RE: [biosemiotics:8910] Re: [PEIRCE-L] Show us the computer - reasons for DNA entanglement
Interesting DNA-BRE comparison on the link you provided, Sung, but beyond my sphere of expertise. sj From: sji.confor...@gmail.com [mailto:sji.confor...@gmail.com] On Behalf Of Sungchul Ji Sent: Thursday, 22 October 2015 8:47 PM To: PEIRCE-L Subject: [biosemiotics:8910] Re: [PEIRCE-L] Show us the computer - reasons for DNA entanglement Tom, Stephen J, lists, I sympathize with the frustrations that Stephen J seems to feel about the lack of breakthroughs in our understanding about how the genetic information stored in DNA may be converted to cell functions. I intend to write a more detailed post shortly on possible molecular mechanisms that living cells may use to achieve this miracle catalyzed by molecular machines, also known as "enzymes', but for now I only want to call your attention to the following paper that may answer some of the challenging questions raised by Stephen. For thoses interested, this paper is available at my home page, http://www.conformon.net, under Publications > Refereed Articles: "The cell as the smallest DNA-based molecular computer" Sungchul Ji Department of Pharmacology and Toxicology, Rutgers University, Piscataway, NJ 08855, USA Abstract: The pioneering work of Adleman (1994) demonstrated that DNA molecules in test tubes can be manipulated to perform a certain type of mathematical computation. This has stimulated a theoretical interest in the possibility of constructing DNA-based molecular computers. To gauge the practicality of realizing such microscopic computers, it was thought necessary to learn as much as possible from the biology of the living cell—presently the only known DNA-based molecular computer in existence. Here the recently developed theoretical model of the living cell (the Bhopalator) and its associated theories (e.g. cell language), principles, laws and concepts (e.g. conformons, IDS’s) are briefly reviewed and summarized in the form of a set of five laws of ‘molecular semiotics’ (synonyms include ‘microsemiotics’, ‘cellular semiotics’, or ‘cytosemiotics’)—the study of signs mediating measurement, computation, and communication on the cellular and molecular levels. Hopefully, these laws will find practical applications in designing DNA-based computing systems. All rights reserved. Keywords: Molecular computer; Cell language; Cell model; Molecular semiotics; Cytosemiotics; Microsemiotics; Conformons © 1999 Elsevier Science Ireland Ltd All the best. Sung On Thu, Oct 22, 2015 at 12:30 PM, Ozzie wrote: Stephen ~ At the close of your posting on DNA, you wrote: "Anyone else interested in exploring this further? There seems to be a reluctance for people to step beyond their spheres of expertise, perhaps for fear of ridicule." Following that invitation, I commented on the role played by DNA in Pragmatic logic. Your response (below): "Your explanation is an example of those self-consistent narratives that people construct in order to rationalize their assumptions." I am not the first to suggest that DNA is a polymer, so I'm not rationalizing my assumptions. It's a common view among experts: "DNA is a polymer." http://www.blc.arizona.edu/molecular_graphics/dna_structure/dna_tutorial.html. I simply explained how to interpret the DNA polymer in terms consistent with Pragmatic logic: DNA memorializes evolutionarily successful "habits" in the polymer, and those habits are later engaged (as "instinct") when electrochemical changes in the environment trigger the polymer/habit into action. I also suggested an empirical test for your view DNA that "communicates" at a distance. DNA as Pragmatic logic: Successive generations of humans experience "random" variations in their genes. People with those variations are (mainly) unaware of it, and go on living their lives. However, in Pragmatic logic those variations are functionally equivalent to abducted hypotheses about superior habits that would generate greater survivability. Life experiences following the abducted hypotheses are functionally equivalent to inductive activities (tests). A gene variation that eventually proves to have greater survival value represents a new/superior version of the human gene: The offspring of the hybrid-human expand to dominate the population. That updated gene functionally corresponds to a deductive model (in the polymer) on how to successfully navigate the environment. Subsequent generations will carry that habit. Then the process begins anew: Deduction, abduction, induction, deduction, abduction, induction ... Regards, Tom Wyrick On Oct 21, 2015, at 11:47 AM, Stephen Jarosek wrote: Tom, your explanation is an example of those self-consistent narratives that people construct in order to rationalize their assumptions. We all do it on occasion, some
RE: [PEIRCE-L] Show us the computer - reasons for DNA entanglement
>”If a polymer is cut in two, I am not familiar with any rule of polymers that >prevents each segment from reacting to a common field of electrochemical >energy. The "correlation" that exists between the segments is due to the >common field (of electrochemical energy) they share. Why not separate the two >DNA strands (or neurons if you prefer) and immerse them in different >electrochemical environments? If they're still communicating or their >behavior is still correlated after that, then your hypothesis has empirical >support.“ Tom, your suggestion to separate the two DNA strands and test them, as described, is interesting. But I have no idea about how to go about stimulating one, and testing for a response from the other. I cited the experiment by Pizzi et al, because this kind of experiment does what you suggest, but from a systemic perspective from which we can only infer DNA entanglement as likely but not conclusive. As do some other experiments. When I first heard of Cleve Backster years ago, he suggested an analogous experimental approach. In one his earliest experiments, he removed some cells from a female subject (maybe saliva, or a biopsy, can’t remember), and connected them to his EEG equipment. As she was walking around outside, the blips on his EEG correlated with her experiences outside. The following video clip on Backster’s work describes the same kind of experiment, beginning at 5:44: https://www.youtube.com/watch?v=V7V6D33HGt8 <https://www.youtube.com/watch?v=V7V6D33HGt8&feature=youtu.be> &feature=youtu.be As I see it, there can only be one mechanism that can elicit this kind of reaction... DNA entanglement. But there is good reason to be sceptical of Backster’s experiments, especially when he ventures into the topic of plants having feelings, and his experiments involving eggs and yoghurt [cue eye-rolls]. Was he a fraud? Or was he simply too keen to interpret spurious results as evidence that supported his agenda? I think that his biopsy-human experiments (testing a culture of biopsied cells for responses to the experiences of the host subject) are worth having a closer look at... this kind of experiment is not costly, and could provide compelling evidence to suggest DNA entanglement. But if you can suggest an experiment that more directly and conclusively tests for entanglement, this would be most interesting. But I know nothing about polymers and the experimental approach that you are suggesting. Is there a way of somehow providing an input to one DNA molecule and testing for a response from the other? My own guess is that such experiments can only be done in a living context, such as suggested in Pizzi and Backster above. sj PS: Imagine the implications if we can turn DNA entanglement to a practical application. Like having a vial of saliva from a subject that is connected to a detector... maybe as an alternative to EEG for detecting when someone is lying, or maybe as a baby-monitor to detect when one’s infant, in another location, is in crisis. Nothing like a practical application to bring a theory to life! From: Ozzie [mailto:ozzie...@gmail.com] Sent: Thursday, 22 October 2015 6:31 PM To: Stephen Jarosek Cc: Peirce-L Subject: Re: [PEIRCE-L] Show us the computer - reasons for DNA entanglement Stephen ~ At the close of your posting on DNA, you wrote: "Anyone else interested in exploring this further? There seems to be a reluctance for people to step beyond their spheres of expertise, perhaps for fear of ridicule." Following that invitation, I commented on the role played by DNA in Pragmatic logic. Your response (below): "Your explanation is an example of those self-consistent narratives that people construct in order to rationalize their assumptions." I am not the first to suggest that DNA is a polymer, so I'm not rationalizing my assumptions. It's a common view among experts: "DNA is a polymer." http://www.blc.arizona.edu/molecular_graphics/dna_structure/dna_tutorial.html. I simply explained how to interpret the DNA polymer in terms consistent with Pragmatic logic: DNA memorializes evolutionarily successful "habits" in the polymer, and those habits are later engaged (as "instinct") when electrochemical changes in the environment trigger the polymer/habit into action. I also suggested an empirical test for your view DNA that "communicates" at a distance. DNA as Pragmatic logic: Successive generations of humans experience "random" variations in their genes. People with those variations are (mainly) unaware of it, and go on living their lives. However, in Pragmatic logic those variations are functionally equivalent to abducted hypotheses about superior habits that would generate greater survivability. Life experiences following the abducted hypotheses a
