@max_arbitrage @memarkelliottme Dug deeper in the rabbit hole: memories perhaps encoded in microtubules
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…
https://t.co/NfBd7eMJyQ @StuartHameroff is back to follow-up on "Cytoskeletal Signaling: Is Memory Encoded in Microtubule Lattices by CaMKII Phosphorylation?" The ATP-dependent Creation of RNA linked oxidative phosphorylation to all biodiversity on Earth
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…
Fantástico!
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…
Absolutely fantastic advancement in science of consciousness and memory.
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…
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…
Finally some theory on where data is stored in brain/body
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…
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…
If you want to follow consciousness. Here the expert @ChrisUKSharp @AdamGoldsack @kofflestop
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…
@philosophising4 @KlaasvanDijk5 Your replies have been moronic and useless. You have no model of cell type construction and constrained viral latency! See for comparison: https://t.co/NfBd7eMJyQ 3/8/12
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…
Memory is encoded in microtubules! Synaptic plasticity proteins recycle over hours to days, yet memories can last lifetimes. Each of 10 to the 9th tubulins per neuron can have 30 different states. Microtubules fall apart in Alzheimer’s 🔨 https://t.co/Id
@MiguelNicolelis Nicolelis, Você já estimou a capacidade de memória do cérebro humano? No artigo a seguir que provovalmente já teve contato descreve um modelo que pode ajudar nessa estimativa: https://t.co/bfV0T4S644
@thatfollowed @IntuitMachine You're putting a lot of faith in a single, theoretical study https://t.co/ncjKhRMz5F
@RabelloAnderson Thread simplesmente perfeita! Muito clara, bem ilustrada! Anderson, Já viu esse modelo que tenta explicar a relação de nossa memória com os microtúbulos? https://t.co/bfV0T4S644
Could you enhance memory formation & access by utilizing Ultrasound? "Is Memory Encoded in Microtubule Lattices by CaMKII Phosphorylation?" https://t.co/M5MWUjqWrP https://t.co/0c7vrzARr5
RT @marisonl: @Kameloth @mellziland Cogita-se que a memória mesmo seja armazenada de forma ainda mais intrigante e que permita o armazém de…
@Kameloth @mellziland Cogita-se que a memória mesmo seja armazenada de forma ainda mais intrigante e que permita o armazém de informações muito além do que a troca de informações por sinapse. Esse artigo aqui traz uma possibilidade: https://t.co/wZeM1fW2S
@mellziland Eu não acompanhei muito as repercussões, mas um mecanismo como o descrito no artigo abaixo pode permitir muita granularidade no registro dessas informações codificadas sobre os processos inflamatórios, não? https://t.co/bfV0T4S644
@lftofoli Sobre memória eu gosto muito das possibilidades levantadas por esse artigo: https://t.co/bfV0T4S644
@avsa Really cool robots. Hands/opposable thumbs tech is cool too. But the "robot uprising" is exaggerated. The nano-computers in each cell we tweet-chatted about some years ago, https://t.co/4tB6h37Z3f. Each neuron an integrated circuit with a billion tra
@christlet reminds me of https://t.co/QqFT361nbO
@brynosaurus @ChristopherA @VinayTaylor @w3c @w3c_ccg @RWoTEvents @bford No. The Turing test still holds. Only when the Turing test is broken over 1-on-1 video interviews, _hardest possible digital Turing test_, is it a problem. As far as technological sin
@lisanke Then you likely have much more knowledge & experience than me with HW+SW. I think everyone knows benefits of things like washing machines, industrial robots, computers. I think hypothetical obsolescence of humans is based on underestimating hu
@maxtreemax @Partisangirl I think that's also a strawman. To not want to buy into one groups definition of "divine existence" is not rejection of divinity, or the soul. These little things for example, seem to be electromagnetic computers, I call them "sou
