Bücher von Ravikumar Kurup

The rise of neo-neanderthalisation due to internet-related electromagnetic field (EMF) and global warming mediated endosymbiotic archaeal growth resulted in autistic societies which are isolated and deglobalized. The autistic neo-neanderthals had quantal perception consequent to magnetotactic mitochondria with iron-sulphur clusters and generated man-machine hybrids forming generation of human artificial intelligence societies. This resulted in the formation of deglobalized personalized capitalism fired by artificial intelligent man-machine hybrids. These personalized capitalism managed AI-tech companies need a few tech individuals leading to widespread unemployment. It is an inhuman future without any nations, democracy, media, religion, family, society, sex, entertainment, art or philosophy. Sister autistic personalized capitalistic societies in different galaxies may engage in intergalactic wars. There would not be any aging. The brain mitochondrial magnetotactic networks AI interface has quantal perception and wave-particle existence and can live in multiverses. It is eternal. We have galloping towards a civilization of inhuman humans.

L'invecchiamento può essere considerato una mitocondriopatia. L'aumento della crescita degli archetipi attinici nell'invecchiamento. I mitocondri umani possiedono gli enzimi del citocromo P450 necessari per la sintesi degli steroidi. I mitocondri possono sintetizzare la parte agliconica della digossina. Gli RNA viroidi arcaici che si ibridano con l'RNA mitocondriale possono essere convertiti in DNA mitocondriale dalla trascrittasi inversa e possono formare parte del DNA mitocondriale. Questo trasferisce le informazioni per la sintesi della parte zuccherina dagli archei ai mitocondri. Possono formare supermitocondri e superbatteri che sintetizzano la digossina. La digossina mitocondriale può regolare lo scambio sodio-calcio nella membrana cellulare e modulare la funzione mitocondriale. I radicali liberi possono produrre stress ossidativo e danni con conseguente processo di invecchiamento.

Altern kann als eine Mitochondriopathie betrachtet werden. Die Zunahme des Wachstums aktinidischer Archaeen im Alter. In den menschlichen Mitochondrien befinden sich die für die Steroid-Synthese erforderlichen Cytochrom-P450-Enzyme. Die Mitochondrien können den Aglykonteil des Digoxins synthetisieren. Die archaeischen RNA-Viroide, die mit der mitochondrialen RNA hybridisieren, können durch reverse Transkriptase in mitochondriale DNA umgewandelt werden und einen Teil der mitochondrialen DNA bilden. Dadurch wird die Information für die Synthese des Zuckeranteils von den Archaeen auf die Mitochondrien übertragen. Sie können Supermitochondrien und Superbugs bilden, die Digoxin synthetisieren. Das mitochondriale Digoxin kann den Natrium-Calcium-Austausch in der Zellmembran regulieren und die mitochondriale Funktion modulieren. Freie Radikale können oxidativen Stress und Schäden verursachen, die zum Alterungsprozess führen.

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. Thus archaea can contribute to climate change as well as bring about a reversal.

The extremes of climate change produce endosymbiotic archaeal growth. The archaea are cholesterol catabolising organism. This results in neanderthalisation of the human species. This occurred during the ice age and is possibly a continuing phenomenon during the periods of global warming. The homo neanderthalis population is susceptible to civilizational diseases like schizophrenia, autism, metabolic syndrome X, diabetes mellitus, coronary artery disease, stroke, neurodegeneration and autoimmune disease. The homo sapien population suffers from endemic depression and lack of creativity with a propensity to develop recurrent infections. The homo sapien population is relatively protected from civilizational diseases. The Neanderthals consequent to archaeal symbiosis can generate new viruses serving as viral reservoirs. The archaeal endosymbiosis in Neanderthals produces stem cell transformation protecting the stem cell reservoirs of viruses from immune attack. These newly generated viruses in homo neanderthalis to which they are immune can attack and exterminate the homo sapien population. Archaea can act as a drug for homo sapiens in situations of pandemics.

