Molecular machinery mediating vesicle budding, docking and fusion

Söllner, T. H. ; Rothman, J. E.
Springer
Published 1996
ISSN:
1420-9071
Keywords:
Vesicle budding and fusion ; ARF ; coat proteins ; cargo receptor ; NSF ; SNAP ; SNARE
Source:
Springer Online Journal Archives 1860-2000
Topics:
Biology
Medicine
Notes:
Abstract A general machinery buds and fuses transport vesicles which connect intracellular compartments with each other and allow communication with the extracellular environment. Cytoplasmic coat proteins deform membranes to bud vesicles and interact directly or indirectly with cargo molecules. Compartment-specific SNAREs (SNAP receptors) on vesicles and target membranes dock vesicles and provide a scaffolding for the general fusion machinery to initiate lipid bilayer fusion.
Type of Medium:
Electronic Resource
URL:
_version_ 1798295347925090305
autor Söllner, T. H.
Rothman, J. E.
autorsonst Söllner, T. H.
Rothman, J. E.
book_url http://dx.doi.org/10.1007/BF01952097
datenlieferant nat_lic_papers
hauptsatz hsatz_simple
identnr NLM189399724
issn 1420-9071
journal_name Cellular and molecular life sciences
materialart 1
notes Abstract A general machinery buds and fuses transport vesicles which connect intracellular compartments with each other and allow communication with the extracellular environment. Cytoplasmic coat proteins deform membranes to bud vesicles and interact directly or indirectly with cargo molecules. Compartment-specific SNAREs (SNAP receptors) on vesicles and target membranes dock vesicles and provide a scaffolding for the general fusion machinery to initiate lipid bilayer fusion.
package_name Springer
publikationsjahr_anzeige 1996
publikationsjahr_facette 1996
publikationsjahr_intervall 8004:1995-1999
publikationsjahr_sort 1996
publisher Springer
reference 52 (1996), S. 1021-1025
schlagwort Vesicle budding and fusion
ARF
coat proteins
cargo receptor
NSF
SNAP
SNARE
search_space articles
shingle_author_1 Söllner, T. H.
Rothman, J. E.
shingle_author_2 Söllner, T. H.
Rothman, J. E.
shingle_author_3 Söllner, T. H.
Rothman, J. E.
shingle_author_4 Söllner, T. H.
Rothman, J. E.
shingle_catch_all_1 Söllner, T. H.
Rothman, J. E.
Molecular machinery mediating vesicle budding, docking and fusion
Vesicle budding and fusion
ARF
coat proteins
cargo receptor
NSF
SNAP
SNARE
Vesicle budding and fusion
ARF
coat proteins
cargo receptor
NSF
SNAP
SNARE
Abstract A general machinery buds and fuses transport vesicles which connect intracellular compartments with each other and allow communication with the extracellular environment. Cytoplasmic coat proteins deform membranes to bud vesicles and interact directly or indirectly with cargo molecules. Compartment-specific SNAREs (SNAP receptors) on vesicles and target membranes dock vesicles and provide a scaffolding for the general fusion machinery to initiate lipid bilayer fusion.
1420-9071
14209071
Springer
shingle_catch_all_2 Söllner, T. H.
Rothman, J. E.
Molecular machinery mediating vesicle budding, docking and fusion
Vesicle budding and fusion
ARF
coat proteins
cargo receptor
NSF
SNAP
SNARE
Vesicle budding and fusion
ARF
coat proteins
cargo receptor
NSF
SNAP
SNARE
Abstract A general machinery buds and fuses transport vesicles which connect intracellular compartments with each other and allow communication with the extracellular environment. Cytoplasmic coat proteins deform membranes to bud vesicles and interact directly or indirectly with cargo molecules. Compartment-specific SNAREs (SNAP receptors) on vesicles and target membranes dock vesicles and provide a scaffolding for the general fusion machinery to initiate lipid bilayer fusion.
1420-9071
14209071
Springer
shingle_catch_all_3 Söllner, T. H.
Rothman, J. E.
Molecular machinery mediating vesicle budding, docking and fusion
Vesicle budding and fusion
ARF
coat proteins
cargo receptor
NSF
SNAP
SNARE
Vesicle budding and fusion
ARF
coat proteins
cargo receptor
NSF
SNAP
SNARE
Abstract A general machinery buds and fuses transport vesicles which connect intracellular compartments with each other and allow communication with the extracellular environment. Cytoplasmic coat proteins deform membranes to bud vesicles and interact directly or indirectly with cargo molecules. Compartment-specific SNAREs (SNAP receptors) on vesicles and target membranes dock vesicles and provide a scaffolding for the general fusion machinery to initiate lipid bilayer fusion.
1420-9071
14209071
Springer
shingle_catch_all_4 Söllner, T. H.
Rothman, J. E.
Molecular machinery mediating vesicle budding, docking and fusion
Vesicle budding and fusion
ARF
coat proteins
cargo receptor
NSF
SNAP
SNARE
Vesicle budding and fusion
ARF
coat proteins
cargo receptor
NSF
SNAP
SNARE
Abstract A general machinery buds and fuses transport vesicles which connect intracellular compartments with each other and allow communication with the extracellular environment. Cytoplasmic coat proteins deform membranes to bud vesicles and interact directly or indirectly with cargo molecules. Compartment-specific SNAREs (SNAP receptors) on vesicles and target membranes dock vesicles and provide a scaffolding for the general fusion machinery to initiate lipid bilayer fusion.
1420-9071
14209071
Springer
shingle_title_1 Molecular machinery mediating vesicle budding, docking and fusion
shingle_title_2 Molecular machinery mediating vesicle budding, docking and fusion
shingle_title_3 Molecular machinery mediating vesicle budding, docking and fusion
shingle_title_4 Molecular machinery mediating vesicle budding, docking and fusion
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source_archive Springer Online Journal Archives 1860-2000
timestamp 2024-05-06T09:34:46.501Z
titel Molecular machinery mediating vesicle budding, docking and fusion
titel_suche Molecular machinery mediating vesicle budding, docking and fusion
topic W
WW-YZ
uid nat_lic_papers_NLM189399724