RT @StuartHameroff: There are about 10^20 tubulins in human brain, each with 22 possible genetic isoforms, another 5 or so types of post-tr…
RT @StuartHameroff: In Orch OR the process of consciousness occurs in the very same medium as memory, not in some other part of the brain.…
RT @StuartHameroff: In Orch OR the process of consciousness occurs in the very same medium as memory, not in some other part of the brain.…
RT @StuartHameroff: There are about 10^20 tubulins in human brain, each with 22 possible genetic isoforms, another 5 or so types of post-tr…
RT @StuartHameroff: In Orch OR the process of consciousness occurs in the very same medium as memory, not in some other part of the brain.…
RT @StuartHameroff: In Orch OR the process of consciousness occurs in the very same medium as memory, not in some other part of the brain.…
RT @StuartHameroff: In Orch OR the process of consciousness occurs in the very same medium as memory, not in some other part of the brain.…
RT @StuartHameroff: There are about 10^20 tubulins in human brain, each with 22 possible genetic isoforms, another 5 or so types of post-tr…
RT @StuartHameroff: In Orch OR the process of consciousness occurs in the very same medium as memory, not in some other part of the brain.…
RT @StuartHameroff: In Orch OR the process of consciousness occurs in the very same medium as memory, not in some other part of the brain.…
RT @StuartHameroff: In Orch OR the process of consciousness occurs in the very same medium as memory, not in some other part of the brain.…
RT @StuartHameroff: In Orch OR the process of consciousness occurs in the very same medium as memory, not in some other part of the brain.…
RT @StuartHameroff: There are about 10^20 tubulins in human brain, each with 22 possible genetic isoforms, another 5 or so types of post-tr…
In Orch OR the process of consciousness occurs in the very same medium as memory, not in some other part of the brain. Orch OR is by far the most explanatory theory of consciousness, most biologically connected, most easily falsifiable and most experiment
RT @StuartHameroff: There are about 10^20 tubulins in human brain, each with 22 possible genetic isoforms, another 5 or so types of post-tr…
RT @StuartHameroff: There are about 10^20 tubulins in human brain, each with 22 possible genetic isoforms, another 5 or so types of post-tr…
RT @StuartHameroff: There are about 10^20 tubulins in human brain, each with 22 possible genetic isoforms, another 5 or so types of post-tr…
There are about 10^20 tubulins in human brain, each with 22 possible genetic isoforms, another 5 or so types of post-translational modifications, plus phosphorylation, MAP binding … So 10^20 to the power of 10^30 is the number of possible bits. https://t
@import_robs Obrigado! Vou dar uma olhada! Talvez tenhamos que usar métodos baseados no nosso cérebro para armazenar tantos dados. Gosto desse modelo aqui que tenta explicar como funciona a nossa memória: https://t.co/K2bD477H2E
RT @StuartHameroff: Start with microtubule A lattice with Fibonacci geometry, each tubulin having 20 or more possible genetic or post tran…
RT @StuartHameroff: Start with microtubule A lattice with Fibonacci geometry, each tubulin having 20 or more possible genetic or post tran…
RT @StuartHameroff: Start with microtubule A lattice with Fibonacci geometry, each tubulin having 20 or more possible genetic or post tran…
RT @StuartHameroff: Start with microtubule A lattice with Fibonacci geometry, each tubulin having 20 or more possible genetic or post tran…
I’m going to be working on this fo a little while. Thank you Stuart🙏
Start with microtubule A lattice with Fibonacci geometry, each tubulin having 20 or more possible genetic or post translational states. So 10^8 tubulins raised to 10^20 states per neuron. Plus scale invariance every 3 orders. For synaptic inputs see: h
@mellziland Adorei o fio, Mell! Intrigado pela nossa capacidade de memória. Mesmo com as técnicas e também até por elas que nos fazem economizar memória. Aproveitando para lembrar do artigo sobre nossa capacidade de memória, um modelo possível. https://t
@DhiordanLove Fascinante a thread, Dhiordan! Eu adoro biologia como leigo e sou de TI. Um artigo que gostei muito que desenvolve um modelo para a nossa memória é esse aqui: https://t.co/bfV0T4S644 Acho que não te elogio há um tempão, mas falha minha e t
RT @StuartHameroff: Synaptic proteins last hours to days yet memories last lifetimes. Memory and learning most likely in dendritic-somatic…
RT @anirbanbandyo: There are many reasons why synaptic junctions do not hold cognitive memory, 120 electrically neutral neurotransmitters,…
There are many reasons why synaptic junctions do not hold cognitive memory, 120 electrically neutral neurotransmitters, why? if you need to transport only electric bias? Why neutral? Who holds the potential across junctions during neurotransmitter flow? I
RT @StuartHameroff: Synaptic proteins last hours to days yet memories last lifetimes. Memory and learning most likely in dendritic-somatic…