The Neanderthals are symbiotic life form due to archaeal endosymbiosis. The archaea induces the Warburg phenotype with increased glycolysis and the blockade of the TCA cycle and mitochondrial oxidative phosphorylation. The Warburg phenotype is seen in autoimmune disease, schizophrenia, autism, cancer, degeneration and metabolic syndrome x. The Neanderthals ate a ketogenic diet of fat and protein to suppress the glycolytic pathway. The Neanderthal hybrids formed by homo sapien mating had a high carbohydrate diet due to grain cultivation in settled colonies. This tends to increased glycolysis and accentuates the Warburg phenotype and associated disorders. The glycolytic pathway is upregulated and the mitochondrial oxidative phosphorylation is inhibited. This results in a mitochondriopathy. The archaea can produce transformation of the colonic cells to stem cells. This colonic stem cells are shed in the fecal matter. The fecal matter can be used for fecal transfusion which forms an alternate method for stem cell transplantation.

Gli archei attinici sono stati messi in relazione con il riscaldamento globale e con le malattie umane, soprattutto quelle autoimmuni. I mitocondri umani possiedono gli enzimi del citocromo P450 necessari per la sintesi degli steroidi. I mitocondri possono sintetizzare la parte agliconica della digossina. Gli RNA viroidi arcaici che si ibridano con l'RNA mitocondriale possono essere convertiti in DNA mitocondriale dalla trascrittasi inversa e possono formare parte del DNA mitocondriale. Questo trasferisce le informazioni per la sintesi della parte zuccherina dagli archei ai mitocondri. Possono formare supermitocondri e superbatteri che sintetizzano la digossina. La digossina mitocondriale può regolare lo scambio sodio-calcio nella membrana cellulare e modulare la funzione mitocondriale. Questi supermitocondri ibridati con virus a RNA possono replicarsi per fissione e fusione e formare una rete esterna alla struttura cellulare che regola il corpo e il cervello. La disfunzione mitocondriale può portare alla mitoinfiammazione e alle malattie autoimmuni.

Las arqueas actínidas se han relacionado con el calentamiento global y las enfermedades humanas, especialmente las autoinmunes. La mitocondria humana posee las enzimas del citocromo P450 necesarias para la síntesis de esteroides. La mitocondria puede sintetizar la parte aglicona de la digoxina. Los viroides de ARN arqueal que se hibridan con el ARN mitocondrial pueden convertirse en ADN mitocondrial mediante la transcriptasa inversa y formar parte del ADN mitocondrial. Esto transfiere la información para la síntesis de la fracción de azúcar de las arqueas a las mitocondrias. Pueden formar supermitochondria y superbacterias que sintetizan digoxina. La digoxina mitocondrial puede regular el intercambio sodio-calcio en la membrana celular y modular la función mitocondrial. Estas supermitocondrias hibridizadas con virus ARN pueden replicarse por fisión y fusión y formar una red fuera de la estructura celular que regula el organismo y el cerebro. La disfunción mitocondrial puede provocar mitoinflamación y enfermedades autoinmunes.

Les archées actinidiques ont été associées au réchauffement climatique et aux maladies humaines, en particulier les maladies auto-immunes. La mitochondrie humaine possède les enzymes du cytochrome P450 nécessaires à la synthèse des stéroïdes. La mitochondrie peut synthétiser la partie aglycone de la digoxine. Les viroïdes ARN archéologiques s'hybridant avec l'ARN mitochondrial peuvent être convertis en ADN mitochondrial par la transcriptase inverse et peuvent faire partie de l'ADN mitochondrial. Les informations relatives à la synthèse de la partie sucrée sont ainsi transférées des archées aux mitochondries. Elles peuvent former des supermitochondries et des superbactéries synthétisant la digoxine. La digoxine mitochondriale peut réguler l'échange sodium-calcium dans la membrane cellulaire et moduler la fonction mitochondriale. Ces supermitochondries hybridées avec des virus à ARN peuvent se répliquer par fission et fusion et former une toile à l'extérieur de la structure cellulaire régulant le corps et le cerveau. Le dysfonctionnement mitochondrial peut entraîner une mito-inflammation et des maladies auto-immunes.

