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Lamarckian hereditability of acquired characteristics proposed natural cooperation as opposed to natural selection. The endosymbiotic archaea secrete RNA viroids. The archaeal RNA viroids are converted to DNA viroids by endogenous HERV reverse transcriptase and integrated into the genome by HERV integrase. Archaeal endosymbiosis can occur consequent to global warming, stress, dietary fibre deficiency and exposure to low level EMF which leads to increased colonic archaeal growth and endosymbiosis. The archaea will secrete RNA viroids which can get converted to DNA viroids and get integrated into the genome functioning as jumping genes modulating gene expression. The RNA viroids and their DNA templates getting integrated into the genome consequent to environmental stress leads to genomic flexibility and dynamicity which can be inherited. Exposure to environmental stress can alter the genome changing body function in response to stress and genomic change which is acquired is hereditable. Symbiotic genomics forms the basis of species, caste and race.
Climate change, global warming and archaeal endosymbiosis leads to neanderthalisation of the human brain. The archaeal magnetite and porphyrions are capable of quantal perception and leads to a cerebellar cognitive affective disorder consequent to cerebral cortical atrophy and cerebellar dominance. This leads to impulsive behaviour, violent behaviour, terrorist acts which leads to surrealistic state and transcendence. The Yellow-vest movement dominating France and spreading to other parts of Europe and the world signifies this brain change consequent to archaeal endosymbiosis and brain neanderthalisation. The quantal perception of the neanderthalised brain leads to a sense of spirituality and collective consciousness among individual groups. The Yellow-vest movement is a merger of the far-right and far-left of the European political spectrum. The movement represents a type of global anarchy and is leaderless and is a form of democratic protest based on grass-root network and bottom up organisation of the socio-political movement.
Meditation can modulate body metabolonomics and brain function. Internet addiction also is akin to a meditative exercise with focused obsessed attention. The mechanism is by induction of the heme oxygenase system. Heme oxygenase induction suppresses ALA synthase. Thus heme is depleted from the system. There is increased porphyrin synthesis leading onto porphyrinuria and porphyria. The stimulus for porphyrin synthesis comes from heme deficiency. Porphyrins can organize into self replicating supramolecular structures called porphyrions which are induced by meditative practices. The porphyrins can self organise to form macromolecular structures which can self replicate to form a porphyrin organism. The photon induced transfer of electrons along the macromolecule can lead to light induced ATP synthesis. The porphyrins can form a template on which RNA and DNA can form generating viroids. The porphyrins can also form a template on which prions can form. They all can join together ¿ RNA viroids, DNA viroids, prions ¿ to form primitive archaea. Archaeal endosymbiosis leads to species change and neanderthalisation producing a quantal perceptive brain in contact with universal consciousness.
Internet addiction leads to exposure to low level of EMF fields which promotes endosymbiotic and colonic archaeal growth. The endosymbiotic and colonic archaeal growth leads to methanogenesis and global warming. Exposure to low level of electromagnetic fields of the internet induces the enzyme heme oxygenase in the brain. The deficiency of heme leads to induction of ALA synthase and porphyrin synthesis. Porphyrins can self organise to form supramolecular structures called as porphyrions. The porphyrions can store information, can self replicate and can have its own energetics generated by light related electron transport generating ATP. The porphyrions are the simplest self replicating organisms that are known. The porphyrions can form a template for the generation of RNA viroids, DNA viroids, prions and isoprenoid organism. These RNA viroids, DNA viroids, prions and isoprenoid organism can self organise to form magnetotactic nanoarchaea. This forms a vicious cycle leading to increased brain endosymbiotic archaeal growth capable of quantal perception and perception of internet fields. This leads to a new homo neanderthalis species.