Re: [PEIRCE-L] Show us the computer - reasons for DNA entanglement
ext of my axiomatic framework, your explanation does not work. Within > an infinite universe, minute, complex structures might stumble into > existence according to the laws of chance... and then blink out again just > as quickly. With all the forces of entropy arrayed against them, the > minutest, most complex structures won’t last. It is their persistence > across time that is the deal-breaker. Of course I could be wrong, but then > I do emphasize that my axiomatic framework is a best guess. Yours is a > rationalization... a “just so” story... that is absent of an axiomatic > framework to anchor to. sj > > > > *From:* Ozzie [mailto:ozzie...@gmail.com ] > *Sent:* Wednesday, 21 October 2015 6:09 PM > *To:* Stephen Jarosek > *Cc:* Peirce-L > *Subject:* Re: [PEIRCE-L] Show us the computer - reasons for DNA > entanglement > > > > Stephen ~ > > DNA is a polymer that represents habits that persisted and experienced > evolutionary success. That is an exercise in Pragmatic logic. The polymer > is later activated by electrochemical energy in its immediate environment. > That is Pragmatic logic, too. > > > > The knowing-how-to-be behavior you emphasize may be the result of the DNA > a polymer expressing itself as instinct. No computer is required for > polymers to work, so the absence of a computer is not evidence of anything > (other than a confused analysis). The logic involving the polymer has > already been performed (perhaps millions of years previously), so it > responds to a trigger from the environment -- a logical "abduction" that > the situation has changed. > > > > If a polymer is cut in two, I am not familiar with any rule of polymers > that prevents each segment from reacting to a common field of > electrochemical energy. The "correlation" that exists between the segments > is due to the common field (of electrochemical energy) they share. Why not > separate the two DNA strands (or neurons if you prefer) and immerse them in > different electrochemical environments? If they're still communicating or > their behavior is still correlated after that, then your hypothesis has > empirical support. > > > > This is a good illustration for my observation yesterday that any deeper > analysis of logic must be grounded in physical reality. > > > > Regards, > > Tom Wyrick > > > > > > > > > On Oct 21, 2015, at 6:34 AM, Stephen Jarosek > wrote: > > List, > > The more that I think about DNA entanglement, the more I am of the opinion > that it needs to be factored into the semiotic narrative. Because we do not > have all the facts, we should do so in a way that keeps open the option for > expanding our narrative to include nonlocal phenomena (such as DNA > entanglement). > > The established narrative on DNA theory, based as it is in the information > technology (infotech) metaphor that compares the brain to a computer, is > fundamentally flawed. It is flawed for a number of reasons, but the most > obvious one is that for all this purported data “software” in the DNA, > there is nothing resembling a computer to process it. If the mainstream > life-science community is to persist with this infotech narrative, then > they need to be consistent. But how can they remain consistent if, in > violation of the principles of complexity and the laws of thermodynamics > (entropy), it is impossible for anything resembling a computer to occur in > nature? > > Thus, what we are left with at the heart of any cell, is DNA molecules... > with no evidence of any infotech mechanism that might process the “data”. > SHOW US THE COMPUTER! NO COMPUTER, NO DNA INFOTECH (and no genocentric > paradigm). It’s that simple. This topic should be of interest to us in > semiotics, because ultimately, I suggest, the principles on which DNA > function are semiotic in character. > > In their experiment testing for the possibility of non-local correlations > between separated neural networks, Pizzi et al (2004) conclude that “after > an initial stage where the system interacts by direct contact, also in the > following stage where the system has been separated into two sections, a > sort of correlation persists between sections. This is what , at a > macroscopic level, we verify in our experiment: it seems that neurons > utilize the quantum information to synchronize.” > > > > *Given what we know of entanglement between particles, the only way in > which correlations between separated neural networks can occur is via the > DNA molecules within the neurons .*Other similar experiments in > biophysics arrive at similar or analogous conclusions. And the most common > question raised among researchers i
RE: [PEIRCE-L] Show us the computer - reasons for DNA entanglement
Thanks Tom, for your clarification. I’m about to bolt out the door, I’ll take a closer look at this tomorrow. Cheers, sj From: Ozzie [mailto:ozzie...@gmail.com] Sent: Thursday, 22 October 2015 6:31 PM To: Stephen Jarosek Cc: Peirce-L Subject: Re: [PEIRCE-L] Show us the computer - reasons for DNA entanglement Stephen ~ At the close of your posting on DNA, you wrote: "Anyone else interested in exploring this further? There seems to be a reluctance for people to step beyond their spheres of expertise, perhaps for fear of ridicule." Following that invitation, I commented on the role played by DNA in Pragmatic logic. Your response (below): "Your explanation is an example of those self-consistent narratives that people construct in order to rationalize their assumptions." I am not the first to suggest that DNA is a polymer, so I'm not rationalizing my assumptions. It's a common view among experts: "DNA is a polymer." http://www.blc.arizona.edu/molecular_graphics/dna_structure/dna_tutorial.html. I simply explained how to interpret the DNA polymer in terms consistent with Pragmatic logic: DNA memorializes evolutionarily successful "habits" in the polymer, and those habits are later engaged (as "instinct") when electrochemical changes in the environment trigger the polymer/habit into action. I also suggested an empirical test for your view DNA that "communicates" at a distance. DNA as Pragmatic logic: Successive generations of humans experience "random" variations in their genes. People with those variations are (mainly) unaware of it, and go on living their lives. However, in Pragmatic logic those variations are functionally equivalent to abducted hypotheses about superior habits that would generate greater survivability. Life experiences following the abducted hypotheses are functionally equivalent to inductive activities (tests). A gene variation that eventually proves to have greater survival value represents a new/superior version of the human gene: The offspring of the hybrid-human expand to dominate the population. That updated gene functionally corresponds to a deductive model (in the polymer) on how to successfully navigate the environment. Subsequent generations will carry that habit. Then the process begins anew: Deduction, abduction, induction, deduction, abduction, induction ... Regards, Tom Wyrick On Oct 21, 2015, at 11:47 AM, Stephen Jarosek wrote: Tom, your explanation is an example of those self-consistent narratives that people construct in order to rationalize their assumptions. We all do it on occasion, some more than others, and we all have to be on guard against this predisposition. One of the ways we might do so is to formalize our thinking in terms of axioms – a framework of best guesses. Within the context of my axiomatic framework, your explanation does not work. Within an infinite universe, minute, complex structures might stumble into existence according to the laws of chance... and then blink out again just as quickly. With all the forces of entropy arrayed against them, the minutest, most complex structures won’t last. It is their persistence across time that is the deal-breaker. Of course I could be wrong, but then I do emphasize that my axiomatic framework is a best guess. Yours is a rationalization... a “just so” story... that is absent of an axiomatic framework to anchor to. sj From: Ozzie [mailto:ozzie...@gmail.com] Sent: Wednesday, 21 October 2015 6:09 PM To: Stephen Jarosek Cc: Peirce-L Subject: Re: [PEIRCE-L] Show us the computer - reasons for DNA entanglement Stephen ~ DNA is a polymer that represents habits that persisted and experienced evolutionary success. That is an exercise in Pragmatic logic. The polymer is later activated by electrochemical energy in its immediate environment. That is Pragmatic logic, too. The knowing-how-to-be behavior you emphasize may be the result of the DNA a polymer expressing itself as instinct. No computer is required for polymers to work, so the absence of a computer is not evidence of anything (other than a confused analysis). The logic involving the polymer has already been performed (perhaps millions of years previously), so it responds to a trigger from the environment -- a logical "abduction" that the situation has changed. If a polymer is cut in two, I am not familiar with any rule of polymers that prevents each segment from reacting to a common field of electrochemical energy. The "correlation" that exists between the segments is due to the common field (of electrochemical energy) they share. Why not separate the two DNA strands (or neurons if you prefer) and immerse them in different electrochemical environments? If they're still communicating or their behavior is still correlated after that, t
Re: [PEIRCE-L] Show us the computer - reasons for DNA entanglement
