Membrane lysis during biological membrane fusion: collateral damage by misregulated fusion machines.
about
Tks5-dependent formation of circumferential podosomes/invadopodia mediates cell-cell fusionLipid mixing and content release in single-vesicle, SNARE-driven fusion assay with 1-5 ms resolution.The yeast cell fusion protein Prm1p requires covalent dimerization to promote membrane fusionVps-C complexes: gatekeepers of endolysosomal traffic.Genetic basis of cell-cell fusion mechanisms.Structure of sterol aliphatic chains affects yeast cell shape and cell fusion during mating.Cell-penetrating peptide induces leaky fusion of liposomes containing late endosome-specific anionic lipid.Mitofusins and the mitochondrial permeability transition: the potential downside of mitochondrial fusionLine-tension controlled mechanism for influenza fusion.Identification and characterization of LFD-2, a predicted fringe protein required for membrane integrity during cell fusion in neurospora crassa.Membrane fusion catalyzed by a Rab, SNAREs, and SNARE chaperones is accompanied by enhanced permeability to small molecules and by lysis.Cardiomyocyte deletion of mitofusin-1 leads to mitochondrial fragmentation and improves tolerance to ROS-induced mitochondrial dysfunction and cell deathWhere killers meet--permeabilization of the outer mitochondrial membrane during apoptosis.Regulation of cation balance in Saccharomyces cerevisiaeProtein quality control in the ER: balancing the ubiquitin checkbook.Cell biology of yeast zygotes, from genesis to budding.The potential of toxin-based drug delivery systems for enhanced nucleic acid therapeutic delivery.Switching between Successful and Dead-End Intermediates in Membrane Fusion.
P2860
Q24322030-CBF15A0C-1DFA-4463-B891-3DC585FB4C90Q33446904-D079F3BE-AB26-475B-8A50-490F6C480645Q33582274-F1CF4A3D-C30A-4C0F-A0ED-0D56B728BBCBQ33595195-7FC7A5C3-4021-4E76-B12F-7E4E60FF33C6Q33615735-31B7BD76-9C3A-4D10-8D04-8E795364D1BEQ33733035-5662CF8C-A71B-4632-A1FD-E90CEF5F6EF5Q34202149-3EA08D18-D289-47DE-B6E9-5381D549583CQ34277591-705F3CB5-00CF-4FF4-B169-06F3CA0B84D9Q34325691-F00096DE-15BF-45D0-A817-1675B8A11F82Q35137934-1C32C223-D14B-4F06-9153-E63B1FBC2F47Q35579819-0B11B5F7-918A-4358-877B-C63D07135938Q35906435-8FFB58F0-5DA6-4B2D-BB24-ED7FDBCD9345Q36629743-5C05E6BE-5EB6-43AA-BBDD-3A3C9FF9918FQ36643830-87642024-CFDA-4075-B9DD-4D256F84D395Q37953004-A73E9EA5-B09D-4B66-B6CC-62DBFC8864A5Q38415511-5BA449B9-1785-4849-819B-F66463F2F708Q38934039-35A73842-E522-4DA7-A0F5-C278ECBD7446Q47281813-D4B2914E-C3C2-4A22-9D84-9730C6F379F8
P2860
Membrane lysis during biological membrane fusion: collateral damage by misregulated fusion machines.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 13 October 2008
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Membrane lysis during biologic ...... misregulated fusion machines.
@en
Membrane lysis during biologic ...... misregulated fusion machines.
@nl
type
label
Membrane lysis during biologic ...... misregulated fusion machines.
@en
Membrane lysis during biologic ...... misregulated fusion machines.
@nl
prefLabel
Membrane lysis during biologic ...... misregulated fusion machines.
@en
Membrane lysis during biologic ...... misregulated fusion machines.
@nl
P2860
P921
P356
P1476
Membrane lysis during biologic ...... misregulated fusion machines.
@en
P2093
Alex Engel
Peter Walter
P2860
P304
P356
10.1083/JCB.200805182
P407
P577
2008-10-13T00:00:00Z
2008-10-20T00:00:00Z