Modern civilization results in changes in dietary habits leading to less consumption of fibre and more intake of protein and fat. This leads to increased colonic archaeal growth and archaeal endosymbiosis. Modern civilization results in stress in societies leading to increased activation of the HPA axis leading to increased secretion of stress hormones the catecholamines producing increase in sympathetic tone. The increase in sympathetic tone leads to increase in stress hormones epinephrine and norepinephrine producing breeching of the gut blood barrier. This leads to decrease in mucin secretion lining the gut wall and inflammatory changes in the colonic mucosa. This leads to increase in archaeal growth and colonic archaeal translocation into to the blood and tissues producing archaeal endosymbiosis. Endosymbiotic archaea generates RNA viroids which gets converted to DNA viroids by endogenous retroviral reverse transcriptase and gets integrated into the genome by integrase. The endosymbiotic archaea by inducing the Warburg phenotype can increase lymphocytic glycolysis and produce chronic immune activation. Thus archaeal endosymbiosis results in a new immune phenotype.
Modern civilization results in changes in dietary habits leading to less consumption of fibre and more intake of protein and fat. This leads to increased colonic archaeal growth and archaeal endosymbiosis. Modern civilization results in stress in societies leading to increased activation of the HPA axis leading to increased secretion of stress hormones the catecholamines producing increase in sympathetic tone. The increase in sympathetic tone leads to increase in stress hormones epinephrine and norepinephrine producing breeching of the gut blood barrier. This leads to decrease in mucin secretion lining the gut wall and inflammatory changes in the colonic mucosa. This leads to increase in archaeal growth and colonic archaeal translocation into to the blood and tissues producing archaeal endosymbiosis. Endosymbiotic archaea generates RNA viroids which gets converted to DNA viroids by endogenous retroviral reverse transcriptase and gets integrated into the genome by integrase. The endosymbiotic archaea functions as cellular organelle called archaeaons which can function as neurotransminoids, fructosoids, steroidelle, viroidelle and vitaminocyte. The archaeaons change cell structure.
Modern civilization results in changes in dietary habits leading to less consumption of fibre and more intake of protein and fat. This leads to increased colonic archaeal growth and archaeal endosymbiosis. Modern civilization results in stress in societies leading to increased activation of the HPA axis leading to increased secretion of stress hormones the catecholamines producing increase in sympathetic tone. The increase in sympathetic tone leads to increase in stress hormones epinephrine and norepinephrine producing breeching of the gut blood barrier. This leads to decrease in mucin secretion lining the gut wall and inflammatory changes in the colonic mucosa. This leads to increase in archaeal growth and colonic archaeal translocation into to the blood and tissues producing archaeal endosymbiosis. Endosymbiotic archaeal growth which has got magnetoperception and quantal perception of low level of EMF. This leads to frontal cortical atrophy and cerebellar dominance. There is an endemic cerebellar cognitive affective disorder presenting as adult onset autism, impulsive behaviour, violence, introversion, solitude and aggression. This produces a mind change.
Modern civilization results in changes in dietary habits leading to less consumption of fibre and more intake of protein and fat. This leads to increased colonic archaeal growth and archaeal endosymbiosis. Modern civilization results in stress in societies leading to increased activation of the HPA axis leading to increased secretion of stress hormones the catecholamines producing increase in sympathetic tone. The increase in sympathetic tone leads to increase in stress hormones epinephrine and norepinephrine producing breeching of the gut blood barrier. This leads to decrease in mucin secretion lining the gut wall and inflammatory changes in the colonic mucosa. This leads to increase in archaeal growth and colonic archaeal translocation into to the blood and tissues producing archaeal endosymbiosis. Endosymbiotic archaea generates RNA viroids which gets converted to DNA viroids by endogenous retroviral reverse transcriptase and gets integrated into the genome by integrase. The endosymbiotic archaea can induce the Warburg phenotype by upregulating glycolysis and inhibiting mitochondrial function producing a new metabolic and endocrine phenotype.