Stephen ~ At the close of your posting on DNA, you wrote: "Anyone else interested in exploring this further? There seems to be a reluctance for people to step beyond their spheres of expertise, perhaps for fear of ridicule." Following that invitation, I commented on the role played by DNA in Pragmatic logic. Your response (below): "Your explanation is an example of those self-consistent narratives that people construct in order to rationalize their assumptions." I am not the first to suggest that DNA is a polymer, so I'm not rationalizing my assumptions. It's a common view among experts: "DNA is a polymer." http://www.blc.arizona.edu/molecular_graphics/dna_structure/dna_tutorial.html. I simply explained how to interpret the DNA polymer in terms consistent with Pragmatic logic: DNA memorializes evolutionarily successful "habits" in the polymer, and those habits are later engaged (as "instinct") when electrochemical changes in the environment trigger the polymer/habit into action. I also suggested an empirical test for your view DNA that "communicates" at a distance. DNA as Pragmatic logic: Successive generations of humans experience "random" variations in their genes. People with those variations are (mainly) unaware of it, and go on living their lives. However, in Pragmatic logic those variations are functionally equivalent to abducted hypotheses about superior habits that would generate greater survivability. Life experiences following the abducted hypotheses are functionally equivalent to inductive activities (tests). A gene variation that eventually proves to have greater survival value represents a new/superior version of the human gene: The offspring of the hybrid-human expand to dominate the population. That updated gene functionally corresponds to a deductive model (in the polymer) on how to successfully navigate the environment. Subsequent generations will carry that habit. Then the process begins anew: Deduction, abduction, induction, deduction, abduction, induction ... Regards, Tom Wyrick > On Oct 21, 2015, at 11:47 AM, Stephen Jarosek wrote: > > Tom, your explanation is an example of those self-consistent narratives that > people construct in order to rationalize their assumptions. We all do it on > occasion, some more than others, and we all have to be on guard against this > predisposition. One of the ways we might do so is to formalize our thinking > in terms of axioms – a framework of best guesses. Within the context of my > axiomatic framework, your explanation does not work. Within an infinite > universe, minute, complex structures might stumble into existence according > to the laws of chance... and then blink out again just as quickly. With all > the forces of entropy arrayed against them, the minutest, most complex > structures won’t last. It is their persistence across time that is the > deal-breaker. Of course I could be wrong, but then I do emphasize that my > axiomatic framework is a best guess. Yours is a rationalization... a “just > so” story... that is absent of an axiomatic framework to anchor to. sj > > From: Ozzie [mailto:ozzie...@gmail.com] > Sent: Wednesday, 21 October 2015 6:09 PM > To: Stephen Jarosek > Cc: Peirce-L > Subject: Re: [PEIRCE-L] Show us the computer - reasons for DNA entanglement > > Stephen ~ > DNA is a polymer that represents habits that persisted and experienced > evolutionary success. That is an exercise in Pragmatic logic. The polymer > is later activated by electrochemical energy in its immediate environment. > That is Pragmatic logic, too. > > The knowing-how-to-be behavior you emphasize may be the result of the DNA a > polymer expressing itself as instinct. No computer is required for polymers > to work, so the absence of a computer is not evidence of anything (other than > a confused analysis). The logic involving the polymer has already been > performed (perhaps millions of years previously), so it responds to a trigger > from the environment -- a logical "abduction" that the situation has changed. > > If a polymer is cut in two, I am not familiar with any rule of polymers that > prevents each segment from reacting to a common field of electrochemical > energy. The "correlation" that exists between the segments is due to the > common field (of electrochemical energy) they share. Why not separate the > two DNA strands (or neurons if you prefer) and immerse them in different > electrochemical environments? If they're still communicating or their > behavior is still correlated after that, then your hypothesis has empirical > support. > > This is a good illustration for my observation yesterday that any deeper > an
RE: [PEIRCE-L] Show us the computer - reasons for DNA entanglement
Please ignore my last post, Edwina (trying to do too many things at once)... I’m referring to the pervasiveness of the infotech narrative that persists down to the level of the cell... the idea of DNA as information. This assumption persists, even in CAS. The implication being that we need to find that computer that runs the DNA “software.” Take the field of epigenetics, for example... it is still a genocentric paradigm, even as it purports an explanation for phenotypic plasticity subject to environmental pressures. Norman Doidge’s “The brain that changes itself” and Howard Bloom’s “The global brain” are influenced by the same infotech narrative, even though the former is a pioneer in neural plasticity and the latter an innovator in CAS. The infotech narrative is a persistent beast that just refuses to go away, even within the context of complex adaptive systems. So what I want to know is, where within the cell is it that this “computer” resides? Is the computer in the nucleus of the cell? In the bloodstream? In a limb? In the pituitary gland? On the head of a pin? Point to this computer, this processor of DNA “software”, describe how it works, and then we’ll all be happy. sj From: Stephen Jarosek [mailto:sjaro...@iinet.net.au] Sent: Wednesday, 21 October 2015 10:21 PM To: 'Edwina Taborsky'; 'Peirce-L' Subject: RE: [PEIRCE-L] Show us the computer - reasons for DNA entanglement Edwina, if you accept the CAS interpretation as appropriate, while rejecting the mainstream’s preference for the infotech narrative, then there is still no solid theory, as far as I am aware, of how DNA engages within the context of a CAS. So whichever way we look at it, there is no adequate explanation anywhere, of how DNA works. For one, the paradigm is broken, while for the other, the question is not addressed. sj From: Edwina Taborsky [mailto:tabor...@primus.ca] Sent: Wednesday, 21 October 2015 9:58 PM To: Stephen Jarosek; 'Peirce-L' Subject: Re: [PEIRCE-L] Show us the computer - reasons for DNA entanglement Stephen - maybe you think that the 'existing model' of the Mind is a computer. But I don't. I think it's a neurological semiosic networked process, a CAS (complex adaptive system). Edwina - Original Message - From: Stephen Jarosek <mailto:sjaro...@iinet.net.au> To: 'Edwina Taborsky' <mailto:tabor...@primus.ca> ; 'Peirce-L' <mailto:peirce-L@list.iupui.edu> Sent: Wednesday, October 21, 2015 12:52 PM Subject: RE: [PEIRCE-L] Show us the computer - reasons for DNA entanglement >”But I don't agree that the existing model is broken and inconsistent with >natural law!” Excellent! This means that you will be able to do one of two things: 1) You will be able to pinpoint the computer, where it lies, and explain how it works; OR 2) You will be able to provide a laboratory demonstration/simulation/proof outlining Tom’s (Ozzie) explanation just posted. I await your account with eager anticipation! Thanking you in advance J sj From: Edwina Taborsky [mailto:tabor...@primus.ca] Sent: Wednesday, 21 October 2015 6:03 PM To: Stephen Jarosek; 'Peirce-L' Subject: Re: [PEIRCE-L] Show us the computer - reasons for DNA entanglement Stephen - YOU consider that "You’re putting up blocks based in pre-existing narratives that are in inconclusive, and an existing model that is broken and inconsistent with natural law. " But I don't agree that the existing model is broken and inconsistent with natural law! So, as usual, you and I continue to disagree. As for our species being heavily based around learning - yes, but our innate capacity for reasoning and logic enables us to learn. Edwina - Original Message - From: Stephen Jarosek <mailto:sjaro...@iinet.net.au> To: 'Edwina Taborsky' <mailto:tabor...@primus.ca> ; 'Peirce-L' <mailto:peirce-L@list.iupui.edu> Sent: Wednesday, October 21, 2015 9:50 AM Subject: RE: [PEIRCE-L] Show us the computer - reasons for DNA entanglement Edwina, I hope we can avoid returning to the innate-vs-NOTInnate controversy, as we have zero chance of agreement there J No, I’m not reducing causality to only one... far from it. I started writing out a spiel of exceptions and interpretations and realized that it would culminate in a blather that no-one would want to read. So for the sake of brevity, I have left out a lot. I assumed that most of us here are sufficiently well-versed on the topic that we don’t need to labour over the detail. But yes, strictly speaking, you are correct, of course there ARE other causalities. So what is it that you are suggesting about how a tree develops from a seed into a tree? Is it in the DNA? We both agree, I assume, that DNA is very important. All I am doing is suggesting that there is something else goi
RE: [PEIRCE-L] Show us the computer - reasons for DNA entanglement