This breaks the neuron-transistor analogy worshipped by cults like Singularity University, Cytoskeletal Signaling: Is Memory Encoded in Microtubule Lattices by CaMKII Phosphorylation? https://t.co/4tB6h37Z3f
The human brain projects and similar projects are throwing resources at magically thinking a simulated "connectome" will "wake up". What they miss is that neurons contain billions of tubulin, organized into microtubules, computers. https://t.co/4tB6h37Z3f
@plevy @mdrechsler The cult around AI is all based on the neuron-transistor analogy, and it is false. Those guidelines are also based on it. Just a false narrative, overall, dehumanization (rejection of the human condition. ) https://t.co/4tB6h37Z3f
Our study on information storage in microtubules. Seems that they do not play a vital role in memory formation in paramecium. Might be a test for a previous modelling study by Craddock, Tuszynski, and @StuartHameroff https://t.co/D9Z37w1guu @SalariVahid
@jiffy1 most people who talk about "technological singularity" assume neurons are transistors. I don't think they are, they are huge for example, 10 micron. there has been the idea that tubulin in microtubules are transistors, they fit in size, 4.5x8 nm. h
RT @resilience_me: @rushkoff The whole "imminent technological singularity" hype is just a false narrative, it is based on false premises,…
RT @resilience_me: @rushkoff The whole "imminent technological singularity" hype is just a false narrative, it is based on false premises,…
@rushkoff The whole "imminent technological singularity" hype is just a false narrative, it is based on false premises, the assumption that neurons are transistors. They're not, a neuron contains billions of molecular switches, organized into microtubules.
@zoltan_istvan @TheSun "mind upload" narratives are based on neuron-transistor analogy, that neurons are similar to transistors, and estimates of brain as "computer" from that. That is false, tubulin are the transistor of the brain, organized in microtubul
@leashless on a side note, "posthumanism" narratives are often based on the neuron-transistor analogy, that neurons are similar to transistors. research like this from 2012 suggests that the transistor of the brain is in microtubules, organelles inside neu
@zoltan_istvan The neuron-transistor analogy is false, so most of the people you follow ("listen" to in the bicameral mind) are wrong in their assumptions and the stories they tell, so you are probably throwing away your life on a fantasy at the moment htt
@brenzi5 @brynosaurus So there are a lot of false narratives. In med. school before I left that, I learnt that CAMKII formed long term memories by being activated by calcium-influx through NMDA receptors activating calmodulin, made absolutely no sense. But
@brenzi5 @brynosaurus 1 billion tubulin per neuron, 100 billion neurons, 100 trillion synapses + the law of accelerating returns (Kurzweil, 2004), quite a long time.. the hype of an imminent technological singularity is just hype, based on false assumption
A single pyramidal neuron has around 10^9 tubulin, a billion molecular switches. Beautiful ! https://t.co/4tB6h37Z3f
@bengoertzel Have a look at the research around microtubules as information processors, and tubulin as 4.5 nm molecular switches https://t.co/oFSmlYIpHq https://t.co/dxHx9pdJiC
@elonmusk The capacity of the human brain is underestimated. I was hooked on the technological singularity narrative but it is further away, not because technological evolution is overestimated but because nature is underestimated, look at tubulin, 4.5 nm,
@bengoertzel Microtubule lattices are memory storage structures, also computers. A single pyramidal neuron contains 10^7 tubulin (Georgiev, 2009). Will take a lot more doublings along the law of accelerating returns (Kurzweil, 2004) to get to technological
