Naked Science Forum
On the Lighter Side => New Theories => Topic started by: smart on 26/01/2018 10:09:05
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Hi,
I would like to know if light can control neuroholographic pathways in myelinated axons:
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3682640/
https://www.nature.com/articles/srep36508
In other words, how precisely does biophotons emissions may influence axonal mRNA transcription?
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I would like to know if light can control neuroholographic pathways in myelinated axons:
No
In other words, how precisely does biophotons emissions may influence axonal mRNA transcription?
They don't.
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myelinated axons
Most axons are myelinated in mammals - it improves signal transmission speed.
There are apparently some pain-sensing nerve cells that are not myelinated, and some short axons in the central nervous system.
Why is it significant that these highly speculative biophoton-controlled neuroholographic pathways occur in myelinated axons?
In enhancing biochemical transmission of nerve impulses, wouldn't the myelin sheath block transmission of these hypothetical biophotons between neurones?
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Why is it significant that these highly speculative biophoton-controlled neuroholographic pathways occur in myelinated axons?
In enhancing biochemical transmission of nerve impulses, wouldn't the myelin sheath block transmission of these hypothetical biophotons between neurones?
I don't know. I suspect however that axonal mRNA transcription do occurs in myelinated axons. :)
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Why is it significant that these highly speculative biophoton-controlled neuroholographic pathways occur in myelinated axons?
I think axonal mRNA transcription in myelinated axons may influence neuronal biophoton emission and neuron-astrocyte communication.