Edwina, if you accept the CAS interpretation as appropriate, while rejecting the mainstream’s preference for the infotech narrative, then there is still no solid theory, as far as I am aware, of how DNA engages within the context of a CAS. So whichever way we look at it, there is no adequate explanation anywhere, of how DNA works. For one, the paradigm is broken, while for the other, the question is not addressed. sj From: Edwina Taborsky [mailto:tabor...@primus.ca] Sent: Wednesday, 21 October 2015 9:58 PM To: Stephen Jarosek; 'Peirce-L' Subject: Re: [PEIRCE-L] Show us the computer - reasons for DNA entanglement Stephen - maybe you think that the 'existing model' of the Mind is a computer. But I don't. I think it's a neurological semiosic networked process, a CAS (complex adaptive system). Edwina - Original Message - From: Stephen Jarosek <mailto:sjaro...@iinet.net.au> To: 'Edwina Taborsky' <mailto:tabor...@primus.ca> ; 'Peirce-L' <mailto:peirce-L@list.iupui.edu> Sent: Wednesday, October 21, 2015 12:52 PM Subject: RE: [PEIRCE-L] Show us the computer - reasons for DNA entanglement >”But I don't agree that the existing model is broken and inconsistent with >natural law!” Excellent! This means that you will be able to do one of two things: 1) You will be able to pinpoint the computer, where it lies, and explain how it works; OR 2) You will be able to provide a laboratory demonstration/simulation/proof outlining Tom’s (Ozzie) explanation just posted. I await your account with eager anticipation! Thanking you in advance J sj From: Edwina Taborsky [mailto:tabor...@primus.ca] Sent: Wednesday, 21 October 2015 6:03 PM To: Stephen Jarosek; 'Peirce-L' Subject: Re: [PEIRCE-L] Show us the computer - reasons for DNA entanglement Stephen - YOU consider that "You’re putting up blocks based in pre-existing narratives that are in inconclusive, and an existing model that is broken and inconsistent with natural law. " But I don't agree that the existing model is broken and inconsistent with natural law! So, as usual, you and I continue to disagree. As for our species being heavily based around learning - yes, but our innate capacity for reasoning and logic enables us to learn. Edwina - Original Message - From: Stephen Jarosek <mailto:sjaro...@iinet.net.au> To: 'Edwina Taborsky' <mailto:tabor...@primus.ca> ; 'Peirce-L' <mailto:peirce-L@list.iupui.edu> Sent: Wednesday, October 21, 2015 9:50 AM Subject: RE: [PEIRCE-L] Show us the computer - reasons for DNA entanglement Edwina, I hope we can avoid returning to the innate-vs-NOTInnate controversy, as we have zero chance of agreement there J No, I’m not reducing causality to only one... far from it. I started writing out a spiel of exceptions and interpretations and realized that it would culminate in a blather that no-one would want to read. So for the sake of brevity, I have left out a lot. I assumed that most of us here are sufficiently well-versed on the topic that we don’t need to labour over the detail. But yes, strictly speaking, you are correct, of course there ARE other causalities. So what is it that you are suggesting about how a tree develops from a seed into a tree? Is it in the DNA? We both agree, I assume, that DNA is very important. All I am doing is suggesting that there is something else going on, and it is not the infotech theory of DNA. It CANNOT be the infotech version, impossible, because it violates the laws of thermodynamics. I could, however, be persuaded if someone showed me the computer that processes the tree’s DNA software. >”Furthermore, societal forms, such as the type of work you do, have nothing to >do with genes but with learning - and our species is, by definition, heavily >focused around learning.“ I get a bd feeling about this. Innate-vs-NOTInnate... nooo! Edwina, all I’m trying to do is, in the spirit of brainstorming, to introduce the question into our narrative. I’m not even proposing definitive answers. You’re putting up blocks based in pre-existing narratives that are in inconclusive, and an existing model that is broken and inconsistent with natural law. sj From: Edwina Taborsky [mailto:tabor...@primus.ca] Sent: Wednesday, 21 October 2015 2:35 PM To: Stephen Jarosek; 'Peirce-L' Subject: Re: [PEIRCE-L] Show us the computer - reasons for DNA entanglement Stephen - I disagree; you are reducing causality to only one - efficient causality (i.e., proximate). A tree doesn't 'know how to be' merely and only if it is growing next to another similar tree. Furthermore, societal forms, such as the type of work you do, have nothing to do with genes but with learning - and our species is, by definition, heavily focused around lea
Re: [PEIRCE-L] Show us the computer - reasons for DNA entanglement
Stephen - maybe you think that the 'existing model' of the Mind is a computer. But I don't. I think it's a neurological semiosic networked process, a CAS (complex adaptive system). Edwina - Original Message - From: Stephen Jarosek To: 'Edwina Taborsky' ; 'Peirce-L' Sent: Wednesday, October 21, 2015 12:52 PM Subject: RE: [PEIRCE-L] Show us the computer - reasons for DNA entanglement >”But I don't agree that the existing model is broken and inconsistent with natural law!” Excellent! This means that you will be able to do one of two things: 1) You will be able to pinpoint the computer, where it lies, and explain how it works; OR 2) You will be able to provide a laboratory demonstration/simulation/proof outlining Tom’s (Ozzie) explanation just posted. I await your account with eager anticipation! Thanking you in advance J sj From: Edwina Taborsky [mailto:tabor...@primus.ca] Sent: Wednesday, 21 October 2015 6:03 PM To: Stephen Jarosek; 'Peirce-L' Subject: Re: [PEIRCE-L] Show us the computer - reasons for DNA entanglement Stephen - YOU consider that "You’re putting up blocks based in pre-existing narratives that are in inconclusive, and an existing model that is broken and inconsistent with natural law. " But I don't agree that the existing model is broken and inconsistent with natural law! So, as usual, you and I continue to disagree. As for our species being heavily based around learning - yes, but our innate capacity for reasoning and logic enables us to learn. Edwina - Original Message - From: Stephen Jarosek To: 'Edwina Taborsky' ; 'Peirce-L' Sent: Wednesday, October 21, 2015 9:50 AM Subject: RE: [PEIRCE-L] Show us the computer - reasons for DNA entanglement Edwina, I hope we can avoid returning to the innate-vs-NOTInnate controversy, as we have zero chance of agreement there J No, I’m not reducing causality to only one... far from it. I started writing out a spiel of exceptions and interpretations and realized that it would culminate in a blather that no-one would want to read. So for the sake of brevity, I have left out a lot. I assumed that most of us here are sufficiently well-versed on the topic that we don’t need to labour over the detail. But yes, strictly speaking, you are correct, of course there ARE other causalities. So what is it that you are suggesting about how a tree develops from a seed into a tree? Is it in the DNA? We both agree, I assume, that DNA is very important. All I am doing is suggesting that there is something else going on, and it is not the infotech theory of DNA. It CANNOT be the infotech version, impossible, because it violates the laws of thermodynamics. I could, however, be persuaded if someone showed me the computer that processes the tree’s DNA software. >”Furthermore, societal forms, such as the type of work you do, have nothing to do with genes but with learning - and our species is, by definition, heavily focused around learning.“ I get a bd feeling about this. Innate-vs-NOTInnate... nooo! Edwina, all I’m trying to do is, in the spirit of brainstorming, to introduce the question into our narrative. I’m not even proposing definitive answers. You’re putting up blocks based in pre-existing narratives that are in inconclusive, and an existing model that is broken and inconsistent with natural law. sj From: Edwina Taborsky [mailto:tabor...@primus.ca] Sent: Wednesday, 21 October 2015 2:35 PM To: Stephen Jarosek; 'Peirce-L' Subject: Re: [PEIRCE-L] Show us the computer - reasons for DNA entanglement Stephen - I disagree; you are reducing causality to only one - efficient causality (i.e., proximate). A tree doesn't 'know how to be' merely and only if it is growing next to another similar tree. Furthermore, societal forms, such as the type of work you do, have nothing to do with genes but with learning - and our species is, by definition, heavily focused around learning. Edwina - Original Message - From: Stephen Jarosek To: 'Peirce-L' Sent: Wednesday, October 21, 2015 7:34 AM Subject: [PEIRCE-L] Show us the computer - reasons for DNA entanglement List, The more that I think about DNA entanglement, the more I am of the opinion that it needs to be factored into the semiotic narrative. Because we do not have all the facts, we should do so in a way that keeps open the option for expanding our narrative to include nonlocal phenomena (such as DNA entanglement). The established narrative on DNA theory, based as it is in the information technology (infotech) metaphor that compares the brain to a computer, is fund
RE: [PEIRCE-L] Show us the computer - reasons for DNA entanglement
