Molecular Information Transfer - Revision history

Lisa at 23:40, 26 June 2018

2018-06-26T23:40:52Z

← Older revision		Revision as of 19:40, 26 June 2018
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	Molecular Information Transfer was referred to in the [[Genetic Engineering]] Newsletter.		[[Molecular Information Transfer]] was referred to in the [[Genetic Engineering]] Newsletter. <ref>[http://www.energeticsynthesis.com/resource-tools/news-shift-timelines/3129-genetic-engineering Genetic Engineering]</ref>

	[[EMF\|Electromagnetic fields]] act as modulators of molecular based information transfer, they can intercept and modify the processes of molecular interaction within a human body, in any kind of organism. As an example, the [[Molecular Information Transfer]] of the [[Nucleic Acids]] in human DNA can be altered, modified or reversed when exposed to programmable broadcasts of electromagnetic fields, such as with ELF’s. ~~As a result electromagnetic fields can be used to control~~ genetic ~~switches or influence bio~~-chemical pathways and are capable of eliciting a range of effects inside a living organism, as well as in controlled environments or something taking place outside of living organisms. Exposures to electromagnetism affect organisms in both negative and positive ways that are related to physiological processes, and the reaction is also connected to the genetic configuration and the consciousness level of the organism. The organism that has a lowest range of consciousness perception, is generally the most impacted from the impulses coming from the [[Unconscious Mind]]. This is another example of how electromagnetic fields can be used for genetic engineering ~~or modification purposes, by interfering with the [[Bio-Neurology~~]~~] and the body’s natural biological system of information flow and transfer between [[DNA, RNA and Proteins]].~~

			[[EMF\|Electromagnetic fields]] act as modulators of molecular based information transfer, they can intercept and modify the processes of molecular interaction within a human body, in any kind of organism. As an example, the [[Molecular Information Transfer]] of the [[Nucleic Acids]] in human DNA can be altered, modified or reversed when exposed to programmable broadcasts of electromagnetic fields, such as with ELF’s. As a result electromagnetic fields can be used to control genetic switches or influence bio-chemical pathways and are capable of eliciting a range of effects inside a living organism, as well as in controlled environments or something taking place outside of living organisms. Exposures to electromagnetism affect organisms in both negative and positive ways that are related to physiological processes, and the reaction is also connected to the genetic configuration and the consciousness level of the organism. The organism that has a lowest range of consciousness perception, is generally the most impacted from the impulses coming from the [[Unconscious Mind]]. This is another example of how electromagnetic fields can be used for genetic engineering or modification purposes, by interfering with the [[Bio-Neurology]] and the body’s natural biological system of information flow and transfer between [[DNA, RNA and Proteins]].<ref>[http://www.energeticsynthesis.com/resource-tools/news-shift-timelines/3129-genetic-engineering Genetic Engineering]</ref>

	==Reference==		==Reference==
	"Living is information processing: from molecules to global systems. We extend the concept that life is an informational phenomenon, at every level of organisation, from molecules to the global ecological system. According to this thesis: (a) living is information processing, in which memory is maintained by both molecular states and ecological states as well as the more obvious nucleic acid coding; (b) this information processing has one overall function - to perpetuate itself; and (c) the processing method is filtration (cognition) of, and synthesis of, information at lower levels to appear at higher levels in complex systems (emergence). We show how information patterns, are united by the creation of mutual context, generating persistent consequences, to result in `functional information'. This constructive process forms arbitrarily large complexes of information, the combined effects of which include the functions of life. Molecules and simple organisms have already been measured in terms of functional information content; we show how quantification may be extended to each level of organisation up to the ecological. In terms of a computer analogy, life is both the data and the program and its biochemical structure is the way the information is embodied. This idea supports the seamless integration of life at all scales with the physical universe. The innovation reported here is essentially to integrate these ideas, basing information on the `general definition' of information, rather than simply the statistics of information, thereby explaining how functional information operates throughout life."<ref>[https://arxiv.org/abs/1210.590828 Information Theory (cs.IT); Biological Physics (physics.bio-ph); Other Quantitative Biology (q-bio.OT)]</ref> Author K. Farnsworth, J.Nelson, C. Gershenson (Submitted on 22 Oct 2012)		"Living is information processing: from molecules to global systems. We extend the concept that life is an informational phenomenon, at every level of organisation, from molecules to the global ecological system. According to this thesis: (a) living is information processing, in which memory is maintained by both molecular states and ecological states as well as the more obvious nucleic acid coding; (b) this information processing has one overall function - to perpetuate itself; and (c) the processing method is filtration (cognition) of, and synthesis of, information at lower levels to appear at higher levels in complex systems (emergence). We show how information patterns, are united by the creation of mutual context, generating persistent consequences, to result in `functional information'. This constructive process forms arbitrarily large complexes of information, the combined effects of which include the functions of life. Molecules and simple organisms have already been measured in terms of functional information content; we show how quantification may be extended to each level of organisation up to the ecological. In terms of a computer analogy, life is both the data and the program and its biochemical structure is the way the information is embodied. This idea supports the seamless integration of life at all scales with the physical universe. The innovation reported here is essentially to integrate these ideas, basing information on the `general definition' of information, rather than simply the statistics of information, thereby explaining how functional information operates throughout life."<ref>[https://arxiv.org/abs/1210.590828 Information Theory (cs.IT); Biological Physics (physics.bio-ph); Other Quantitative Biology (q-bio.OT)]</ref> Author K. Farnsworth, J.Nelson, C. Gershenson (Submitted on 22 Oct 2012)

