 11 alphaDynamin 1-likePeroxisomal biogenesis factor 11 gammaPeroxisomal biogenesis factor 11 betaPeRoXisome assembly factor CELE_C47B2.8Mitochondrial fission 1 protein CELE_F41G3.4Peroxin 11 Dmel_CG8315Dynamin related protein 1 Dmel_CG3210
P682
Expression of PEX11beta mediates peroxisome proliferation in the absence of extracellular stimuliThe dynamin-like GTPase DLP1 is essential for peroxisome division and is recruited to peroxisomes in part by PEX11A role for Fis1 in both mitochondrial and peroxisomal fission in mammalian cells.Peroxisome biogenesis.Peroxisome biogenesis and the role of protein import.
P921
Q21096276-83856F02-AFB5-40C7-B09D-1CEA86A3299AQ21096304-8CB885B9-3696-4565-A2C5-4B6067580F00Q21100434-4829AA77-F15C-49B5-ABC0-EF4896C86D03Q21100434-D48D3E39-7202-4D41-A045-901C8B5A0CF2Q21101107-DE30142E-CD53-4538-ACCF-F73E32F66ED4Q21121187-BB4C07AD-4333-46A6-9DF3-7BFBBBCB0C95Q21121187-FA72F4AA-2AF9-4B6A-8B58-F66DC9B8859EQ21121194-D6DA471E-51F2-4EDC-B628-84DDFC75FC2CQ21122490-58336083-9238-4311-96DB-14AEA7031FD5Q21122490-665E83A7-181C-44A5-B3C0-2D563AF2D53EQ21126294-9019292B-647B-4667-B4CB-A482EF795AD7Q21140646-D0B178B2-3F23-475E-9157-C184D528E8E4Q21145912-C318D6C6-A290-43A8-B655-AA8C27F43686Q21496377-3EA49396-86A8-4939-99F5-5FB17DF54856Q21496377-9B39FFC3-EF65-4FC5-B376-1C65F2E4035BQ21496599-DDAE24F9-D58D-494A-9FFA-F7B8731216FCQ21499019-97BEC7D4-DFBB-4CEB-BA0F-E55A4F4408BFQ21984174-F753B0F2-69B5-4253-A9B0-7560F45A2E36Q21984351-B336D0A8-272D-46CC-8434-80F139B0FD4AQ21984352-FA76E114-2D10-4883-B13A-8DC08843C2CDQ21986321-5F90A424-362C-44E0-91DE-991F17DA6BE3Q21986335-4B676716-9011-4EBE-AA69-D925AF405E72Q21986336-72262CDA-6CC6-4B0E-8FDD-7BBB0DD3707FQ21991118-A1B298BC-3953-4E13-8B0A-2494C77716C8Q27547311-14AEFEB1-DDF3-4019-AA00-4518863C1F01Q27547318-3A3C6750-30A7-421B-B865-509A1BA9EF19Q27547457-C7E9B58D-F86B-42EC-B63C-17A673286547Q27547457-D4ADFAD8-FC10-4EE5-9E66-3C4FFC9218AFQ27547502-0742DBFE-7766-45C2-BE9F-463793F3462FQ27547502-49530507-98E1-4C6C-8CF5-1F652F747405Q27549318-E2C1C73E-41FE-4263-B7FE-F6D3D0297948Q27549760-CE6B0FF4-ADDD-4F74-AAAB-A4A2B1E789E9Q27549760-DCB62553-7DEA-47EA-81DC-54FD581156DBQ27550513-9ADB240D-DD46-4E37-AC99-E1C3EDE0D9C0Q27550611-56505B7F-82BD-4AAB-BEE3-285274FC8E8BQ27550611-B6050FBB-C543-4462-89F8-8696BBBAC995Q27551138-D7B8969D-6094-4C8C-8731-DAFF90F5F757Q27551138-E861E41E-F52E-469F-A8F1-184543E737A9Q27553052-2670714C-8A97-42F0-ACDD-19ECF6F1413CQ28559087-1B53A028-98D8-48FE-BE31-650389C829F2
P682
description
The division of a mature perox ...... arate peroxisome compartments.
@en
biologisch proces
@nl
name
peroxisome fission
@en
type
label
peroxisome fission
@en
altLabel
GO:0016559
@en
peroxisome division
@en
peroxisome proliferation
@en
prefLabel
peroxisome fission
@en
P2888
P686
GO:0016559