SNARE-mediated membrane fusion on pore-spanning membranes – several fusion pathways analyzed by single-vesicle content release

Mühlenbrock, Peter

18 December 2020

No description available.

572

SNAREs

fusion

single-vesicle

fusion pathways

content release

Biologie (PPN619462639)

A requirement for Syntaxin 4 during vertebrate development and cardiomyocyte conduction

Perl, Eliyahu

23 August 2022

No description available.

Developmental Biology

Syntaxin 4

SNAREs

vesicular transport

congenital heart disease

conduction defects

zebrafish

Investigation of early endosomal sorting and budding / Untersuchung von früh-endosomalem 'sorting' und 'budding'

Barysch, Sina-Victoria

02 November 2009

No description available.

570 Biowissenschaften, Biologie

Mathematics and Computer Science

Endosom

sorting

budding

in vitro Assay

EEA1

NSF

SNAREs

endosome

sorting

budding

in vitro assay

EEA1

NSF

SNAREs

42.13

42.15

Optical analysis of synaptic vesicle protein molecules during exo- and endocytosis using pH-switchable fluorescent probes / Optische Analyse synaptischer Vesikelproteine während Exo- und Endozytose mit Hilfe pH-abhängiger Fluoreszenzfarbstoffe

Sinha, Raunak

02 May 2011

No description available.

570 Biowissenschaften

Biologie

Synaptisches Vesikel

Exozytose

SNAREs

Endozytose

Readily Retrievable Pool

Synaptic vesicle

Exocytosis

SNAREs

Endocytosis

Readily Retrievable Pool

42.15

WA 000: Biologie

Sec1p/Munc18 (SM) proteins and their role in regulating secretion in Saccharomyces cerevisiae and Caenorhabditis elegans a comparative approach / Sec1p/Munc18 (SM) proteine und deren Rolle in der Sekretionsregulierung in Saccharomyces cerevisiae und Caenorhabditis elegans -eine vergleichende Studie

Iraheta, Raul Emilio

20 November 2012

No description available.

500 Naturwissenschaften

Biophysik (PPN619462817)

ITC

Syntaxin

SNAREs

Membrane Fusion

Neuronal Secretion

Sec1/Munc18

Biochemitry

Protein-Protein Interactions

ITC

Syntaxin

SNAREs

Membrane Fusion

Neuronal Secretion

Sec1/Munc18

Biochemitry

Protein-Protein Interactions

Biologie

Characterization of neuronal SNAREs and interacting proteins / Charakterisierung von neuronalen SNAREs und interagierenden Proteinen

Pobbati Venkatesan, Ajaybabu

15 March 2006

No description available.

570 Biowissenschaften

Biologie

SNARE

Vesikelfusion

tomosyn

amisyn

SNAREs

membrane fusion

tomosyn

amisyn

42.13 Molecular biology

Presynaptic Protein Interactions that Regulate Synaptic Strength at Crayfish Neuromuscular Junctions.

Prashad, Rene Christopher

20 March 2014

Synapses vary widely in the probability of transmitter release. For instance, in response to an action potential the phasic synapses of the crayfish have a 100-1000-fold higher release probability than tonic synapses. The difference in release probability is attributed to differences in the exocytotic machinery such as the degree of “zippering” of the trans-SNARE (Soluble N-ethylmaleimide-sensitive factor Attachment protein REceptor) complex. I used physiological and molecular approaches to determine if the zippered state of SNAREs associated with synaptic vesicles and the interaction between the SNARE complex and Complexin influence the probability of release at the synapse. I used three Botulinum neurotoxins which bind and cleave at different sites on VAMP to determine whether these sites were occluded by SNARE interaction (zippering) or open to proteolytic attack. Under low stimulation conditions, the light-chain fragment of botulinum B (BoNT/B-LC) but not BoNT/D-LC or tetanus neurotoxin (TeNT-LC) cleaved VAMP and inhibited evoked release at both phasic and tonic synapses. In addition, a peptide based on the C-terminal half of crayfish VAMP’s SNARE motif (Vc peptide) designed to interfere with SNARE complex zippering at the C-terminal end inhibited release at both synapses. The susceptibility of VAMP to only BoNT/B-LC and interference by the Vc peptide indicated that SNARE complexes at both phasic and tonic synapses were partially zippered only at the N-terminal end with the C-terminal end exposed under resting conditions. I used a peptide containing part of the crayfish Complexin central α-helix domain to interfere with the interaction between Complexin and the SNARE complex. The peptide enhanced phasic evoked release and inhibited tonic evoked release under low stimulation but attenuated release at both synapses under intense stimulation. Therefore, Complexin appeared to exhibit a dual function under low synaptic activity but only promoted release under high synaptic activity. The results showed that the zippered state of the SNARE complex does not determine initial release probability as a similar zippered SNARE complex structure under resting conditions is common to both phasic and tonic synapses. However, Complexin may have a role in influencing the initial release probability of a synapse. Therefore, the interaction between the SNARE complex and Complexin is important for release but other factors contribute more significantly to synaptic strength.

