Key words

Endosymbiotic archaea, Global warming, Symbiotic evolution, Neoneanderthals, RNA viroidal quasi-species consortia, Kali yuga

Key sentences

Global warming leads to increased endosymbiotic archaeal growth and generation of cellular organelle called the archaeaons. The archaeaons which catabolize cholesterol and secreted endogenous digoxin is called the steroidelle. Hyperdigoxinemia leads to right hemispheric dominance and neanderthalisation of the species. Hypodigoxinemia leads to left hemispheric dominance and homo sapienisation of species. Thus increased endosymbiotic archaeal growth leads to neanderthalisation and decreased endosymbiotic archaeal growth leads to homo sapienisation of the species. The archaea secretes RNA viroids which can exist as quasi-species consortia which can generate new RNA viroidal codes by archaeal digoxin induced RNA editing. The archaeal RNA viroidal quasi-species consortia gives identity to the species. Human speciation as well as that of other species depends on symbiosis. This can be called as symbiotic evolution.

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.