	~~<ref>[http://www.energeticsynthesis.com/resource-tools/news-shift-timelines/3129-genetic-engineering Genetic Engineering]</ref>~~

	==References==		==References==

Lisa at 23:40, 26 June 2018

2018-06-26T23:40:18Z

← Older revision		Revision as of 19:40, 26 June 2018
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	Living is information processing: from molecules to global systems. We extend the concept that life is an informational phenomenon, at every level of organisation, from molecules to the global ecological system. According to this thesis: (a) living is information processing, in which memory is maintained by both molecular states and ecological states as well as the more obvious nucleic acid coding; (b) this information processing has one overall function - to perpetuate itself; and (c) the processing method is filtration (cognition) of, and synthesis of, information at lower levels to appear at higher levels in complex systems (emergence). We show how information patterns, are united by the creation of mutual context, generating persistent consequences, to result in `functional information'. This constructive process forms arbitrarily large complexes of information, the combined effects of which include the functions of life. Molecules and simple organisms have already been measured in terms of functional information content; we show how quantification may be extended to each level of organisation up to the ecological. In terms of a computer analogy, life is both the data and the program and its biochemical structure is the way the information is embodied. This idea supports the seamless integration of life at all scales with the physical universe. The innovation reported here is essentially to integrate these ideas, basing information on the `general definition' of information, rather than simply the statistics of information, thereby explaining how functional information operates throughout life.<ref>[https://arxiv.org/abs/1210.590828 Information Theory (cs.IT); Biological Physics (physics.bio-ph); Other Quantitative Biology (q-bio.OT)]</ref> Author K. Farnsworth, J.Nelson, C. Gershenson (Submitted on 22 Oct 2012)		Molecular Information Transfer was referred to in the [[Genetic Engineering]] Newsletter.

			[[EMF\|Electromagnetic fields]] act as modulators of molecular based information transfer, they can intercept and modify the processes of molecular interaction within a human body, in any kind of organism. As an example, the [[Molecular Information Transfer]] of the [[Nucleic Acids]] in human DNA can be altered, modified or reversed when exposed to programmable broadcasts of electromagnetic fields, such as with ELF’s. As a result electromagnetic fields can be used to control genetic switches or influence bio-chemical pathways and are capable of eliciting a range of effects inside a living organism, as well as in controlled environments or something taking place outside of living organisms. Exposures to electromagnetism affect organisms in both negative and positive ways that are related to physiological processes, and the reaction is also connected to the genetic configuration and the consciousness level of the organism. The organism that has a lowest range of consciousness perception, is generally the most impacted from the impulses coming from the [[Unconscious Mind]]. This is another example of how electromagnetic fields can be used for genetic engineering or modification purposes, by interfering with the [[Bio-Neurology]] and the body’s natural biological system of information flow and transfer between [[DNA, RNA and Proteins]].