Aktinidische Archaeen werden mit der globalen Erwärmung und menschlichen Krankheiten, insbesondere Krebs, in Verbindung gebracht. In den menschlichen Mitochondrien befinden sich die für die Steroid-Synthese erforderlichen Cytochrom-P450-Enzyme. Die Mitochondrien können den Aglykonteil des Digoxins synthetisieren. Die archaeischen RNA-Viroide, die mit der mitochondrialen RNA hybridisieren, können durch reverse Transkriptase in mitochondriale DNA umgewandelt werden und einen Teil der mitochondrialen DNA bilden. Dadurch wird die Information für die Synthese des Zuckeranteils von den Archaeen auf die Mitochondrien übertragen. Sie können Supermitochondrien und Superbugs bilden, die Digoxin synthetisieren. Das mitochondriale Digoxin kann den Natrium-Calcium-Austausch in der Zellmembran regulieren und die mitochondriale Funktion modulieren. Diese Supermitochondrien, die mit RNA-Viren hybridisiert sind, können sich durch Spaltung und Fusion vermehren und ein Netz außerhalb der Zellstruktur bilden, das den Körper und das Gehirn reguliert. Eine mitochondriale Dysfunktion kann zur Onkogenese führen.

Las arqueas actínidas se han relacionado con el calentamiento global y las enfermedades humanas, especialmente el cáncer humano. La mitocondria humana posee las enzimas del citocromo P450 necesarias para la síntesis de esteroides. La mitocondria puede sintetizar la parte aglicona de la digoxina. Los viroides de ARN arqueal que se hibridan con el ARN mitocondrial pueden convertirse en ADN mitocondrial mediante la transcriptasa inversa y formar parte del ADN mitocondrial. Esto transfiere la información para la síntesis de la fracción de azúcar de las arqueas a las mitocondrias. Pueden formar supermitochondria y superbacterias que sintetizan digoxina. La digoxina mitocondrial puede regular el intercambio sodio-calcio en la membrana celular y modular la función mitocondrial. Estas supermitocondrias hibridizadas con virus ARN pueden replicarse por fisión y fusión y formar una red fuera de la estructura celular que regula el organismo y el cerebro. La disfunción mitocondrial puede conducir a la oncogénesis.

Aktinidische Archaeen werden mit der globalen Erwärmung und menschlichen Krankheiten, insbesondere Autoimmunkrankheiten, in Verbindung gebracht. In den menschlichen Mitochondrien befinden sich die für die Steroid-Synthese erforderlichen Cytochrom-P450-Enzyme. Die Mitochondrien können den Aglykonteil des Digoxins synthetisieren. Die archaeischen RNA-Viroide, die mit der mitochondrialen RNA hybridisieren, können durch reverse Transkriptase in mitochondriale DNA umgewandelt werden und einen Teil der mitochondrialen DNA bilden. Dadurch wird die Information für die Synthese des Zuckeranteils von den Archaeen auf die Mitochondrien übertragen. Sie können Supermitochondrien und Superbugs bilden, die Digoxin synthetisieren. Das mitochondriale Digoxin kann den Natrium-Calcium-Austausch in der Zellmembran regulieren und die mitochondriale Funktion modulieren. Diese Supermitochondrien, die mit RNA-Viren hybridisiert sind, können sich durch Spaltung und Fusion vermehren und ein Netz außerhalb der Zellstruktur bilden, das den Körper und das Gehirn reguliert. Eine mitochondriale Dysfunktion kann zu Mitoinflammation und Autoimmunerkrankungen führen.

As archaea actinídicas têm sido relacionadas com o aquecimento global e com doenças humanas, especialmente o cancro humano. A mitocôndria humana possui as enzimas do citocromo P450 necessárias para a síntese de esteróides. A mitocôndria pode sintetizar a parte aglicona da digoxina. Os viroides de ARN das arqueas que hibridizam com o ARN mitocondrial podem ser convertidos em ADN mitocondrial pela transcriptase reversa e podem formar parte do ADN mitocondrial. Isto transfere a informação para a síntese da porção de açúcar das arqueas para as mitocôndrias. Podem formar supermitocôndrias e superbactérias que sintetizam digoxina. A digoxina mitocondrial pode regular a troca sódio-cálcio na membrana celular e modular a função mitocondrial. Estas supermitocôndrias hibridizadas com vírus de ARN podem replicar-se por fissão e fusão e formar uma teia fora da estrutura celular que regula o corpo e o cérebro. A disfunção mitocondrial pode levar à oncogénese.