SNAREs

Complexin

Synapse

Release probability

SNARE zippering

Crayfish

Neuromuscular junction

Synaptic strength

Synaptic transmission

Presynaptic differentiation

VAMP (Synaptobrevin)

Presynaptic Protein Interactions that Regulate Synaptic Strength at Crayfish Neuromuscular Junctions.

Prashad, Rene Christopher

20 March 2014

Synapses vary widely in the probability of transmitter release. For instance, in response to an action potential the phasic synapses of the crayfish have a 100-1000-fold higher release probability than tonic synapses. The difference in release probability is attributed to differences in the exocytotic machinery such as the degree of “zippering” of the trans-SNARE (Soluble N-ethylmaleimide-sensitive factor Attachment protein REceptor) complex. I used physiological and molecular approaches to determine if the zippered state of SNAREs associated with synaptic vesicles and the interaction between the SNARE complex and Complexin influence the probability of release at the synapse. I used three Botulinum neurotoxins which bind and cleave at different sites on VAMP to determine whether these sites were occluded by SNARE interaction (zippering) or open to proteolytic attack. Under low stimulation conditions, the light-chain fragment of botulinum B (BoNT/B-LC) but not BoNT/D-LC or tetanus neurotoxin (TeNT-LC) cleaved VAMP and inhibited evoked release at both phasic and tonic synapses. In addition, a peptide based on the C-terminal half of crayfish VAMP’s SNARE motif (Vc peptide) designed to interfere with SNARE complex zippering at the C-terminal end inhibited release at both synapses. The susceptibility of VAMP to only BoNT/B-LC and interference by the Vc peptide indicated that SNARE complexes at both phasic and tonic synapses were partially zippered only at the N-terminal end with the C-terminal end exposed under resting conditions. I used a peptide containing part of the crayfish Complexin central α-helix domain to interfere with the interaction between Complexin and the SNARE complex. The peptide enhanced phasic evoked release and inhibited tonic evoked release under low stimulation but attenuated release at both synapses under intense stimulation. Therefore, Complexin appeared to exhibit a dual function under low synaptic activity but only promoted release under high synaptic activity. The results showed that the zippered state of the SNARE complex does not determine initial release probability as a similar zippered SNARE complex structure under resting conditions is common to both phasic and tonic synapses. However, Complexin may have a role in influencing the initial release probability of a synapse. Therefore, the interaction between the SNARE complex and Complexin is important for release but other factors contribute more significantly to synaptic strength.

SNAREs

Complexin

Synapse

Release probability

SNARE zippering

Crayfish

Neuromuscular junction

Synaptic strength

Synaptic transmission

Presynaptic differentiation

VAMP (Synaptobrevin)

Untersuchung von Proteinkomponenten der ER-Golgi Recycling-Maschinerie von Hefe / Analysis of protein components of the ER-Golgi recycling-machinery in yeast

Neumann, Tanja

31 January 2001

No description available.

570 Biowissenschaften, Biologie

Mathematics and Computer Science

vesikulärer Transport

SNAREs

42.13 Molekularbiologie

42.15 Zellbiologie

42.20 Genetik

Untersuchung einzelner SNARE-vermittelter Membranfusionsereignisse auf planaren porenüberspannenden Membranen / Investigation of Single SNARE-mediated Membrane Fusion Events on Planar Pore-spanning Membranes

Schwenen, Lando Lantbert Gregor

04 June 2015

No description available.

540

SNARE

Membranfusion

Fusionsassay

porenüberspannende Membran

Diffusion in Lipidmembranen

konfokale Laserrastermikroskopie

Hemifusion

Oberflächenfunktionalisierung

poröse Substrate

Lipidmembranen

Vesikelfusion

Mobilität von SNARE-Proteinen

SNARE

fusion

fusion assay

pore-spanning membranes

mobility of Lipids

mobility of SNAREs

porous substrates

vesicle docking

hemifusion

lipid membranes

surface functionalization

membrane fusion

membrane diffusion

Chemie  (PPN62138352X)