RT @StuartHameroff: Synaptic proteins last hours to days yet memories last lifetimes. Memory and learning most likely in dendritic-somatic…
RT @StuartHameroff: Synaptic proteins last hours to days yet memories last lifetimes. Memory and learning most likely in dendritic-somatic…
RT @StuartHameroff: Synaptic proteins last hours to days yet memories last lifetimes. Memory and learning most likely in dendritic-somatic…
RT @StuartHameroff: Synaptic proteins last hours to days yet memories last lifetimes. Memory and learning most likely in dendritic-somatic…
Synaptic proteins last hours to days yet memories last lifetimes. Memory and learning most likely in dendritic-somatic microtubules with enormous information capacity. How can synaptic inputs encode memory in ‘deep learning’ microtubules? Here’s how: http
@patchurchland More validation for Orch OR ? @StuartHameroff https://t.co/M5MWUjJ5FX
@Vegas_stringer @zerohedge Memory is not stored in neurons as transistors, but inside the neuron more as a "chip" or "integrated circuit", a billion bits per neuron. https://t.co/4tB6h37Z3f
RT @StuartHameroff: Dendritic spines are made mostly of actin but can contain single microtubules for spine formation and regulation. Micro…
RT @StuartHameroff: Dendritic spines are made mostly of actin but can contain single microtubules for spine formation and regulation. Micro…
Dendritic spines are made mostly of actin but can contain single microtubules for spine formation and regulation. Microtubules are the most likely site for memory encoding. Synaptic proteins too transient. Dendritic microtubule lattices very stable. https
@DominicDAgosti2 I wonder if KB might have some interaction with microtubules in brain neurons in relation to memory and perhaps even consciousness? (ORCH-OR hypothesis) https://t.co/owfLASOuGH
RT @StuartHameroff: Excellent point. Synaptic proteins are transient, lasting hours to days, yet memories can last lifetimes. Microtubules…
Excellent point. Synaptic proteins are transient, lasting hours to days, yet memories can last lifetimes. Microtubules in dendrites and soma ideal for memory encoding and recall. How convenient for consciousness to occur in the medium of memory encoding!
@cube_flipper @StuartHameroff EM fields don't provide an explanation for memory storage though, while encoded MT's provides a system that can store memory, and quite elegantly so I might add. https://t.co/owfLASOuGH
@philosophising4 @InTime_49 @MedEckardt @DrNobod62035670 I have to disagree. How would ‘mitoengram’ encode memory? Epigenetic memory is encoded in centrioles. LTP studies show learned memory is encoded in microtubules by CaMKIi. Vast capacity. https://t
RT @StuartHameroff: Top 10 reasons Neuroscience Needs a Revolution Number 9 Memory Synaptic proteins last hours to days yet memories last…
RT @StuartHameroff: Memory is encoded in microtubules! Synaptic plasticity proteins recycle over hours to days, yet memories can last life…
RT @StuartHameroff: Top 10 reasons Neuroscience Needs a Revolution Number 9 Memory Synaptic proteins last hours to days yet memories last…
RT @StuartHameroff: Top 10 reasons Neuroscience Needs a Revolution Number 9 Memory Synaptic proteins last hours to days yet memories last…
RT @StuartHameroff: Top 10 reasons Neuroscience Needs a Revolution Number 9 Memory Synaptic proteins last hours to days yet memories last…
RT @StuartHameroff: Top 10 reasons Neuroscience Needs a Revolution Number 9 Memory Synaptic proteins last hours to days yet memories last…
🪄🪄🪄 🧠
RT @StuartHameroff: Top 10 reasons Neuroscience Needs a Revolution Number 9 Memory Synaptic proteins last hours to days yet memories last…
RT @StuartHameroff: Top 10 reasons Neuroscience Needs a Revolution Number 9 Memory Synaptic proteins last hours to days yet memories last…
RT @StuartHameroff: Top 10 reasons Neuroscience Needs a Revolution Number 9 Memory Synaptic proteins last hours to days yet memories last…
RT @StuartHameroff: Top 10 reasons Neuroscience Needs a Revolution Number 9 Memory Synaptic proteins last hours to days yet memories last…
RT @StuartHameroff: Top 10 reasons Neuroscience Needs a Revolution Number 9 Memory Synaptic proteins last hours to days yet memories last…
RT @StuartHameroff: Top 10 reasons Neuroscience Needs a Revolution Number 9 Memory Synaptic proteins last hours to days yet memories last…
RT @StuartHameroff: Top 10 reasons Neuroscience Needs a Revolution Number 9 Memory Synaptic proteins last hours to days yet memories last…
In the early 1990's, Bruce McEwen taught me to link oxidative phosphorylation from the ATP-dependent Creation of RNA in regulatory T cells to fixation of amino acid substitutions in microtubules rather than tout moronic gene-centric theories about evolved
RT @StuartHameroff: Top 10 reasons Neuroscience Needs a Revolution Number 9 Memory Synaptic proteins last hours to days yet memories last…
Top 10 reasons Neuroscience Needs a Revolution Number 9 Memory Synaptic proteins last hours to days yet memories last lifetimes. Dendritic-somatic microtubules the most likely site for memory encoding. Consciousness occurs in microtubule memory beds.