Les archées actinidiques ont été associées au réchauffement climatique et aux maladies humaines, en particulier le cancer. La mitochondrie humaine possède les enzymes du cytochrome P450 nécessaires à la synthèse des stéroïdes. La mitochondrie peut synthétiser la partie aglycone de la digoxine. Les viroïdes ARN archéologiques s'hybridant avec l'ARN mitochondrial peuvent être convertis en ADN mitochondrial par la transcriptase inverse et peuvent faire partie de l'ADN mitochondrial. Cela permet de transférer l'information relative à la synthèse de la partie sucrée des archées aux mitochondries. Elles peuvent former des supermitochondries et des superbactéries synthétisant la digoxine. La digoxine mitochondriale peut réguler l'échange sodium-calcium dans la membrane cellulaire et moduler la fonction mitochondriale. Ces supermitochondries hybridées avec des virus à ARN peuvent se répliquer par fission et fusion et former une toile à l'extérieur de la structure cellulaire régulant le corps et le cerveau. Le dysfonctionnement des mitochondries peut conduire à l'oncogenèse.

Gli archei attinici sono stati messi in relazione con il riscaldamento globale e con le malattie umane, in particolare il cancro. I mitocondri umani possiedono gli enzimi del citocromo P450 necessari per la sintesi degli steroidi. I mitocondri possono sintetizzare la parte agliconica della digossina. Gli RNA viroidi arcaici che si ibridano con l'RNA mitocondriale possono essere convertiti in DNA mitocondriale dalla trascrittasi inversa e possono formare parte del DNA mitocondriale. Questo trasferisce le informazioni per la sintesi della parte zuccherina dagli archei ai mitocondri. Possono formare supermitocondri e superbatteri che sintetizzano la digossina. La digossina mitocondriale può regolare lo scambio sodio-calcio nella membrana cellulare e modulare la funzione mitocondriale. Questi supermitocondri ibridati con virus a RNA possono replicarsi per fissione e fusione e formare una rete esterna alla struttura cellulare che regola il corpo e il cervello. La disfunzione mitocondriale può portare all'oncogenesi.

Le onde sonore primitive derivanti dalle onde gravitazionali danno origine ai fotoni e alle radiazioni elettromagnetiche, base del mondo della materia. Le porfirine possono formare complessi porfirinici supramolecolari chiamati porfirioni, che possono complessarsi con il solfuro di ferro per formare nanoconiugati porfirione-solfuro di ferro. Il nanoconiugato supramolecolare porfirione-solfuro di ferro può immagazzinare informazioni, può autoreplicarsi su un modello e produrre energia attraverso la catena di trasporto degli elettroni ed è l'organismo più primitivo. Questi primitivi nanoconiugati magnetotattici supramolecolari di solfuro di ferro porfirone contribuiscono al campo magnetico intergalattico. Le rotazioni del campo magnetico intergalattico a spirale contribuiscono alla creazione delle stelle e dei sistemi planetari. I modelli di porfirina possono contribuire alla formazione di prioni, organismi isoprenoidi, viroidi dell'RNA e viroidi del DNA nel campo magnetico intergalattico. Tutti questi organismi possono entrare in simbiosi per formare gli archei primitivi. Gli asteroidi che hanno colpito la terra hanno portato gli archei sulla terra infettando i primati che hanno prodotto l'homo neanderthalis nell'India meridionale.

Les ondes sonores primitives issues des ondes gravitationnelles donnent naissance aux photons et au rayonnement électromagnétique, base du monde de la matière. Les porphyrines peuvent former des complexes supramoléculaires de porphyrines appelés porphyrions, qui peuvent se complexer avec du sulfure de fer pour former des nanoconjugués de porphyrions et de sulfure de fer. Le nanoconjugué supramoléculaire de porphyrine et de sulfure de fer peut stocker des informations, s'auto-répliquer sur un modèle et produire de l'énergie par le biais de la chaîne de transport d'électrons ; il s'agit de l'organisme le plus primitif. Ces nanoconjugués supramoléculaires magnétotactiques porphyrion-sulfure de fer contribuent au champ magnétique intergalactique. Les rotations du champ magnétique intergalactique spiralé contribuent à la création des étoiles et des systèmes planétaires. Les modèles de porphyrine peuvent également contribuer à la formation de prions, d'organismes isoprénoïdes, de viroïdes ARN et de viroïdes ADN dans le champ magnétique intergalactique. Tous ces organismes peuvent entrer en symbiose pour former les archées primitives. Les astéroïdes qui ont frappé la terre ont fait descendre les archées dans la terre, infectant les primates qui ont donné naissance à l'homo neanderthalis dans le sud de l'Inde.