Excellent question Sung, and a most important one! The mechanism of DNA entanglement requires rethinking existing assumptions. I was hoping to initiate conversation around this theme in a spirit of brainstorming, but it seems that the forum is not overly receptive to this style of conversation... with due fairness, perhaps they’re right, as it diverges considerably from the established Peircean narrative. If you are interested, we can take the conversation further, offline from the forum. sj From: sji.confor...@gmail.com [mailto:sji.confor...@gmail.com] On Behalf Of Sungchul Ji Sent: Wednesday, 21 October 2015 8:14 PM To: Stephen Jarosek Cc: Peirce-L Subject: Re: [PEIRCE-L] Show us the computer - reasons for DNA entanglement Stephen J, What is the mechanism of DNA entanglement ? Without any realistic mechanism to go with it, wouldn't it be just a name ? Sung On Wed, Oct 21, 2015 at 7:34 AM, Stephen Jarosek wrote: List, The more that I think about DNA entanglement, the more I am of the opinion that it needs to be factored into the semiotic narrative. Because we do not have all the facts, we should do so in a way that keeps open the option for expanding our narrative to include nonlocal phenomena (such as DNA entanglement). The established narrative on DNA theory, based as it is in the information technology (infotech) metaphor that compares the brain to a computer, is fundamentally flawed. It is flawed for a number of reasons, but the most obvious one is that for all this purported data “software” in the DNA, there is nothing resembling a computer to process it. If the mainstream life-science community is to persist with this infotech narrative, then they need to be consistent. But how can they remain consistent if, in violation of the principles of complexity and the laws of thermodynamics (entropy), it is impossible for anything resembling a computer to occur in nature? Thus, what we are left with at the heart of any cell, is DNA molecules... with no evidence of any infotech mechanism that might process the “data”. SHOW US THE COMPUTER! NO COMPUTER, NO DNA INFOTECH (and no genocentric paradigm). It’s that simple. This topic should be of interest to us in semiotics, because ultimately, I suggest, the principles on which DNA function are semiotic in character. In their experiment testing for the possibility of non-local correlations between separated neural networks, Pizzi et al (2004) conclude that “after an initial stage where the system interacts by direct contact, also in the following stage where the system has been separated into two sections, a sort of correlation persists between sections. This is what , at a macroscopic level, we verify in our experiment: it seems that neurons utilize the quantum information to synchronize.” Given what we know of entanglement between particles, the only way in which correlations between separated neural networks can occur is via the DNA molecules within the neurons . Other similar experiments in biophysics arrive at similar or analogous conclusions. And the most common question raised among researchers in quantum biology, including Pizzi et al above, is along the lines of... how do mechanisms within the cell utilize entanglement? I would suggest that they have their reasoning back-to-front. It is not the mechanisms that utilize entanglement, but entanglement that is the source for the mechanisms, properties and predispositions. And this reframes the problem as one that relates principally to semiotics. As a tentative description for how this might relate to semiotics, here’s one of my conjectures: Entanglement between DNA molecules, I suggest, enables the body's cells to access the shared mind-body condition, to be informed by it. In this way, DNA entanglement plays a crucial role in knowing how to be. This would be analogous to how our telecommunication technologies provide every person in a city with immediate access to the city's options, to inform its people on how to be. For example, people growing up in working-class or middle-class suburbs are more likely to know how to be tradesmen, shopkeepers, nurses, police or the unemployed, while people growing up in upper-class suburbs are more likely to know how to be professionals, investors, office-workers or, simply, the idle rich. This interpretation would be consistent with how stem-cells develop, contingent on their location within the organs of the body. A stem-cell has to know how to be before it can become a productive cell with its role in an organ properly defined. And the stem-cell’s proximal/local context is what teases out its predispositions, in order to define its ultimate purpose. This line of thinking seems to resonate with aspects of David Bohm’s implicate/explicate order. [What I have in mind here is also analogous to Rupert Sheldrake’s theory of morphic resonance, where he regards the DNA molecu
Re: [PEIRCE-L] Show us the computer - reasons for DNA entanglement
Stephen J, What is the mechanism of DNA entanglement ? Without any realistic mechanism to go with it, wouldn't it be just a name ? Sung On Wed, Oct 21, 2015 at 7:34 AM, Stephen Jarosek wrote: > List, > > The more that I think about DNA entanglement, the more I am of the opinion > that it needs to be factored into the semiotic narrative. Because we do not > have all the facts, we should do so in a way that keeps open the option for > expanding our narrative to include nonlocal phenomena (such as DNA > entanglement). > > The established narrative on DNA theory, based as it is in the information > technology (infotech) metaphor that compares the brain to a computer, is > fundamentally flawed. It is flawed for a number of reasons, but the most > obvious one is that for all this purported data “software” in the DNA, > there is nothing resembling a computer to process it. If the mainstream > life-science community is to persist with this infotech narrative, then > they need to be consistent. But how can they remain consistent if, in > violation of the principles of complexity and the laws of thermodynamics > (entropy), it is impossible for anything resembling a computer to occur in > nature? > > Thus, what we are left with at the heart of any cell, is DNA molecules... > with no evidence of any infotech mechanism that might process the “data”. > SHOW US THE COMPUTER! NO COMPUTER, NO DNA INFOTECH (and no genocentric > paradigm). It’s that simple. This topic should be of interest to us in > semiotics, because ultimately, I suggest, the principles on which DNA > function are semiotic in character. > > In their experiment testing for the possibility of non-local correlations > between separated neural networks, Pizzi et al (2004) conclude that “after > an initial stage where the system interacts by direct contact, also in the > following stage where the system has been separated into two sections, a > sort of correlation persists between sections. This is what , at a > macroscopic level, we verify in our experiment: it seems that neurons > utilize the quantum information to synchronize.” > > > > *Given what we know of entanglement between particles, the only way in > which correlations between separated neural networks can occur is via the > DNA molecules within the neurons .*Other similar experiments in > biophysics arrive at similar or analogous conclusions. And the most common > question raised among researchers in quantum biology, including Pizzi et al > above, is along the lines of... how do mechanisms within the cell utilize > entanglement? I would suggest that they have their reasoning back-to-front. > *It > is not the mechanisms that utilize entanglement, but entanglement that is > the source for the mechanisms, properties and predispositions*. And this > reframes the problem as one that relates principally to semiotics. > > As a tentative description for how this might relate to semiotics, here’s > one of my conjectures: Entanglement between DNA molecules, I suggest, > enables the body's cells to access the shared mind-body condition, to be > informed by it. In this way, DNA entanglement plays a crucial role in *knowing > how to be*. This would be analogous to how our telecommunication > technologies provide every person in a city with immediate access to the > city's options, to inform its people on *how to be*. For example, people > growing up in working-class or middle-class suburbs are more likely to *know > how to be* tradesmen, shopkeepers, nurses, police or the unemployed, > while people growing up in upper-class suburbs are more likely to *know > how to be* professionals, investors, office-workers or, simply, the idle > rich. This interpretation would be consistent with how stem-cells develop, > contingent on their location within the organs of the body. A stem-cell has > to *know how to be* before it can become a productive cell with its role > in an organ properly defined. And the stem-cell’s proximal/local context is > what teases out its predispositions, in order to define its ultimate > purpose. This line of thinking seems to resonate with aspects of David > Bohm’s implicate/explicate order. [What I have in mind here is also > analogous to Rupert Sheldrake’s theory of morphic resonance, where he > regards the DNA molecule as analogous to a receiver (antenna).] *In > summary, proximal context (face-to-face or synapse-to-synapse) is what > teases out both the neuron’s AND the human’s nonlocal predispositions, to > define their ultimate trajectories.* > > Anyone else interested in exploring this further? There seems to be a > reluctance for people to step beyond their spheres of expertise, perhaps > for fear of ridicule. But in any interdisciplinary endeavour, this needs to > be done. We are ill-served when we allow The Establishment to dominate with > a broken genocentric narrative. At the very least, these ideas merit > brainstorming. > > sj > > Pizzi, R., Fantasia, A., Gelain, F., Rosetti,
RE: [PEIRCE-L] Show us the computer - reasons for DNA entanglement