Modern civilization results in changes in dietary habits leading to less consumption of fibre and more intake of protein and fat. This leads to increased colonic archaeal growth and archaeal endosymbiosis. Modern civilization results in stress in societies leading to increased activation of the HPA axis leading to increased secretion of stress hormones the catecholamines producing increase in sympathetic tone. The increase in sympathetic tone leads to increase in stress hormones epinephrine and norepinephrine producing breeching of the gut blood barrier. This leads to decrease in mucin secretion lining the gut wall and inflammatory changes in the colonic mucosa. This leads to increase in archaeal growth and colonic archaeal translocation into to the blood and tissues producing archaeal endosymbiosis. Endosymbiotic archaea generates RNA viroids which gets converted to DNA viroids by endogenous retroviral reverse transcriptase and gets integrated into the genome by integrase. Thus archaeal endosymbiosis can induce a genomic change producing a dynamic genome.
Modern civilization results in stress in societies leading to increased activation of the HPA axis leading to increased secretion of stress hormones the catecholamines producing increase in sympathetic tone. The increase in sympathetic tone leads to increase in stress hormones epinephrine and norepinephrine producing breeching of the gut blood barrier. This leads to decrease in mucin secretion lining the gut wall and inflammatory changes in the colonic mucosa. Modern civilization results in changes in dietary habits leading to less consumption of fibre and more intake of protein and fat. This leads to increased colonic archaeal growth and archaeal endosymbiosis. The endosymbiotic archaeal growth leads to a new neanderthalic phenotype as a stress adaptation syndrome. The archaeal endosymbiosis leads to the induction of a new metabolic phenotype with mitochondrial dysfunction and anaerobic glycolysis- the Warburg phenotype. This contributes to the increased predilection for oncogenesis and cancer can be considered as a modified archaeal network.
Modern civilization results in stress in societies leading to increased activation of the HPA axis leading to increased secretion of stress hormones the catecholamines producing increase in sympathetic tone. The increase in sympathetic tone leads to increase in stress hormones epinephrine and norepinephrine producing breeching of the gut blood barrier. This leads to decrease in mucin secretion lining the gut wall and inflammatory changes in the colonic mucosa. Modern civilization results in changes in dietary habits leading to less consumption of fibre and more intake of protein and fat. This leads to increased colonic archaeal growth and archaeal endosymbiosis. The endosymbiotic archaeal growth leads to a new neanderthalic phenotype as a stress adaptation syndrome. The archaeal endosymbiosis leads to the induction of a new metabolic phenotype with mitochondrial dysfunction and anaerobic glycolysis- the Warburg phenotype. The neuronal archaeal endosymbiosis leads to a cerebellar cognitive affective disorder and frontal atrophy. This produces adult onset autism and schizophrenia and an escape from the world of stressful existence.
Modern civilization results in stress in societies leading to increased activation of the HPA axis leading to increased secretion of stress hormones the catecholamines producing increase in sympathetic tone. The increase in sympathetic tone leads to increase in stress hormones epinephrine and norepinephrine producing breeching of the gut blood barrier. This leads to decrease in mucin secretion lining the gut wall and inflammatory changes in the colonic mucosa. Modern civilization results in changes in dietary habits leading to less consumption of fibre and more intake of protein and fat. This leads to increased colonic archaeal growth and archaeal endosymbiosis. This produces a new human phenotype with increased predilection for new emerging viral pandemics and other civilizational disorders. The endosymbiotic archaeal growth leads to secretion of RNA viroids which are converted to DNA viroids by reverse transcriptase and integrated into the genome by integrase. The RNA viroids and their corresponding DNA viroids can recombine with human genomic sequences and other viruses generating new viruses.
Modern civilization results in stress in societies leading to increased activation of the HPA axis leading to increased secretion of stress hormones the catecholamines producing increase in sympathetic tone. The increase in sympathetic tone leads to increase in stress hormones epinephrine and norepinephrine producing breeching of the gut blood barrier. This leads to decrease in mucin secretion lining the gut wall and inflammatory changes in the colonic mucosa. Modern civilization results in changes in dietary habits leading to less consumption of fibre and more intake of protein and fat. This leads to increased colonic archaeal growth and archaeal endosymbiosis. The endosymbiotic archaeal growth leads to a new neanderthalic phenotype as a stress adaptation syndrome. The archaeal endosymbiosis leads to the induction of a new metabolic phenotype with mitochondrial dysfunction and anaerobic glycolysis- the Warburg phenotype. The Warburg phenotype that is induced by archaeal endosymbiosis leads to metabolic syndrome x.
