Global ETD Search

1	Dynamic expression of Mover in rodent endbulbs of Held Wetzel, Friederike 25 June 2015 (has links) No description available. 570 Mover activity Otoferlin release probability Endbulbs of Held Calyx of Held Biologie (PPN619462639)
2	Presynaptic Protein Interactions that Regulate Synaptic Strength at Crayfish Neuromuscular Junctions. Prashad, Rene Christopher 20 March 2014 (has links) 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)
3	Presynaptic Protein Interactions that Regulate Synaptic Strength at Crayfish Neuromuscular Junctions. Prashad, Rene Christopher 20 March 2014 (has links) 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)
4	Cocaine-inducible circuitry reorganization as a basis for addiction-related memory traces / Kokain-induzierte Netzwerkreorganisation als Basis für mit Sucht in Beziehung stehende Gedächtnisspuren Suska, Anna 18 June 2012 (has links) No description available. 500 Naturwissenschaften Molekularbiologie (PPN61946299X) Biology (incl. Psychology) Kokain Drogensucht Nucleus accumbens Wahrscheinlichkeit der Freisetzung stillen Synapsen cocaine addiction nucleus accumbens release probability silent synapses 42.13
5	Epac-mediated modulation of neurotransmitter release from cultured hippocampal neurons / Epac-vermittelte Modulation der Neurotransmitterfreisetzung bei neuronalen Zellkulturen des Hippocampus Gekel, Isabella 07 April 2008 (has links) No description available. 570 Biowissenschaften, Biologie Mathematics and Computer Science cAMP Epac excitatorische autaptische Neuronen PKC glutamaterge Synapsen cAMP Epac vesicular release probability excitatory autaptic neurons PKC glutamatergic synapse 42.17 Allgemeine Physiologie W. Biologie
6	Structural/functional analysis of synaptotagmin 1 in synaptic transmission using hippocampal autapses / Struktuelle und funktionelle Analyse von Synaptotagmin 1 in synaptischer Transmission in hippocampalen Autapsen Liyi, Li 24 May 2005 (has links) No description available. 500 Naturwissenschaften allgemein Mathematics and Computer Science synaptotagmin des readily releasable pool Freisetzungswahrscheinlichkeit der Ca2+-Sensitivität synaptotagmin readily releasable pool release probability Ca2+ sensitivity synaptotagmin 1-phospholipid interaction 42.13 W
7	Première évaluation de l’intégralité des propriétés synaptiques des terminaisons en compétition lors du développement de la jonction neuromusculaire St-Pierre-See, Alexandre 04 1900 (has links) No description available. Synapse Synaptogenèse Compétition synaptique Facilitation Couverture territoriale Force synaptique Probabilité de relâche Jonction neuromusculaire Synaptogenesis Synaptic competition Territorial coverage Synaptic strength Quantal content Release probability Neuromuscular junction

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