Aus den primitiven Schallwellen, die sich aus Gravitationswellen ergeben, entstehen Photonen und elektromagnetische Strahlung, die Grundlage der Welt der Materie. Die Porphyrine können supramolekulare Porphyrin-Komplexe bilden, die Porphyrionen genannt werden und mit Eisensulfid einen Komplex bilden können, um Porphyrion-Eisensulfid-Nanokonjugate zu bilden. Das supramolekulare Porphyrion-Eisensulfid-Nanokonjugat kann Informationen speichern, sich auf einer Vorlage selbst replizieren und über die Elektronentransportkette Energie erzeugen und ist der primitivste Organismus. Diese primitiven magnetotaktischen supramolekularen Porphyrion-Eisensulfid-Nanokonjugate tragen zum intergalaktischen Magnetfeld bei. Die Rotationen des spiralförmigen intergalaktischen Magnetfelds tragen zur Entstehung der Sterne und Planetensysteme bei. Die Porphyrin-Vorlagen können außerdem zur Bildung von Prionen, isoprenoiden Organismen, RNA-Viroiden und DNA-Viroiden im intergalaktischen Magnetfeld beitragen. Sie alle können eine Symbiose eingehen und die primitiven Archaeen bilden. Die Asteroideneinschläge auf der Erde brachten die Archaeen auf die Erde und infizierten die Primaten, aus denen in Südindien der Homo neanderthalis entstand.

Actinidic archaea has been related to global warming and human diseases especially human cancer. The human mitochondria has the cytochrome P450 enzymes required for steroidal synthesis. The mitochondria can synthesize the aglycone part of the digoxin. The archaeal RNA viroids hybridizing with mitochondrial RNA can get converted to mitochondrial DNA by reverse transcriptase and can form part of the mitochondrial DNA. This transfers the information for the synthesis of the sugar moiety from the archaea to the mitochondria. They can form supermitochondria and superbugs synthesizing digoxin. The mitochondrial digoxin can regulate the sodium-calcium exchange into the cell membrane and modulate mitochondrial function. These supermitochondria with hybridized with RNA viruses can replicate by fission and fusion and form a web outside the cell structure regulating the body and the brain. Mitochondrial dysfunction can lead to oncogenesis.

Las ondas sonoras primitivas que surgen de las ondas gravitacionales dan lugar a los fotones y a la radiación electromagnética, base del mundo de la materia. Las porfirinas pueden formar complejos supramoleculares de porfirinas denominados porfiriones que pueden formar complejos con sulfuro de hierro para formar nanoconjugados de porfiriones y sulfuro de hierro. El nanoconjugado porfirión supramolecular de sulfuro de hierro puede almacenar información, autorreplicarse en una plantilla y producir energía mediante la cadena de transporte de electrones, y es el organismo más primitivo. Estos nanoconjugados magnetotácticos supramoleculares de sulfuro de hierro porfirión contribuyen al campo magnético intergaláctico. Las rotaciones del campo magnético intergaláctico espiral contribuyen a la creación de las estrellas y los sistemas planetarios. Las plantillas de porfirina pueden contribuir además a la formación de priones, organismos isoprenoides, viroides de ARN y viroides de ADN en el campo magnético intergaláctico. Todos ellos pueden simbiotizarse para formar las arqueas primitivas. Los impactos de asteroides sobre la Tierra hicieron que las arqueas descendieran a la Tierra infectando a los primates que produjeron el homo neanderthalis en el sur de la India.