>”But I don't agree that the existing model is broken and inconsistent with >natural law!” Excellent! This means that you will be able to do one of two things: 1) You will be able to pinpoint the computer, where it lies, and explain how it works; OR 2) You will be able to provide a laboratory demonstration/simulation/proof outlining Tom’s (Ozzie) explanation just posted. I await your account with eager anticipation! Thanking you in advance J sj From: Edwina Taborsky [mailto:tabor...@primus.ca] Sent: Wednesday, 21 October 2015 6:03 PM To: Stephen Jarosek; 'Peirce-L' Subject: Re: [PEIRCE-L] Show us the computer - reasons for DNA entanglement Stephen - YOU consider that "You’re putting up blocks based in pre-existing narratives that are in inconclusive, and an existing model that is broken and inconsistent with natural law. " But I don't agree that the existing model is broken and inconsistent with natural law! So, as usual, you and I continue to disagree. As for our species being heavily based around learning - yes, but our innate capacity for reasoning and logic enables us to learn. Edwina - Original Message - From: Stephen Jarosek <mailto:sjaro...@iinet.net.au> To: 'Edwina Taborsky' <mailto:tabor...@primus.ca> ; 'Peirce-L' <mailto:peirce-L@list.iupui.edu> Sent: Wednesday, October 21, 2015 9:50 AM Subject: RE: [PEIRCE-L] Show us the computer - reasons for DNA entanglement Edwina, I hope we can avoid returning to the innate-vs-NOTInnate controversy, as we have zero chance of agreement there J No, I’m not reducing causality to only one... far from it. I started writing out a spiel of exceptions and interpretations and realized that it would culminate in a blather that no-one would want to read. So for the sake of brevity, I have left out a lot. I assumed that most of us here are sufficiently well-versed on the topic that we don’t need to labour over the detail. But yes, strictly speaking, you are correct, of course there ARE other causalities. So what is it that you are suggesting about how a tree develops from a seed into a tree? Is it in the DNA? We both agree, I assume, that DNA is very important. All I am doing is suggesting that there is something else going on, and it is not the infotech theory of DNA. It CANNOT be the infotech version, impossible, because it violates the laws of thermodynamics. I could, however, be persuaded if someone showed me the computer that processes the tree’s DNA software. >”Furthermore, societal forms, such as the type of work you do, have nothing to >do with genes but with learning - and our species is, by definition, heavily >focused around learning.“ I get a bd feeling about this. Innate-vs-NOTInnate... nooo! Edwina, all I’m trying to do is, in the spirit of brainstorming, to introduce the question into our narrative. I’m not even proposing definitive answers. You’re putting up blocks based in pre-existing narratives that are in inconclusive, and an existing model that is broken and inconsistent with natural law. sj From: Edwina Taborsky [mailto:tabor...@primus.ca] Sent: Wednesday, 21 October 2015 2:35 PM To: Stephen Jarosek; 'Peirce-L' Subject: Re: [PEIRCE-L] Show us the computer - reasons for DNA entanglement Stephen - I disagree; you are reducing causality to only one - efficient causality (i.e., proximate). A tree doesn't 'know how to be' merely and only if it is growing next to another similar tree. Furthermore, societal forms, such as the type of work you do, have nothing to do with genes but with learning - and our species is, by definition, heavily focused around learning. Edwina - Original Message - From: Stephen Jarosek <mailto:sjaro...@iinet.net.au> To: 'Peirce-L' <mailto:peirce-L@list.iupui.edu> Sent: Wednesday, October 21, 2015 7:34 AM Subject: [PEIRCE-L] Show us the computer - reasons for DNA entanglement List, The more that I think about DNA entanglement, the more I am of the opinion that it needs to be factored into the semiotic narrative. Because we do not have all the facts, we should do so in a way that keeps open the option for expanding our narrative to include nonlocal phenomena (such as DNA entanglement). The established narrative on DNA theory, based as it is in the information technology (infotech) metaphor that compares the brain to a computer, is fundamentally flawed. It is flawed for a number of reasons, but the most obvious one is that for all this purported data “software” in the DNA, there is nothing resembling a computer to process it. If the mainstream life-science community is to persist with this infotech narrative, then they need to be consistent. But how can they remain consistent if, in violation of the principles of complexity and the laws of thermodynamics (e
RE: [PEIRCE-L] Show us the computer - reasons for DNA entanglement
Tom, your explanation is an example of those self-consistent narratives that people construct in order to rationalize their assumptions. We all do it on occasion, some more than others, and we all have to be on guard against this predisposition. One of the ways we might do so is to formalize our thinking in terms of axioms – a framework of best guesses. Within the context of my axiomatic framework, your explanation does not work. Within an infinite universe, minute, complex structures might stumble into existence according to the laws of chance... and then blink out again just as quickly. With all the forces of entropy arrayed against them, the minutest, most complex structures won’t last. It is their persistence across time that is the deal-breaker. Of course I could be wrong, but then I do emphasize that my axiomatic framework is a best guess. Yours is a rationalization... a “just so” story... that is absent of an axiomatic framework to anchor to. sj From: Ozzie [mailto:ozzie...@gmail.com] Sent: Wednesday, 21 October 2015 6:09 PM To: Stephen Jarosek Cc: Peirce-L Subject: Re: [PEIRCE-L] Show us the computer - reasons for DNA entanglement Stephen ~ DNA is a polymer that represents habits that persisted and experienced evolutionary success. That is an exercise in Pragmatic logic. The polymer is later activated by electrochemical energy in its immediate environment. That is Pragmatic logic, too. The knowing-how-to-be behavior you emphasize may be the result of the DNA a polymer expressing itself as instinct. No computer is required for polymers to work, so the absence of a computer is not evidence of anything (other than a confused analysis). The logic involving the polymer has already been performed (perhaps millions of years previously), so it responds to a trigger from the environment -- a logical "abduction" that the situation has changed. If a polymer is cut in two, I am not familiar with any rule of polymers that prevents each segment from reacting to a common field of electrochemical energy. The "correlation" that exists between the segments is due to the common field (of electrochemical energy) they share. Why not separate the two DNA strands (or neurons if you prefer) and immerse them in different electrochemical environments? If they're still communicating or their behavior is still correlated after that, then your hypothesis has empirical support. This is a good illustration for my observation yesterday that any deeper analysis of logic must be grounded in physical reality. Regards, Tom Wyrick On Oct 21, 2015, at 6:34 AM, Stephen Jarosek wrote: List, The more that I think about DNA entanglement, the more I am of the opinion that it needs to be factored into the semiotic narrative. Because we do not have all the facts, we should do so in a way that keeps open the option for expanding our narrative to include nonlocal phenomena (such as DNA entanglement). The established narrative on DNA theory, based as it is in the information technology (infotech) metaphor that compares the brain to a computer, is fundamentally flawed. It is flawed for a number of reasons, but the most obvious one is that for all this purported data “software” in the DNA, there is nothing resembling a computer to process it. If the mainstream life-science community is to persist with this infotech narrative, then they need to be consistent. But how can they remain consistent if, in violation of the principles of complexity and the laws of thermodynamics (entropy), it is impossible for anything resembling a computer to occur in nature? Thus, what we are left with at the heart of any cell, is DNA molecules... with no evidence of any infotech mechanism that might process the “data”. SHOW US THE COMPUTER! NO COMPUTER, NO DNA INFOTECH (and no genocentric paradigm). It’s that simple. This topic should be of interest to us in semiotics, because ultimately, I suggest, the principles on which DNA function are semiotic in character. In their experiment testing for the possibility of non-local correlations between separated neural networks, Pizzi et al (2004) conclude that “after an initial stage where the system interacts by direct contact, also in the following stage where the system has been separated into two sections, a sort of correlation persists between sections. This is what , at a macroscopic level, we verify in our experiment: it seems that neurons utilize the quantum information to synchronize.” Given what we know of entanglement between particles, the only way in which correlations between separated neural networks can occur is via the DNA molecules within the neurons . Other similar experiments in biophysics arrive at similar or analogous conclusions. And the most common question raised among researchers in quantum biology, including Pizzi et al above, is along the lines of... how do m
Re: [PEIRCE-L] Show us the computer - reasons for DNA entanglement