RT @marisonl: @mellziland Mel, Já deve ter tido contato com o artigo a seguir. https://t.co/bfV0T4S644 Como você vê a possibilidade da no…
@mellziland Mel, Já deve ter tido contato com o artigo a seguir. https://t.co/bfV0T4S644 Como você vê a possibilidade da nossa memória ser bem extensa (talvez na faixa de exabytes) baseada nesse modelo?
RT @StuartHameroff: @pilot_winds @BrianRoemmele @anirbanbandyo Each of the billion tubulins per neuron can be in one of 20 different geneti…
RT @StuartHameroff: @pilot_winds @BrianRoemmele @anirbanbandyo Each of the billion tubulins per neuron can be in one of 20 different geneti…
RT @StuartHameroff: @pilot_winds @BrianRoemmele @anirbanbandyo Each of the billion tubulins per neuron can be in one of 20 different geneti…
RT @StuartHameroff: @pilot_winds @BrianRoemmele @anirbanbandyo Each of the billion tubulins per neuron can be in one of 20 different geneti…
RT @StuartHameroff: @pilot_winds @BrianRoemmele @anirbanbandyo Each of the billion tubulins per neuron can be in one of 20 different geneti…
RT @StuartHameroff: @pilot_winds @BrianRoemmele @anirbanbandyo Each of the billion tubulins per neuron can be in one of 20 different geneti…
RT @StuartHameroff: @pilot_winds @BrianRoemmele @anirbanbandyo Each of the billion tubulins per neuron can be in one of 20 different geneti…
@pilot_winds @BrianRoemmele @anirbanbandyo Each of the billion tubulins per neuron can be in one of 20 different genetic isoforms, five post translational modifications and phosphorylation states. So that’s a billion raised to the 30th possible mosaic memo
@MillerLabMIT Deviation from Hodgkin-Huxley behavior has a fractal multidimensional basis, to be expected from firing regulation by dendritic-somatic microtubules with multi/scale fractal oscillations. Memory is encoded in dendritic-somatic microtubules.
RT @StuartHameroff: @BrianRoemmele Hydrocephalus begins very early in development, pre-birth. So brain neurons can adapt due to microtubule…
RT @StuartHameroff: @BrianRoemmele Hydrocephalus begins very early in development, pre-birth. So brain neurons can adapt due to microtubule…
Does that work for viruses aswell, since they have a cytoskeleton? Could we use viruses to transplant memory?
RT @StuartHameroff: @BrianRoemmele Hydrocephalus begins very early in development, pre-birth. So brain neurons can adapt due to microtubule…
RT @StuartHameroff: @BrianRoemmele Hydrocephalus begins very early in development, pre-birth. So brain neurons can adapt due to microtubule…
RT @StuartHameroff: @BrianRoemmele Hydrocephalus begins very early in development, pre-birth. So brain neurons can adapt due to microtubule…
RT @StuartHameroff: @BrianRoemmele Hydrocephalus begins very early in development, pre-birth. So brain neurons can adapt due to microtubule…
RT @StuartHameroff: @BrianRoemmele Hydrocephalus begins very early in development, pre-birth. So brain neurons can adapt due to microtubule…
@BrianRoemmele Hydrocephalus begins very early in development, pre-birth. So brain neurons can adapt due to microtubule control from deeper, faster levels within. Memory in microtubule mosaic states enormous. 🔨 https://t.co/OIgnsMBR6N
RT @StuartHameroff: Memory is encoded in microtubules! Synaptic plasticity proteins recycle over hours to days, yet memories can last life…
RT @StuartHameroff: Memory is encoded in microtubules! Synaptic plasticity proteins recycle over hours to days, yet memories can last life…
RT @StuartHameroff: Memory is encoded in microtubules! Synaptic plasticity proteins recycle over hours to days, yet memories can last life…
RT @StuartHameroff: Memory is encoded in microtubules! Synaptic plasticity proteins recycle over hours to days, yet memories can last life…
RT @StuartHameroff: Memory is encoded in microtubules! Synaptic plasticity proteins recycle over hours to days, yet memories can last life…
RT @StuartHameroff: Memory is encoded in microtubules! Synaptic plasticity proteins recycle over hours to days, yet memories can last life…
RT @StuartHameroff: Memory is encoded in microtubules! Synaptic plasticity proteins recycle over hours to days, yet memories can last life…
@max_arbitrage @memarkelliottme Dug deeper in the rabbit hole: memories perhaps encoded in microtubules