@avsa @feindura @ConsenSys @ethereumJoseph Over the past days, I've found a structure that seems to fit, that 6-tubulin dimers form a "byte" (instead of 7 or 9 like Cytoskeletal Signaling: Is Memory Encoded in Microtubule Lattices... suggested in 2012, 6-t
RT @resilience_me: These "lattice computers" are a bit like @bitlattice, also use wave functions like how Hibryda describes "proof-of-struc…
RT @resilience_me: These "lattice computers" are a bit like @bitlattice, also use wave functions like how Hibryda describes "proof-of-struc…
RT @resilience_me: These "lattice computers" are a bit like @bitlattice, also use wave functions like how Hibryda describes "proof-of-struc…
RT @resilience_me: These "lattice computers" are a bit like @bitlattice, also use wave functions like how Hibryda describes "proof-of-struc…
RT @resilience_me: These "lattice computers" are a bit like @bitlattice, also use wave functions like how Hibryda describes "proof-of-struc…
RT @resilience_me: @scottsantens @markymetry the H+ hype in the past couple of years is based on the idea that neurons are transistors, the…
@scottsantens @markymetry the H+ hype in the past couple of years is based on the idea that neurons are transistors, they are probably more like computers, so, the idea that there will be a technological singularity once total computation is at 10^15 is pr
@BenevolentPixie @MrOzAtheist What are your thoughts on the idea that microtubules are computers? The idea dates back to the 80s, have been increase in publishing around it in decades since. Quite an advance in biology if true, on par with Watson and Crick
@webmasterdave have you seen the idea that microtubules are computers, co-opted by neurons (as in all cells but neurons specialized for that), "lattice computers", a good blueprint for the next generation of computers perhaps https://t.co/oFSmlYIpHq https
Will the next generation of computers build on bio-mimicry from microtubules? https://t.co/oFSmlYIpHq
These "lattice computers" are a bit like @bitlattice, also use wave functions like how Hibryda describes "proof-of-structure" will work https://t.co/oFSmlYIpHq
@santisiri @realDonaldTrump The AI hype is based on the assumption that neurons are transistors, they are probably more like computers, co-opting microtubules as "lattice computers", so, the brain is probably not at 10^15 computations per second like in th
RT @drmichaellevin: Preformed cell structure and cell heredity: https://t.co/QfnwuESqVH Cytoskeleton and bioelectrics: https://t.co/SufZkU…
Preformed cell structure and cell heredity: https://t.co/QfnwuESqVH Cytoskeleton and bioelectrics: https://t.co/SufZkU7XYh https://t.co/61epoZXloO Cytoskeleton and info processing: https://t.co/IotPnWK2lF https://t.co/oGWXoAJK5d Connections? https://t.c
RT @toughLoveforx: Cytoskeletal Signaling: Is Memory Encoded in Microtubule Lattices by CaMKII Phosphorylation? https://t.co/m7kw02BA2c
Cytoskeletal Signaling: Is Memory Encoded in Microtubule Lattices by CaMKII Phosphorylation? https://t.co/m7kw02BA2c
Cytoskeletal Signaling: Is Memory Encoded in Microtubule Lattices by CaMKII Phosphorylation?... https://t.co/PclDlG42xG
이제 고전적인 전기신호가 인식/기억 등을 구성하는 근거라는 사실을 버릴 때가 되었다. 인식/기억을 구성하는 근거는 마이크로튜블이라는 세포질내의 미세소관이다. 몸 속에 당분이 들어오면, 췌장세포의 베타셀... https://t.co/6bFB8qOhUA
#PLOSCompBio: Cytoskeletal Signaling: Is Memory Encoded in Microtubule Lattices by CaMKII Phosphorylation? http://t.co/NIPRHe6Efu
How is memory stored inside our brain? with which encoding? http://t.co/fNRCwkhJ #socialbrain
I am writing a review on CAMKII and plasticity for Developmental Neurobiology, but I may want to leave this on out http://t.co/BRpJiB3FDp
#PLOSCompBio: Cytoskeletal Signaling: Is Memory Encoded in Microtubule Lattices by CaMKII Phosphorylation? http://t.co/NIPRHe6Efu
RT @sharismlab: How is memory stored inside our brain? with which encoding? http://t.co/fNRCwkhJ #socialbrain
RT @F1000: Biological solid-state memory? Kinases and microtubules could work together to store binary data in neurons. http://t.co/oEvkpMTUk7