User:Tkadm30/Notebook/Synaptic exocytosis: Difference between revisions
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* "The conformational states of β−neurexin can directly or indirectly via CASK and Mint-1 control the exocytosis." <cite>Website2</cite> | * "The conformational states of β−neurexin can directly or indirectly via CASK and Mint-1 control the exocytosis." <cite>Website2</cite> | ||
=== Dopamine exocytosis === | |||
* The phasic dopaminergic signaling in the frontal lobe may regulate neuronal synchronicity. | |||
=== Vibrationally assisted tunneling and neuromodulation of synaptic function=== | === Vibrationally assisted tunneling and neuromodulation of synaptic function=== |
Revision as of 06:41, 31 December 2016
Exocytotic types of biological phase transition
Retrograde signaling
- How retrograde signaling modulate the nonlocality of synaptic exocytosis?
- Endocannabinoid-mediated synaptic hypercomputation
Synaptogenesis
Interneuronal quantum coherence domains
- "The conformational states of β−neurexin can directly or indirectly via CASK and Mint-1 control the exocytosis." [1]
Dopamine exocytosis
- The phasic dopaminergic signaling in the frontal lobe may regulate neuronal synchronicity.
Vibrationally assisted tunneling and neuromodulation of synaptic function
- neuroquantum coherent model of consciousness: [1]
Synaptic phase transitions
- Synaptic phase coherence (Synonym), Neuronal phase coherence (Synonym)
- Phase-transition-driven synaptic exocytosis: a hypothesis and its physiological and evolutionary implications.
- What are quantum phase transitions?
- is synaptic phase coherence a function of hypercomputation?
References
- Kozorovitskiy Y, Peixoto R, Wang W, Saunders A, and Sabatini BL. Neuromodulation of excitatory synaptogenesis in striatal development. Elife. 2015 Nov 9;4. DOI:10.7554/eLife.10111 |
Neuromodulation of excitatory synaptogenesis in striatal development.