Key Words

Human Space Colonisation, Endosymbiotic Archaea, Neanderthalisation

Key Sentences

Human beings can be re-engineered to live in an anaerobic environment. This is possible by membrane sodium potassium ATPase inhibition and sodium potassium ATPase mediated ATP synthesis and by anaerobic glycolysis. Low level of EMF and photons can also mediate ATP synthesis via the electron transport chain. This occurs by inducing high level of archaeal symbiosis. This can be achieved by feeding low fibre diet, fecal transplantation and archaeal infusions. The archaea growth is increased in the gut and undergoes endosymbiosis generating new organelle- fructosoid, neurotransminoid, steroidelle, porphyrinoid, transmutoid and glycosaminoglycoid. This changes the human species to survive in an anaerobic environment or in an environment of ammonia or hydrogen sulphide. Archaeal symbiosis produces neanderthalisation of human beings which can survive in extremophilic environments including outside planetary system.

Ravikumar Kurup

Dr. Ravikumar Kurup trained in Internal Medicine, Neurology and Metabolic Medicine at Medical College, Trivandrum and Christian Medical College, Vellore. He holds a doctorate degree in Internal Medicine and Neurology. He is a member of the National Academy of Medical Sciences, India. He works as Professor of Metabolic Medicine and Metabolic Neurology at Metabolic Disorders Research Center, Trivandrum. He also works as Professor of Internal Medicine and Head of the divisions of Metabolic Medicine and Hematology at Medical College Hospital, Trivandrum. His areas of research interests are in Neurochemistry and Metabolic Medicine.

Parameswara Achutha Kurup

The Metabolic Disorders Research Centre, TC 4/1525, Gouri Sadan, Kattu Road North of Cliff House, Kowdiar PO Trivandrum, Kerala, India.