			==Reference==
			"Living is information processing: from molecules to global systems. We extend the concept that life is an informational phenomenon, at every level of organisation, from molecules to the global ecological system. According to this thesis: (a) living is information processing, in which memory is maintained by both molecular states and ecological states as well as the more obvious nucleic acid coding; (b) this information processing has one overall function - to perpetuate itself; and (c) the processing method is filtration (cognition) of, and synthesis of, information at lower levels to appear at higher levels in complex systems (emergence). We show how information patterns, are united by the creation of mutual context, generating persistent consequences, to result in `functional information'. This constructive process forms arbitrarily large complexes of information, the combined effects of which include the functions of life. Molecules and simple organisms have already been measured in terms of functional information content; we show how quantification may be extended to each level of organisation up to the ecological. In terms of a computer analogy, life is both the data and the program and its biochemical structure is the way the information is embodied. This idea supports the seamless integration of life at all scales with the physical universe. The innovation reported here is essentially to integrate these ideas, basing information on the `general definition' of information, rather than simply the statistics of information, thereby explaining how functional information operates throughout life."<ref>[https://arxiv.org/abs/1210.590828 Information Theory (cs.IT); Biological Physics (physics.bio-ph); Other Quantitative Biology (q-bio.OT)]</ref> Author K. Farnsworth, J.Nelson, C. Gershenson (Submitted on 22 Oct 2012)

	<ref>[http://www.energeticsynthesis.com/resource-tools/news-shift-timelines/3129-genetic-engineering Genetic Engineering]</ref>		<ref>[http://www.energeticsynthesis.com/resource-tools/news-shift-timelines/3129-genetic-engineering Genetic Engineering]</ref>

Lisa at 04:24, 26 June 2018

2018-06-26T04:24:29Z

← Older revision		Revision as of 00:24, 26 June 2018
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	Living is information processing: from molecules to global systems. We extend the concept that life is an informational phenomenon, at every level of organisation, from molecules to the global ecological system. According to this thesis: (a) living is information processing, in which memory is maintained by both molecular states and ecological states as well as the more obvious nucleic acid coding; (b) this information processing has one overall function - to perpetuate itself; and (c) the processing method is filtration (cognition) of, and synthesis of, information at lower levels to appear at higher levels in complex systems (emergence). We show how information patterns, are united by the creation of mutual context, generating persistent consequences, to result in `functional information'. This constructive process forms arbitrarily large complexes of information, the combined effects of which include the functions of life. Molecules and simple organisms have already been measured in terms of functional information content; we show how quantification may be extended to each level of organisation up to the ecological. In terms of a computer analogy, life is both the data and the program and its biochemical structure is the way the information is embodied. This idea supports the seamless integration of life at all scales with the physical universe. The innovation reported here is essentially to integrate these ideas, basing information on the `general definition' of information, rather than simply the statistics of information, thereby explaining how functional information operates throughout life.<ref>[https://arxiv.org/abs/1210.590828 Information Theory (cs.IT); Biological Physics (physics.bio-ph); Other Quantitative Biology (q-bio.OT)]</ref> Author K. Farnsworth, J.Nelson, C. Gershenson (Submitted on 22 Oct 2012)		Living is information processing: from molecules to global systems. We extend the concept that life is an informational phenomenon, at every level of organisation, from molecules to the global ecological system. According to this thesis: (a) living is information processing, in which memory is maintained by both molecular states and ecological states as well as the more obvious nucleic acid coding; (b) this information processing has one overall function - to perpetuate itself; and (c) the processing method is filtration (cognition) of, and synthesis of, information at lower levels to appear at higher levels in complex systems (emergence). We show how information patterns, are united by the creation of mutual context, generating persistent consequences, to result in `functional information'. This constructive process forms arbitrarily large complexes of information, the combined effects of which include the functions of life. Molecules and simple organisms have already been measured in terms of functional information content; we show how quantification may be extended to each level of organisation up to the ecological. In terms of a computer analogy, life is both the data and the program and its biochemical structure is the way the information is embodied. This idea supports the seamless integration of life at all scales with the physical universe. The innovation reported here is essentially to integrate these ideas, basing information on the `general definition' of information, rather than simply the statistics of information, thereby explaining how functional information operates throughout life.<ref>[https://arxiv.org/abs/1210.590828 Information Theory (cs.IT); Biological Physics (physics.bio-ph); Other Quantitative Biology (q-bio.OT)]</ref> Author K. Farnsworth, J.Nelson, C. Gershenson (Submitted on 22 Oct 2012)

			<ref>[http://www.energeticsynthesis.com/resource-tools/news-shift-timelines/3129-genetic-engineering Genetic Engineering]</ref>

			==References==


			<references/>

			==See Also==

			[[Mind Controlled Gene Expression]]

			[[Category: Newsletter]]

			[[Category:Ascension]]