Modern civilization results in stress in societies leading to increased activation of the HPA axis leading to increased secretion of stress hormones the catecholamines producing increase in sympathetic tone. The increase in sympathetic tone leads to increase in stress hormones epinephrine and norepinephrine producing breeching of the gut blood barrier. This leads to decrease in mucin secretion lining the gut wall and inflammatory changes in the colonic mucosa. Modern civilization results in changes in dietary habits leading to less consumption of fibre and more intake of protein and fat. This leads to increased colonic archaeal growth and archaeal endosymbiosis. The endosymbiotic archaeal growth leads to a new neanderthalic phenotype as a stress adaptation syndrome. The archaeal endosymbiosis leads to the induction of a new metabolic phenotype with mitochondrial dysfunction and anaerobic glycolysis- the Warburg phenotype. The endosymbiotic archaeal growth mediated Warburg phenotype leads to mitochondrial dysfunction and cell death.
Global warming leads to endosymbiotic archaeal growth. The endosymbiotic archaea produces methane by methanogenesis contributing to global warming. The endosymbiotic archaea develops into cell organelle called archaeaons which can function as vitaminocytes, neurotransminoids, steroidelle and viroidelle creating newer cell organelle and endogenous synthetic biology. This changes the cell and tissue function and structure leading on to a new human phenotype called homo neoneanderthalis. The homo neoneanderthalis is a hardy species which can resist climate change and thrive in environments of high temperature, high atmospheric carbon dioxide and water shortage. The new organelle that are developed can withstand climate change and fix carbon dioxide and ammonia leading to endogenous synthesis of carbohydrates and protein. The homo neoneanderthalis is a new metabolic phenotype that can survive in extremes of climate produced by global warming. The archaea forming new cellular organelle called archaeaons are extremophilic and survive in extremes of climate.
Global warming leads to endosymbiotic archaeal growth. The archaea forming new cellular organelle called archaeaons are extremophilic and survive in extremes of climate. The neoneanderthalic archaeaons have got magnetite capable of magnetoperception and quantal perception. The quantal perception of low level of EMF leads to frontal atrophy and cerebellar dominance producing a new neuronal phenotype with features of endemic cerebellar cognitive affective disorder manifesting as epidemic autism. This forms a new autistic behavioural phenotype which is introverted, non-compassionate, non-empathic, psychopathic and with extrasensory perceptual abilities of telepathy, telekinesis and time travel leading to communication with other galactic civilizations. The new behavioural autistic robotic neoneanderthalic phenotype will have the necessary intelligence and mental abilities cope with climate change. The neoneanderthalic archaeaons produce a metabolic phenotype capable of surviving in extremophilic environments of other star systems and can survive as civilization in other stars and exoplanets. This produces a civilization of super human homo neanderthalis and homo neoneanderthalis.
Global warming leads to endosymbiotic archaeal growth. This changes the cell and tissue function and structure leading on to a new human phenotype called homo neoneanderthalis. The earth gets dominated by homo neanderthalis and homo neoneanderthalis in the setting of global warming and extremophilic climate change and they go on to contact other galactic civilizations by quantal perceptions as well as colonising other exoplanets, planets and star systems. This produces a civilization of super human homo neanderthalis and homo neoneanderthalis with new metabolic, endocrine, neuronal, psychological and genotypic features. The homo neoneanderthalis and homo neanderthalis with its cellular archaeaons and porphyrions can interlink with the internet and computer systems as well as robots producing man-machine hybrids by quantal perception. The artificial intelligence and robotic systems gets merged with homo neanderthalis and homo neoneanderthalis producing super human man-machine hybrids.
