As biological entities, extraterrestrials know and understand (at least those who still de- pend upon their biological form to live in the universe) that their biology is the basis of their evo- lutionary manifestations. Off-world groups report they meet external challenges to their biokind by developmental contingencies manifest in the fold of their biology. They know and understand what living habitat requirements their biology has in order for each living form to continue to manifest life in the body. They also know what biological responses their bodies must perform to exigencies – sudden unforeseen challenges – faced by them under new, unexpected habitat con- ditions, planetary changes, and other urgent situations that threaten their biology, short of having to leave their ancestral planetary homes and move to a new one. Additionally, when potentially catastrophic exigencies become apparent over time, e.g., living on a planet in a star system that is part of a galaxy that is being taken apart and engulfed by the stronger gravitational pull of an- other larger one, the range of choices for meeting this kind of challenge involves the need for time and information on the range of choices itself.
This has happened to more than one off-world group in the past, according to our records of conference proceedings. By the same token, there are often biological responses which the biology itself of the affected off-world group may contribute and help the life form meet the challenges better, ensuring the survival of the biokind. All of what I am saying now is predicated on what most, if not all, extraterrestrial biokinds have reported in the course of conferences: the common (the biomind of the entire biokind) acts externally and biologically in the best interest of the biokind, so that it may continue to survive and thrive as a civilization. This is a condition
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also predicated on the availability of important survival information to all members of the bi- okind.
When examined from the viewpoint of the kinds of response sets of off-world groups to exigencies and potentially catastrophic challenges to their home and their survival, humankind is at this time grossly unprepared to meet forthcoming Earth challenges to its integrity and struc- ture, and consequently not conformed optimally for human survival and biological viability. The most severe obstacle to optimal survival and biological viability is the absence of accurate, valid and species-wide information on upcoming planetary challenges to Earth and the human race on it. Humankind is also at a stark disadvantage at this juncture in its biological evolution, having achieved an amazing level of intelligence and technological achievement in merely 350,000+ years of existence as homo sapiens sapiens. Yet, its development of the common (biokind as a unified biomind) lags far behind its intellectual and technological achievements to date.
There are, however, growing indications of positive mutations in human beings able to function in an integrated fashion. By integrated I mean an organismic configuration of neural, enteromyofascial, cytoskeletal,2 and low voltage energetic functioning that makes them literally plugged into a kind of larger mind – that is, they are far better interconnective than the man or woman on the street. These people are noticed, primarily because their organisms and biominds work seamlessly internally, generating information that is consciously used by the individual for life quality, safety, survival and intellectual purposes, and externally, for interconnectivity pur- poses – to know if there is a highway patrol over the next hill so as to slow down and avoid get- ting a ticket, to know when someone thinks about this person, to identify the phone caller and know who is on the other end of the line before picking up the receiver, and much more. Much of this latter behavior is often attributed to intuition and so-called ESP. Actually, it is not anoma- lous behavior, in the sense today defined and attributed by present day science. On the contrary, it appears to be a logical and necessary expansion of a kind of energetic metagenome that is lit- erally superposed upon all DNA.
Let me explain what I meant in the last paragraph. It is necessary that you gain a clear understanding of the preceding. It is a highly technical area, but I will make an attempt at clarify- ing things without using too many technical terms. In the next paragraphs we will explore to- gether the meaning of what biology we must preserve and defend.
Over many millennia, the human body and the human mind have moved on a upward curve of biogenetic development and an evolution of mind. At this juncture in our evolution, we ________
2 Organismic refers to a bodywide response to stimuli. The configuration of neural, enteromyofascial and cytoskele-
tal low voltage energetic functioning refers to a combination of processes or manner of operating that involves the tubules in each cell of the body that serve much like a “skeleton” that gives the cell its shape, the nerve plexi (or gates) in the solar plexus area (or front part) of the body, which is an aggregate of functions that include the enteric (or ventral) brain’s glial cells, the myofascial covering of all nerves in the enteric brain and all major organs and muscles in the body (including the skin). The cephalic brain communicates with the smaller brain in the gut in a manner analogous to that of interactive communication between networked computers. Primary sensory afferents and extensions of intramural neurons in the gut carry information to the central nervous system. Information is transmitted from the brain to the enteric nervous system over sympathetic and parasympathetic pathways. The cur- rent concept of the enteric nervous system is that of a minibrain placed in close proximity to the effector systems it controls. Rather than crowding the hundred million neurons required for control of the gut into the cranial cavity as part of the cephalic brain, and transmitting signals over long, unreliable pathways, natural selection placed the inte- grative microcircuits at the site of the effectors. All of it requires low voltage electrical signaling system above and beyond the biochemical afferent and efferent pathways. For more on the enteric complex, see Gershon MD, Kirchgessner AL, Wade PR. Functional anatomy of the enteric nervous system. In: Johnson LR, ed. Physiology of
the gastrointestinal tract. 3rd ed. (Vol.1). New York: Raven Press, 1994. See also Wood J D. Physiology of the en-
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are finding ourselves moving forward with a leading edge of the evolutionary curve – human be- ings capable of seemingly astounding things. These emerging capacities are not only as intelli- gence manifested in intellectual pursuits; they are also forms of intelligence that integrate the various manifestations of abilities and
capabilities of a human being – an abil- ity to love, to connect to another in sub- tle yet real ways not diminished by physical distance, the capability to sense the presence of another at a dis- tance and know the wellbeing or dis- comfort of the other, the ability to see inside the human body without even having to be in the same room as the target, a capacity for emotion that often scares off-world people in its intensity and misuses by a human experiencer, an ability and capacity for music and art, a deeply and often abiding sense of the eternal and spiritual, a profound love for progeny, and a seemingly endless ability I believe wired in to generate, evolve, manifest and misuse culture. All of these manifestations of being human lie, in our opinion and in the opinion of those off-world conference participants, somewhere between our biogenetic leg- acy and the underdeveloped human biomind.
Our DNA have unique bioelec- tronic signatures, which hold the keys to both positive and negative mutations. A couple of years ago, Joseph Wang, di- rector of the Center for Bioelectronics and Biosensors at the Biodesign Institute at Arizona State University, led a team
effort that successfully merged work in the fields of biosensors, electronics, and nanotechnology to fashion nanocrystals that can act as "DNA biosensors" by electronically recognizing subtle mutations in human DNA. This creates enormous potential for applications such as the diagnosis and treatment of genetic diseases, detection of infectious agents and reliable forensic analysis. Among the keys to unearthing the mysteries behind individual genetic variation and diseases like cancer are fine differences -- single nucleotide polymorphisms, or "SNPs" -- buried within the 3 billion chemical bases of DNA comprising the human genome. Not every SNP found will neces- sarily cause a mutation or determine our eye or hair color -- but, on average, SNPs occur about once in every 1,000 DNA bases, adding up to 3 million potential individual differences across the human genome. Wang's method allows for an accurate, ultra-sensitive, rapid and low-cost identification of these SNP variants.
Technological means are not the only way to detect and decipher effects through the biosignature of our DNA. Recently, some interesting work by a couple of Russian scientists