Stephen ~ DNA is a polymer that represents habits that persisted and experienced evolutionary success. That is an exercise in Pragmatic logic. The polymer is later activated by electrochemical energy in its immediate environment. That is Pragmatic logic, too. The knowing-how-to-be behavior you emphasize may be the result of the DNA a polymer expressing itself as instinct. No computer is required for polymers to work, so the absence of a computer is not evidence of anything (other than a confused analysis). The logic involving the polymer has already been performed (perhaps millions of years previously), so it responds to a trigger from the environment -- a logical "abduction" that the situation has changed. If a polymer is cut in two, I am not familiar with any rule of polymers that prevents each segment from reacting to a common field of electrochemical energy. The "correlation" that exists between the segments is due to the common field (of electrochemical energy) they share. Why not separate the two DNA strands (or neurons if you prefer) and immerse them in different electrochemical environments? If they're still communicating or their behavior is still correlated after that, then your hypothesis has empirical support. This is a good illustration for my observation yesterday that any deeper analysis of logic must be grounded in physical reality. Regards, Tom Wyrick > On Oct 21, 2015, at 6:34 AM, Stephen Jarosek wrote: > > List, > > The more that I think about DNA entanglement, the more I am of the opinion > that it needs to be factored into the semiotic narrative. Because we do not > have all the facts, we should do so in a way that keeps open the option for > expanding our narrative to include nonlocal phenomena (such as DNA > entanglement). > > The established narrative on DNA theory, based as it is in the information > technology (infotech) metaphor that compares the brain to a computer, is > fundamentally flawed. It is flawed for a number of reasons, but the most > obvious one is that for all this purported data “software” in the DNA, there > is nothing resembling a computer to process it. If the mainstream > life-science community is to persist with this infotech narrative, then they > need to be consistent. But how can they remain consistent if, in violation of > the principles of complexity and the laws of thermodynamics (entropy), it is > impossible for anything resembling a computer to occur in nature? > > Thus, what we are left with at the heart of any cell, is DNA molecules... > with no evidence of any infotech mechanism that might process the “data”. > SHOW US THE COMPUTER! NO COMPUTER, NO DNA INFOTECH (and no genocentric > paradigm). It’s that simple. This topic should be of interest to us in > semiotics, because ultimately, I suggest, the principles on which DNA > function are semiotic in character. > > In their experiment testing for the possibility of non-local correlations > between separated neural networks, Pizzi et al (2004) conclude that “after an > initial stage where the system interacts by direct contact, also in the > following stage where the system has been separated into two sections, a sort > of correlation persists between sections. This is what , at a macroscopic > level, we verify in our experiment: it seems that neurons utilize the quantum > information to synchronize.” > > Given what we know of entanglement between particles, the only way in which > correlations between separated neural networks can occur is via the DNA > molecules within the neurons . > > Other similar experiments in biophysics arrive at similar or analogous > conclusions. And the most common question raised among researchers in quantum > biology, including Pizzi et al above, is along the lines of... how do > mechanisms within the cell utilize entanglement? I would suggest that they > have their reasoning back-to-front. It is not the mechanisms that utilize > entanglement, but entanglement that is the source for the mechanisms, > properties and predispositions. And this reframes the problem as one that > relates principally to semiotics. > > As a tentative description for how this might relate to semiotics, here’s one > of my conjectures: Entanglement between DNA molecules, I suggest, enables the > body's cells to access the shared mind-body condition, to be informed by it. > In this way, DNA entanglement plays a crucial role in knowing how to be. This > would be analogous to how our telecommunication technologies provide every > person in a city with immediate access to the city's options, to inform its > people on how to be. For example, people growing up in working-class or > middle-class suburbs are more likely to know how to be tradesmen, > shopkeepers, nurses, police or the unemployed, while people growing up in > upper-class suburbs are more likely to know how to be professionals, > investors, office-workers
Re: [PEIRCE-L] Show us the computer - reasons for DNA entanglement
Stephen - YOU consider that "You’re putting up blocks based in pre-existing narratives that are in inconclusive, and an existing model that is broken and inconsistent with natural law. " But I don't agree that the existing model is broken and inconsistent with natural law! So, as usual, you and I continue to disagree. As for our species being heavily based around learning - yes, but our innate capacity for reasoning and logic enables us to learn. Edwina - Original Message - From: Stephen Jarosek To: 'Edwina Taborsky' ; 'Peirce-L' Sent: Wednesday, October 21, 2015 9:50 AM Subject: RE: [PEIRCE-L] Show us the computer - reasons for DNA entanglement Edwina, I hope we can avoid returning to the innate-vs-NOTInnate controversy, as we have zero chance of agreement there J No, I’m not reducing causality to only one... far from it. I started writing out a spiel of exceptions and interpretations and realized that it would culminate in a blather that no-one would want to read. So for the sake of brevity, I have left out a lot. I assumed that most of us here are sufficiently well-versed on the topic that we don’t need to labour over the detail. But yes, strictly speaking, you are correct, of course there ARE other causalities. So what is it that you are suggesting about how a tree develops from a seed into a tree? Is it in the DNA? We both agree, I assume, that DNA is very important. All I am doing is suggesting that there is something else going on, and it is not the infotech theory of DNA. It CANNOT be the infotech version, impossible, because it violates the laws of thermodynamics. I could, however, be persuaded if someone showed me the computer that processes the tree’s DNA software. >”Furthermore, societal forms, such as the type of work you do, have nothing to do with genes but with learning - and our species is, by definition, heavily focused around learning.“ I get a bd feeling about this. Innate-vs-NOTInnate... nooo! Edwina, all I’m trying to do is, in the spirit of brainstorming, to introduce the question into our narrative. I’m not even proposing definitive answers. You’re putting up blocks based in pre-existing narratives that are in inconclusive, and an existing model that is broken and inconsistent with natural law. sj From: Edwina Taborsky [mailto:tabor...@primus.ca] Sent: Wednesday, 21 October 2015 2:35 PM To: Stephen Jarosek; 'Peirce-L' Subject: Re: [PEIRCE-L] Show us the computer - reasons for DNA entanglement Stephen - I disagree; you are reducing causality to only one - efficient causality (i.e., proximate). A tree doesn't 'know how to be' merely and only if it is growing next to another similar tree. Furthermore, societal forms, such as the type of work you do, have nothing to do with genes but with learning - and our species is, by definition, heavily focused around learning. Edwina - Original Message - From: Stephen Jarosek To: 'Peirce-L' Sent: Wednesday, October 21, 2015 7:34 AM Subject: [PEIRCE-L] Show us the computer - reasons for DNA entanglement List, The more that I think about DNA entanglement, the more I am of the opinion that it needs to be factored into the semiotic narrative. Because we do not have all the facts, we should do so in a way that keeps open the option for expanding our narrative to include nonlocal phenomena (such as DNA entanglement). The established narrative on DNA theory, based as it is in the information technology (infotech) metaphor that compares the brain to a computer, is fundamentally flawed. It is flawed for a number of reasons, but the most obvious one is that for all this purported data “software” in the DNA, there is nothing resembling a computer to process it. If the mainstream life-science community is to persist with this infotech narrative, then they need to be consistent. But how can they remain consistent if, in violation of the principles of complexity and the laws of thermodynamics (entropy), it is impossible for anything resembling a computer to occur in nature? Thus, what we are left with at the heart of any cell, is DNA molecules... with no evidence of any infotech mechanism that might process the “data”. SHOW US THE COMPUTER! NO COMPUTER, NO DNA INFOTECH (and no genocentric paradigm). It’s that simple. This topic should be of interest to us in semiotics, because ultimately, I suggest, the principles on which DNA function are semiotic in character. In their experiment testing for the possibility of non-local correlations between separated neural networks, Pizzi et al (2004) conclude that “after an initial stage where the system interacts by direct contact, also in the following stage where the system has been separated into two sections, a sort of correlation persists b
RE: [PEIRCE-L] Show us the computer - reasons for DNA entanglement