Global warming leads to endosymbiotic archaeal growth. The endosymbiotic archaea produces methane by methanogenesis contributing to global warming. The endosymbiotic archaea develops into cell organelle called archaeaons which can function as vitaminocytes, neurotransminoids, steroidelle and viroidelle creating newer cell organelle and endogenous synthetic biology. This changes the cell and tissue function and structure leading on to a new human phenotype called homo neoneanderthalis. The homo neoneanderthalis is a hardy species which can resist climate change and thrive in environments of high temperature, high atmospheric carbon dioxide and water shortage. The new organelle that are developed can withstand climate change and fix carbon dioxide and ammonia leading to endogenous synthesis of carbohydrates and protein. The homo neoneanderthalis is a new metabolic phenotype that can survive in extremes of climate produced by global warming. The archaea forming new cellular organelle called archaeaons are extremophilic and survive in extremes of climate. The new homo neanderthalis and homo neoneanderthalis super human autistic man-machine hybrids will survive and prosper.
Global warming leads to endosymbiotic archaeal growth. The neoneanderthalic archaeaons have got magnetite capable of magnetoperception and quantal perception. The quantal perception of low level of EMF leads to frontal atrophy and cerebellar dominance producing a new neuronal phenotype with features of endemic cerebellar cognitive affective disorder. This forms a new autistic behavioural phenotype which is introverted, non-compassionate, non-empathic, psychopathic and with extrasensory perceptual abilities of telepathy, telekinesis and time travel leading to communication with other galactic civilizations. The neoneanderthalic archaeaons are capable of quantal perception and can communicate quantally with other star systems and multiverses. This leads on to the evolution of a galactic civilization. The neoneanderthalic archaeaons produce a metabolic phenotype capable of surviving in extremophilic environments of other star systems and can survive as civilization in other stars and exoplanets. The neoneanderthalic autistic phenotype with its extremophilic archaeaon organelle is suited for space colonisation. This constitutes a new homo galacticus species surviving other star systems.
The earth gets dominated by archaeal symbiosis generated homo neanderthalis and homo neoneanderthalis in the setting of global warming and extremophilic climate change. This produces a civilization of super human homo neanderthalis and homo neoneanderthalis. The artificial intelligence and robotic systems gets merged with homo neanderthalis and homo neoneanderthalis producing super human man-machine hybrids. The new homo neanderthalis and homo neoneanderthalis super human autistic man-machine hybrids will survive in the setting of global warming related extremophilic climate change and evolving to contact by quantal perception other galactic forms of life and civilization as well as colonising other planets and star systems. This evolves into a new human species inhabiting other comets and star systems- the homo galacticus. The interstellar archaea and porphyrions organise the universe. This cloud of interstellar gas porphyrin networks and archaeal colonies constituting an intergalactic organised life system can convert into stars and planetary system by condensation. The archaeal networks of extraterrestrial intelligence can engineer changes in human mind and civilization.
Global warming leads to endosymbiotic archaeal growth. The endosymbiotic archaea produces methane by methanogenesis contributing to global warming. The endosymbiotic archaea develops into cell organelle called archaeaons which can function as vitaminocytes, neurotransminoids, steroidelle and viroidelle creating newer cell organelle and endogenous synthetic biology. This changes the cell and tissue function and structure leading on to a new human phenotype called homo neoneanderthalis. The homo neoneanderthalis is a new metabolic phenotype that can survive in extremes of climate produced by global warming. The archaea forming new cellular organelle called archaeaons are extremophilic and survive in extremes of climate. The neoneanderthalic archaeaons use cholesterol oxidation as a form of energetics. This produces depletion of sex hormones producing asexual phenotypes. This leads to sexual phenotypes with alternate sexuality and parthenogenesis as a form of reproduction. This produces change in family and society as well as organisation of the community leading to matriarchy and a tribe of male eunuchs.
