User:Tkadm30/Notebook/Hypercomputation: Difference between revisions

Neuronal hypercomputation

Synaptic hypercomputation

The synaptic hypercomputation (SH) hypothesis states that the phase coherence of neural communication (synaptic latency) may emerges via long-range synchronicity in the gamma range. This quantum neurocomputational model is controlled by glutamate exocytosis, regulating presynaptic action potential (waveform) in a quantum system. [1]

Hence, the presynaptic action potential waveform is determined by the synaptic latency of coherent quantum vibrations inside microtubules. The resonance (superradiance) and synchronicity of biophotonic activity is evidence of synaptic hypercomputation driving neurocomputational functions of the brain.

Cannabimimetic hypercomputation

Endocannabinoid-mediated synaptic hypercomputation is caused by the pharmacological activation of cannabinoid receptors promoting neuronal phase coherence (synchronized gamma oscillations) at interneuron networks.

Anandamide-CB1 dopaminergic cross-talk?

• Review: GPCR receptor heteromerization
• Heteromeric transactivation of anandamide-CB1 receptors..
• Anandamide-CB1 heteromeric transactivation may potentiate synaptic hypercomputation in the gamma band. [2][3]
• Fast synaptic inhibition by retrograde signaling may trigger synchronized gamma oscillations. [3]

Neuronal phase coherence and synchronicity

Neuronal phase coherence is "quantum-like" entanglement because long-range synchronicity is critical for optimal neural communication in the gamma band. [4]

Discussion

• Is neuronal hypercomputation a form of synaptic quantum tunnelling?

• Is self-organized criticality (SOC) an evidence of biological hypercomputation?
• Is synaptic hypercomputation a function of exocytosis?
• What is biological hypercomputation?
• What is synaptic hypercomputation?
• What is biological phase coherence?
• Neuronal phase coherence and synchronicity

References

1. http://www.sciencedirect.com/science/article/pii/S0896627315008235

   [Paper1]

   Rhythms for Cognition: Communication through Coherence

2. http://molpharm.aspetjournals.org/content/67/5/1697.short

   [Paper2]

   Concurrent Stimulation of Cannabinoid CB1 and Dopamine D2 Receptors Enhances Heterodimer Formation: A Mechanism for Receptor Cross-Talk?

3. http://www.pnas.org/content/99/20/13222.full

   [Paper5]

   Fast synaptic inhibition promotes synchronized gamma oscillations in hippocampal interneuron networks

4. http://journals.plos.org/ploscompbiol/article?id=10.1371/journal.pcbi.1003723

   [Paper3]

   Phase-Coherence Transitions and Communication in the Gamma Range between Delay-Coupled Neuronal Populations

5. http://iopscience.iop.org/article/10.1088/1742-6596/306/1/012075/meta

   [Paper4]

   Plausibility of quantum coherent states in biological systems

See also

• Endocannabinoids Notebook