Edwina, I hope we can avoid returning to the innate-vs-NOTInnate controversy, as we have zero chance of agreement there J No, I’m not reducing causality to only one... far from it. I started writing out a spiel of exceptions and interpretations and realized that it would culminate in a blather that no-one would want to read. So for the sake of brevity, I have left out a lot. I assumed that most of us here are sufficiently well-versed on the topic that we don’t need to labour over the detail. But yes, strictly speaking, you are correct, of course there ARE other causalities. So what is it that you are suggesting about how a tree develops from a seed into a tree? Is it in the DNA? We both agree, I assume, that DNA is very important. All I am doing is suggesting that there is something else going on, and it is not the infotech theory of DNA. It CANNOT be the infotech version, impossible, because it violates the laws of thermodynamics. I could, however, be persuaded if someone showed me the computer that processes the tree’s DNA software. >”Furthermore, societal forms, such as the type of work you do, have nothing to >do with genes but with learning - and our species is, by definition, heavily >focused around learning.“ I get a bd feeling about this. Innate-vs-NOTInnate... nooo! Edwina, all I’m trying to do is, in the spirit of brainstorming, to introduce the question into our narrative. I’m not even proposing definitive answers. You’re putting up blocks based in pre-existing narratives that are in inconclusive, and an existing model that is broken and inconsistent with natural law. sj From: Edwina Taborsky [mailto:tabor...@primus.ca] Sent: Wednesday, 21 October 2015 2:35 PM To: Stephen Jarosek; 'Peirce-L' Subject: Re: [PEIRCE-L] Show us the computer - reasons for DNA entanglement Stephen - I disagree; you are reducing causality to only one - efficient causality (i.e., proximate). A tree doesn't 'know how to be' merely and only if it is growing next to another similar tree. Furthermore, societal forms, such as the type of work you do, have nothing to do with genes but with learning - and our species is, by definition, heavily focused around learning. Edwina - Original Message - From: Stephen Jarosek <mailto:sjaro...@iinet.net.au> To: 'Peirce-L' <mailto:peirce-L@list.iupui.edu> Sent: Wednesday, October 21, 2015 7:34 AM Subject: [PEIRCE-L] Show us the computer - reasons for DNA entanglement List, The more that I think about DNA entanglement, the more I am of the opinion that it needs to be factored into the semiotic narrative. Because we do not have all the facts, we should do so in a way that keeps open the option for expanding our narrative to include nonlocal phenomena (such as DNA entanglement). The established narrative on DNA theory, based as it is in the information technology (infotech) metaphor that compares the brain to a computer, is fundamentally flawed. It is flawed for a number of reasons, but the most obvious one is that for all this purported data “software” in the DNA, there is nothing resembling a computer to process it. If the mainstream life-science community is to persist with this infotech narrative, then they need to be consistent. But how can they remain consistent if, in violation of the principles of complexity and the laws of thermodynamics (entropy), it is impossible for anything resembling a computer to occur in nature? Thus, what we are left with at the heart of any cell, is DNA molecules... with no evidence of any infotech mechanism that might process the “data”. SHOW US THE COMPUTER! NO COMPUTER, NO DNA INFOTECH (and no genocentric paradigm). It’s that simple. This topic should be of interest to us in semiotics, because ultimately, I suggest, the principles on which DNA function are semiotic in character. In their experiment testing for the possibility of non-local correlations between separated neural networks, Pizzi et al (2004) conclude that “after an initial stage where the system interacts by direct contact, also in the following stage where the system has been separated into two sections, a sort of correlation persists between sections. This is what , at a macroscopic level, we verify in our experiment: it seems that neurons utilize the quantum information to synchronize.” Given what we know of entanglement between particles, the only way in which correlations between separated neural networks can occur is via the DNA molecules within the neurons . Other similar experiments in biophysics arrive at similar or analogous conclusions. And the most common question raised among researchers in quantum biology, including Pizzi et al above, is along the lines of... how do mechanisms within the cell utilize entanglement? I would suggest that they have their reasoning back-to-front. It is not the mechanisms that utiliz
Re: [PEIRCE-L] Show us the computer - reasons for DNA entanglement
Stephen - I disagree; you are reducing causality to only one - efficient causality (i.e., proximate). A tree doesn't 'know how to be' merely and only if it is growing next to another similar tree. Furthermore, societal forms, such as the type of work you do, have nothing to do with genes but with learning - and our species is, by definition, heavily focused around learning. Edwina - Original Message - From: Stephen Jarosek To: 'Peirce-L' Sent: Wednesday, October 21, 2015 7:34 AM Subject: [PEIRCE-L] Show us the computer - reasons for DNA entanglement List, The more that I think about DNA entanglement, the more I am of the opinion that it needs to be factored into the semiotic narrative. Because we do not have all the facts, we should do so in a way that keeps open the option for expanding our narrative to include nonlocal phenomena (such as DNA entanglement). The established narrative on DNA theory, based as it is in the information technology (infotech) metaphor that compares the brain to a computer, is fundamentally flawed. It is flawed for a number of reasons, but the most obvious one is that for all this purported data “software” in the DNA, there is nothing resembling a computer to process it. If the mainstream life-science community is to persist with this infotech narrative, then they need to be consistent. But how can they remain consistent if, in violation of the principles of complexity and the laws of thermodynamics (entropy), it is impossible for anything resembling a computer to occur in nature? Thus, what we are left with at the heart of any cell, is DNA molecules... with no evidence of any infotech mechanism that might process the “data”. SHOW US THE COMPUTER! NO COMPUTER, NO DNA INFOTECH (and no genocentric paradigm). It’s that simple. This topic should be of interest to us in semiotics, because ultimately, I suggest, the principles on which DNA function are semiotic in character. In their experiment testing for the possibility of non-local correlations between separated neural networks, Pizzi et al (2004) conclude that “after an initial stage where the system interacts by direct contact, also in the following stage where the system has been separated into two sections, a sort of correlation persists between sections. This is what , at a macroscopic level, we verify in our experiment: it seems that neurons utilize the quantum information to synchronize.” Given what we know of entanglement between particles, the only way in which correlations between separated neural networks can occur is via the DNA molecules within the neurons . Other similar experiments in biophysics arrive at similar or analogous conclusions. And the most common question raised among researchers in quantum biology, including Pizzi et al above, is along the lines of... how do mechanisms within the cell utilize entanglement? I would suggest that they have their reasoning back-to-front. It is not the mechanisms that utilize entanglement, but entanglement that is the source for the mechanisms, properties and predispositions. And this reframes the problem as one that relates principally to semiotics. As a tentative description for how this might relate to semiotics, here’s one of my conjectures: Entanglement between DNA molecules, I suggest, enables the body's cells to access the shared mind-body condition, to be informed by it. In this way, DNA entanglement plays a crucial role in knowing how to be. This would be analogous to how our telecommunication technologies provide every person in a city with immediate access to the city's options, to inform its people on how to be. For example, people growing up in working-class or middle-class suburbs are more likely to know how to be tradesmen, shopkeepers, nurses, police or the unemployed, while people growing up in upper-class suburbs are more likely to know how to be professionals, investors, office-workers or, simply, the idle rich. This interpretation would be consistent with how stem-cells develop, contingent on their location within the organs of the body. A stem-cell has to know how to be before it can become a productive cell with its role in an organ properly defined. And the stem-cell’s proximal/local context is what teases out its predispositions, in order to define its ultimate purpose. This line of thinking seems to resonate with aspects of David Bohm’s implicate/explicate order. [What I have in mind here is also analogous to Rupert Sheldrake’s theory of morphic resonance, where he regards the DNA molecule as analogous to a receiver (antenna).] In summary, proximal context (face-to-face or synapse-to-synapse) is what teases out both the neuron’s AND the human’s nonlocal predispositions, to define their ultimate trajectories. Anyone else interested in exploring this further? There seems to be a reluctance for people to step beyond their spheres of expertise, pe