Lisa at 04:22, 26 June 2018

2018-06-26T04:22:30Z

← Older revision		Revision as of 00:22, 26 June 2018
Line 1:		Line 1:
	Living is information processing: from molecules to global systems. We extend the concept that life is an informational phenomenon, at every level of organisation, from molecules to the global ecological system. According to this thesis: (a) living is information processing, in which memory is maintained by both molecular states and ecological states as well as the more obvious nucleic acid coding; (b) this information processing has one overall function - to perpetuate itself; and (c) the processing method is filtration (cognition) of, and synthesis of, information at lower levels to appear at higher levels in complex systems (emergence). We show how information patterns, are united by the creation of mutual context, generating persistent consequences, to result in `functional information'. This constructive process forms arbitrarily large complexes of information, the combined effects of which include the functions of life. Molecules and simple organisms have already been measured in terms of functional information content; we show how quantification may be extended to each level of organisation up to the ecological. In terms of a computer analogy, life is both the data and the program and its biochemical structure is the way the information is embodied. This idea supports the seamless integration of life at all scales with the physical universe. The innovation reported here is essentially to integrate these ideas, basing information on the `general definition' of information, rather than simply the statistics of information, thereby explaining how functional information operates throughout life.<ref>[https://arxiv.org/abs/1210.590828 Information Theory (cs.IT); Biological Physics (physics.bio-ph); Other Quantitative Biology (q-bio.OT)]] Author K. Farnsworth, J.Nelson, C. Gershenson (Submitted on 22 Oct 2012)		Living is information processing: from molecules to global systems. We extend the concept that life is an informational phenomenon, at every level of organisation, from molecules to the global ecological system. According to this thesis: (a) living is information processing, in which memory is maintained by both molecular states and ecological states as well as the more obvious nucleic acid coding; (b) this information processing has one overall function - to perpetuate itself; and (c) the processing method is filtration (cognition) of, and synthesis of, information at lower levels to appear at higher levels in complex systems (emergence). We show how information patterns, are united by the creation of mutual context, generating persistent consequences, to result in `functional information'. This constructive process forms arbitrarily large complexes of information, the combined effects of which include the functions of life. Molecules and simple organisms have already been measured in terms of functional information content; we show how quantification may be extended to each level of organisation up to the ecological. In terms of a computer analogy, life is both the data and the program and its biochemical structure is the way the information is embodied. This idea supports the seamless integration of life at all scales with the physical universe. The innovation reported here is essentially to integrate these ideas, basing information on the `general definition' of information, rather than simply the statistics of information, thereby explaining how functional information operates throughout life.<ref>[https://arxiv.org/abs/1210.590828 Information Theory (cs.IT); Biological Physics (physics.bio-ph); Other Quantitative Biology (q-bio.OT)]</ref> Author K. Farnsworth, J.Nelson, C. Gershenson (Submitted on 22 Oct 2012)

Lisa: Created page with "Living is information processing: from molecules to global systems. We extend the concept that life is an informational phenomenon, at every level of organisation, from molecu..."

2018-06-26T04:22:16Z

Created page with "Living is information processing: from molecules to global systems. We extend the concept that life is an informational phenomenon, at every level of organisation, from molecu..."

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Living is information processing: from molecules to global systems. We extend the concept that life is an informational phenomenon, at every level of organisation, from molecules to the global ecological system. According to this thesis: (a) living is information processing, in which memory is maintained by both molecular states and ecological states as well as the more obvious nucleic acid coding; (b) this information processing has one overall function - to perpetuate itself; and (c) the processing method is filtration (cognition) of, and synthesis of, information at lower levels to appear at higher levels in complex systems (emergence). We show how information patterns, are united by the creation of mutual context, generating persistent consequences, to result in `functional information'. This constructive process forms arbitrarily large complexes of information, the combined effects of which include the functions of life. Molecules and simple organisms have already been measured in terms of functional information content; we show how quantification may be extended to each level of organisation up to the ecological. In terms of a computer analogy, life is both the data and the program and its biochemical structure is the way the information is embodied. This idea supports the seamless integration of life at all scales with the physical universe. The innovation reported here is essentially to integrate these ideas, basing information on the `general definition' of information, rather than simply the statistics of information, thereby explaining how functional information operates throughout life.<ref>[https://arxiv.org/abs/1210.590828 Information Theory (cs.IT); Biological Physics (physics.bio-ph); Other Quantitative Biology (q-bio.OT)]] Author K. Farnsworth, J.Nelson, C. Gershenson (Submitted on 22 Oct 2012)