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The internet-related low level EMF fields, global warming and actinidic archaea affect mitochondrial function. The internet-related low level of EMF fields can trigger endosymbiotic archaeal growth and methanogenesis producing global warming. The internet-related low level of EMF fields produces actinidic archaea growth which can oxidize cholesterol and generate PAH producing global warming. Global warming due to increased endosymbiotic archaeal growth can lead to still further global warming. The internet-related low level EMF fields increases endosymbiotic archaeal growth which produces the…mehr

Produktbeschreibung
The internet-related low level EMF fields, global warming and actinidic archaea affect mitochondrial function. The internet-related low level of EMF fields can trigger endosymbiotic archaeal growth and methanogenesis producing global warming. The internet-related low level of EMF fields produces actinidic archaea growth which can oxidize cholesterol and generate PAH producing global warming. Global warming due to increased endosymbiotic archaeal growth can lead to still further global warming. The internet-related low level EMF fields increases endosymbiotic archaeal growth which produces the Warburg phenotype in the human cell with mitochondrial dysfunction. The porphyrions generated 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.
Autorenporträt
Dr Ravikumar Kurup is the Director of the Metabolic Disorders Research Centre, Trivandrum.