Global warming leads to endosymbiotic archaeal growth. This changes the cell and tissue function and structure leading on to a new human phenotype called homo neoneanderthalis or homo galacticus. The homo galacticus is a hardy species which can resist climate change and thrive in environments of high temperature, high atmospheric carbon dioxide and water shortage. The homo galacticus is a new metabolic phenotype that can survive in extremes of climate produced by global warming. The archaea forming new cellular organelle called archaeaons are extremophilic and survive in extremes of climate. The neoneanderthalic archaeaons are capable of quantal perception and can communicate quantally with other star systems and multiverses. This leads on to the evolution of a galactic civilization. The galacticus archaeaons produce a metabolic phenotype capable of surviving in extremophilic environments of other star systems and can survive as civilization in other stars and exoplanets. The galacticus autistic phenotype with its extremophilic archaeaon organelle is suited for space colonisation. The new human species can be called homo galacticus.
Global warming leads to endosymbiotic archaeal growth. The endosymbiotic archaea produces methane by methanogenesis contributing to global warming. The endosymbiotic archaea develops into cell organelle called archaeaons which can function as vitaminocytes, neurotransminoids, steroidelle and viroidelle creating newer cell organelle and endogenous synthetic biology. This changes the cell and tissue function and structure leading on to a new human phenotype called homo neoneanderthalis. The homo neoneanderthalis is a hardy species which can resist climate change and thrive in environments of high temperature, high atmospheric carbon dioxide and water shortage. The new organelle that are developed can withstand climate change and fix carbon dioxide and ammonia leading to endogenous synthesis of carbohydrates and protein. The homo neoneanderthalis is a new metabolic phenotype that can survive in extremes of climate produced by global warming. The archaea forming new cellular organelle called archaeaons are extremophilic and survive in extremes of climate.
Human civilization and industrial revolution leads to increase in green house gases like carbon dioxide leading to global warming. The global warming leads to increased growth of endosymbiotic and colonic archaea in humans and animals leading to methane production and global warming. The major part of the world ecosystem is made up of human population and archaeal endosymbiosis and colonic archaeal growth consequent to global warming leads to methanogenesis and increase in the speed of global warming and climate change. The wide spread use of the internet with exposure to low level EMF fields also leads to endosymbiotic archaeal growth and methanogenesis. The human endosymbiotic archaeal growth leads to changes in human brain function, metabolonomics and genomics leading to evolution of a new species. Archaeal endosymbiosis and colonic archaeal density depends upon dietary fibre intake. The life style and nutritional behaviour of population with high fibre intake can alter endosymbiotic and colonic archaeal growth, methanogenesis, climate change and mind change.
Climate change and global warming leads to endosymbiotic archaeal growth and alteration in brain structure and function. The endosymbiotic archaea have got magnetoperception and quantal perception of low level of EMF producing brain changes resulting in frontal cortical atrophy and cerebellar dominance. This produces the syndrome of epidemic cerebellar cognitive disorder with adult onset autism like presentation. The archaeal endosymbiosis produces cholesterol catabolism and depletion of sex hormones resulting in asexual phenotypes and phenotypes with alternate sexuality. There is also a decrease in fertility producing a shrinkage in population. This is compensated by an increase in longevity produced by implantation of biochips to improve ageing organ function resulting in functional cyborgs. The civilization of adult onset autistic cyborgs produces a world without empathy, affection, compassion, tolerance or logic. This results in a surreal syntheistic evil world of autistic asexual unemotional cyborgs and hermits.
Climate change and global warming leads to endosymbiotic archaeal growth and alteration in brain structure and function. The endosymbiotic archaea have got magnetoperception and quantal perception of low level of EMF producing brain changes resulting in frontal cortical atrophy and cerebellar dominance. This produces the syndrome of epidemic cerebellar cognitive disorder with adult onset autism like presentation. The adult onset cerebellar cognitive disorder with autistic presentation leads to social withdrawal. This results in lack of social communication, empathy, compassion and affection leading to an epidemic of loneliness. The brain with archaeal endosymbiosis is capable of quantal perception and gets integrated with internet communications. The neanderthalised brain with archaeal endosymbiosis can modulate internet function by quantal and magnetoperception. Archaeal endosymbiosis can lead to man-internet hybrids with existence linked to the internet and life in a virtual world with virtual friends. This results in a world of autistic asexual unemotional cyborgs and hermits.
