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Synopsis
Although synapses have been already characterised at the functional level, knowledge of the operational mechanisms which lie beneath their function remain limited. Among the mechanisms which play a significant role in storage information is the movement of regulatory proteins to and from synapses, such as the calcium-dependent kinase (CaMKII), and this is translated into changes in synaptic strength connection. Here, a stochastic simulator of synaptic function at the molecular level is presented. The synaptic model which is used is based on published physiological and biochemical data and experimentation. The simulator treats presynaptic cells as a sequence of action potentials and thus, simulates the chemical reactions in the post-synaptic cell. The simulator is validated using a small-artificial-pool of five chemical species participating in one reversible and one enzymatic chemical reaction. Furthermore, the input transduction variability is calculated in terms of mutual information between the input and the first chemical species receiving input. Finally, the metabolic cost per action potential, i.e. the cost for operating this synapse, is measured.
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About the Author
Spyridon Chavlis is a PhD candidate in Computational Biology Lab at IMBB-FORTH in Greece. He focuses on the role of dendrites in memory formation, storage and retrieval in hippocampal circuits using computational models. He has done his MSc at Imperial College London (Biomedical Engineering) and his MEng at NTUA (Diploma in Mechanical Engineering).
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- PublisherLAP LAMBERT Academic Publishing
- Publication date2016
- ISBN 10 3659891134
- ISBN 13 9783659891137
- BindingPaperback
- LanguageEnglish
- Number of pages56
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What is the information capacity of a synapse?
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LAP LAMBERT Academic Publishing Mai 2016, 2016
ISBN 10: 3659891134
ISBN 13: 9783659891137
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Taschenbuch. Condition: Neu. This item is printed on demand - it takes 3-4 days longer - Neuware -Although synapses have been already characterised at the functional level, knowledge of the operational mechanisms which lie beneath their function remain limited. Among the mechanisms which play a significant role in storage information is the movement of regulatory proteins to and from synapses, such as the calcium-dependent kinase (CaMKII), and this is translated into changes in synaptic strength connection. Here, a stochastic simulator of synaptic function at the molecular level is presented. The synaptic model which is used is based on published physiological and biochemical data and experimentation. The simulator treats presynaptic cells as a sequence of action potentials and thus, simulates the chemical reactions in the post-synaptic cell. The simulator is validated using a small-artificial-pool of five chemical species participating in one reversible and one enzymatic chemical reaction. Furthermore, the input transduction variability is calculated in terms of mutual information between the input and the first chemical species receiving input. Finally, the metabolic cost per action potential, i.e. the cost for operating this synapse, is measured. 56 pp. Englisch. Seller Inventory # 9783659891137
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What is the information capacity of a synapse? : A computational modeling approach
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LAP LAMBERT Academic Publishing, 2016
ISBN 10: 3659891134
ISBN 13: 9783659891137
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Taschenbuch. Condition: Neu. nach der Bestellung gedruckt Neuware - Printed after ordering - Although synapses have been already characterised at the functional level, knowledge of the operational mechanisms which lie beneath their function remain limited. Among the mechanisms which play a significant role in storage information is the movement of regulatory proteins to and from synapses, such as the calcium-dependent kinase (CaMKII), and this is translated into changes in synaptic strength connection. Here, a stochastic simulator of synaptic function at the molecular level is presented. The synaptic model which is used is based on published physiological and biochemical data and experimentation. The simulator treats presynaptic cells as a sequence of action potentials and thus, simulates the chemical reactions in the post-synaptic cell. The simulator is validated using a small-artificial-pool of five chemical species participating in one reversible and one enzymatic chemical reaction. Furthermore, the input transduction variability is calculated in terms of mutual information between the input and the first chemical species receiving input. Finally, the metabolic cost per action potential, i.e. the cost for operating this synapse, is measured. Seller Inventory # 9783659891137
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What is the information capacity of a synapse?
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Condition: New. Dieser Artikel ist ein Print on Demand Artikel und wird nach Ihrer Bestellung fuer Sie gedruckt. Autor/Autorin: Chavlis SpyridonSpyridon Chavlis is a PhD candidate in Computational Biology Lab at IMBB-FORTH in Greece. He focuses on the role of dendrites in memory formation, storage and retrieval in hippocampal circuits using computational mode. Seller Inventory # 158125068
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What is the information capacity of a synapse?: A computational modeling approach
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ISBN 10: 3659891134
ISBN 13: 9783659891137
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Paperback. Condition: Brand New. 56 pages. 8.66x5.91x0.13 inches. In Stock. Seller Inventory # 3659891134
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