Actinidic archaea has been related to global warming and human diseases especially metabolic syndrome - type 2 diabetes mellitus, CVA and CAD. The human mitochondria has the cytochrome P450 enzymes required for steroidal synthesis. The mitochondria can synthesize the aglycone part of the digoxin. The archaeal RNA viroids hybridizing with mitochondrial RNA can get converted to mitochondrial DNA by reverse transcriptase and can form part of the mitochondrial DNA. This transfers the information for the synthesis of the sugar moiety from the archaea to the mitochondria. They can form supermitochondria and superbugs synthesizing digoxin. The mitochondrial digoxin can regulate the sodium-calcium exchange into the cell membrane and modulate mitochondrial function. These supermitochondria with hybridized with RNA viruses can replicate by fission and fusion and form a web outside the cell structure regulating the body and the brain. Mitochondrial dysfunction can lead to metabolic syndrome.

As ondas sonoras primitivas resultantes das ondas gravitacionais dão origem aos fotões e à radiação electromagnética, base do mundo da matéria. As porfirinas podem formar complexos porfirínicos supramoleculares denominados porfíriões, que podem complexar-se com sulfureto de ferro para formar nanoconjugados de sulfureto de ferro porfírião. O nanoconjugado supramolecular porfírion-sulfureto de ferro pode armazenar informação, pode auto-replicar-se num modelo e produzir energia através da cadeia de transporte de electrões e é o organismo mais primitivo. Estes primitivos nanoconjugados magnetotácticos supramoleculares de sulfureto de ferro porfírion contribuem para o campo magnético intergaláctico. As rotações do campo magnético intergaláctico em espiral contribuem para a criação das estrelas e dos sistemas planetários. Os modelos de porfirina podem ainda contribuir para a formação de priões, organismos isoprenóides, viroides de ARN e viroides de ADN no campo magnético intergaláctico. Todos eles podem simbiose juntos para formar as archaea primitivas. Os impactos dos asteróides na Terra trouxeram as archaea para a Terra, infectando os primatas que produziram o homo neanderthalis no sul da Índia.

Actinidic archaea has been related to global warming and human diseases especially psychiatric diseases. The human mitochondria has the cytochrome P450 enzymes required for steroidal synthesis. The mitochondria can synthesize the aglycone part of the digoxin. The archaeal RNA viroids hybridizing with mitochondrial RNA can get converted to mitochondrial DNA by reverse transcriptase and can form part of the mitochondrial DNA. This transfers the information for the synthesis of the sugar moiety from the archaea to the mitochondria. They can form supermitochondria and superbugs synthesizing digoxin. The mitochondrial digoxin can regulate the sodium-calcium exchange into the cell membrane and modulate mitochondrial function. These supermitochondria with hybridized with RNA viruses can replicate by fission and fusion and form a web outside the cell structure regulating the body and the brain. Mitochondrial dysfunction can lead to free radical injury and disordered brain energetics leading to psychiatric diseases ¿ schizophrenia, mood disorders and autism.

Actinidic archaea has been related to global warming and human diseases especially autoimmune diseases. The human mitochondria has the cytochrome P450 enzymes required for steroidal synthesis. The mitochondria can synthesize the aglycone part of the digoxin. The archaeal RNA viroids hybridizing with mitochondrial RNA can get converted to mitochondrial DNA by reverse transcriptase and can form part of the mitochondrial DNA. This transfers the information for the synthesis of the sugar moiety from the archaea to the mitochondria. They can form supermitochondria and superbugs synthesizing digoxin. The mitochondrial digoxin can regulate the sodium-calcium exchange into the cell membrane and modulate mitochondrial function. These supermitochondria with hybridized with RNA viruses can replicate by fission and fusion and form a web outside the cell structure regulating the body and the brain. Mitochondrial dysfunction can lead to mitoinflammation and autoimmune diseases.

Actinidic archaea has been related to global warming and human diseases especially neurodegenerative diseases. The human mitochondria has the cytochrome P450 enzymes required for steroidal synthesis. The mitochondria can synthesize the aglycone part of the digoxin. The archaeal RNA viroids hybridizing with mitochondrial RNA can get converted to mitochondrial DNA by reverse transcriptase and can form part of the mitochondrial DNA. This transfers the information for the synthesis of the sugar moiety from the archaea to the mitochondria. They can form supermitochondria and superbugs synthesizing digoxin. The mitochondrial digoxin can regulate the sodium-calcium exchange into the cell membrane and modulate mitochondrial function. These supermitochondria with hybridized with RNA viruses can replicate by fission and fusion and form a web outside the cell structure regulating the body and the brain. Mitochondrial dysfunction can lead to free radical injury and disordered brain energetics leading to neurodegenerative diseases.