The female dominant model of human evolution raises the question of who evolved first- the male or the female. The original fossils of human species are predominantly female and the male fossils evolved after billions of years. The original human species would have been a cluster of female bipedals in swampy waters feeding on tubers of water lilies and lotus as well as fish, mussels and shell fish. The women can reproduce by parthenogenesis like lower animals. Therefore it is natural for the female of the species to evolve first. The sexual relationship in such female only societies in primodial times was lesbian. The evolution of males occurred at a later date. The next stage of human evolution has been postulated to be interspecies hybrids. The early bipedal female only human species would have generated human pig interspecies hybrids. This would have generated interspecies hybrids of males and females. This would have generated a population of both male and female bipedals in the swamps with different type of sexual interactions- heterosexual, bisexual, homo sexual and lesbian. Genetic diversity is required for a species to survive.
Dietary fibre deficiency leads to increased endosymbiotic as well as colonic archaeal growth. Dietary fibre can affect body and cell function. Dietary fibre deficiency produces predominant small intestinal digestion and dietary fibre excess leads to colonic digestion. Small intestinal digestion in the presence of dietary fibre deficiency leads to alteration in colonic flora and archaeal overgrowth. A high fibre diet produces predominantly colonic digestion and leads to suppression of archaeal growth. The colonic archaea seeps through the gut blood barrier producing archaeal endosymbiosis. Thus small intestinal digestion due to dietary fibre deficiency versus colonic digestion due to dietary fibre excess determines the density of archaea in the colon as well as the endosymbiotic compartment. Dietary fibre deficiency can lead to increased endosymbiotic and colonic archaeal overgrowth. Dietary fibre is the single most important component of the human diet more important than dietary protein, fats, carbohydrates, vitamins and minerals. Dietary fibre is the substrate that determines symbiosis and symbiotic evolution. This is the basis of symbiotic medicine.
The homo neanderthalic possibly arose in the Lemurian oceanic landmass supporting the theory of the aquatic ape origin of humans. The homo neanderthalis would have originated from the bonobo monkeys in the Lemurian backwaters communicating with the sea pointing to an aquatic origin for the human beings or an aquatic ape hypothesis. The homo neanderthalis originated from the bonobo Lemurian monkeys which waded into water to search for food. The homo neanderthalis evolved owing to archaeal endosymbiosis. The waters of the ocean and backwaters are rich in marine archaea. The actinides would have formed scaffolds for the formation of complex life molecules like RNA, DNA, protein, isoprenoids and complex carbohydrates. This would have produces RNA viroids, DNA viroids, isoprenoid organism and prions on actinidic surfaces which would have symbiosed to form archaea and eventual multicellular organisms. The Dravidians are matriarchal and female dominant. Parthenogenesis would have been dominant in such matriarchal communities and the female homo neanderthalic species would have evolved first indicating the descent of woman rather than man. This points to a out of South India origin of life.
The aquatic ape evolved from bonobo monkeys into homo neanderthalis in the back waters of South India. The Neanderthals evolved by archaeal endosymbiosis. The most primitive protocell would have been a droplet capable of replication. Lipid droplets formed of isoprenoids would have been the primitive protocell or isoprenoid organism. The isoprenoid organism would have been the original primitive protoarchaea. The lipid droplets can interact with porphyrions. The porphyrion can get incorporated into the lipid droplet by isoprenylation. The porphyrion can have an electron transport chain function. The porphyrion can serve as a template for the formation of RNA and DNA. Thus lipid droplet porphyrion complexes would have served as an efficient protocell which evolved into eukaryotes, prokaryotes and archaea. Lipid droplets are seen in primordial germ cells and parthenogenetic cells and can induce parthenogenesis. The lipid droplet organelle in homo neanderthalis induces germ cell/stem cell formation and parthenogenesis contributing to matriarchal homo neanderthalis. The lipid droplet organelle evolves to primitive archaea and forms the basis of endosymbiotic neanderthalisation.
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