The mitochondria and magnetotactic are derived from supramolecular porphyrion iron sulphide nanoconjugates in the intergalactic magnetic field brought down to the earth by asteroidal hits. The mitochondria regulates the cell. The mitochondria can lead freely as a colony away from the cell multiplying fission and fusion. The free-living mitochondrial colony can regulate neurotransmission and consciousness in the brain. The free-living mitochondrial colony can replace the brain as such. The mitochondria is a quantal organelle and has a wave-particle function. Mitochondria can exist as a wave. The free-living mitochondrial brain colony can exists as a wave containing the brain information and can survive even death contributing to biological reincarnation. The endosymbiotic archaeal RNA viroids can hybridize with mitochondrial RNA creating new mitochondrial genes by the function of reverse transcriptase and DNA integrase. This can produce a supermitochondria which is free-living with new functions.

The human mitochondria has the cytochrome P450 enzymes required for steroidal synthesis. Digoxin synthesis can also happen in the mitochondria. The mitochondria can synthesize the aglycone part of the digoxin. The archaeal RNA viroids can hybridize with mitochondrial RNA generating new viruses and the free mitochondria can become an infective cell-sufficient viral supporting network. The archaeal RNA viroids hybridizing with mitochondrial RNA can get converted to mitochondrial DNA by reverse transcriptase and can form part of the mitochondrial DNA. This transfers the information for the synthesis of the sugar moiety from the archaea to the mitochondria. They can form supermitochondria and superbugs. These supermitochondria with hybridized with RNA viruses can replicate by fission and fusion and form a web outside the cell structure regulating the body and the brain. The mitochondrial digoxin can regulate the sodium-calcium exchange into the cell membrane and modulate mitochondrial function. Supermitochondrial digoxin can regulate hemispheric dominance and mitochondrial function.

The homo neanderthalis evolved first in the backwaters of peninsular India. The dominant matrilineal societies with neanderthalic phenotypic features are seen in peninsular India. Homo neanderthalic evolves consequent to archaeal symbiosis occurring in extremes of climate. The aquatic ape evolved in the forest adjacent to backwaters and developed bipedalism consequent to hunting for fish and water lilies in the backwaters of Kerala. The endosymbiotic archaea catabolises cholesterol for its energy and synthesizes digoxin. The archaeal endosymbiosis leads to the homo neanderthalic phenotype with autistic savantic features. The homo neanderthalis matrilineal species is produced by archaeal endosymbiosis. This leads to induction of the Warburg phenotype with mitochondrial dysfunction. Archaeal digoxin can produce increased intracellular calcium and mitochondrial dysfunction. This leads to eventual extinction of the homo neanderthalis species with fossilized matrilineal societies living in Kerala, Basque, Wales and Berbers.

The endosymbiotic archaeal RNA viroids can hybridize with mitochondrial RNA generating new viruses and the free mitochondria can become an infective cell-sufficient viral supporting network. The archaeal RNA viroids hybridizing with mitochondrial RNA can get converted to mitochondrial DNA by reverse transcriptase and can form part of the mitochondrial DNA. They can form supermitochondria and superbugs. These supermitochondria with hybridized with RNA viruses can replicate by fission and fusion and form a web outside the cell structure regulating the body and the brain.

The magnetotactic mitochondria can also have a wave-particle existence and undergo teleportation. The teleportation of the magnetotactic mitochondria in the intergalactic space creates the intergalactic magnetic field which by its rotation contributes to formation of stars and planetary systems. The magnetotactic mitochondria in its wave form can be teleported to the earth and taken up by archaea as a symbiotic organism to complete the human cell. The magnetotactic mitochondria by its magnetoperception can regulate the other celluar organelle like nucleus, peroxisomes, endoplasmic reticulum, golgi body, ribosome and cytoskeleton. The magnetotactic mitochondria by its magnetoperception can regulate other organ systems and orchestrate their functioning as a conductor. The cell-free magnetotactic mitochondria can form a network by fission and fusion and by magnetoperception can regulate each cellular organ including the human brain and in its wave form can survive mortality. The free magnetotactic mitochondrial colony functions as the primary brain structure modulating neurotransmission, information storage and quantal perception as well as consciousness.