Key Words
Dietary Fibre, Endosymbiotic Archaea, Diabetes Mellitus, Cornary Artery Disease, Stroke
Key Sentences
Dietary fibre can regulate body and cell function. Dietary fibre is the substrate that determines symbiosis and symbiotic evolution. The endosymbiotic archaea regulates human functions and species type and depends upon the colonic archaea whose density is determined by the fibre intake. Populations with low fibre intake have lesser density of colonic archaeal microflora and endosymbiotic archaea. Endosymbiotic archaea contributes to neanderthalisation of the species. Populations consuming a high saturated fat and protein diet with low fibre intake tend to get increased endosymbiotic archaeal growth and are neanderthalised. Populations with high fibre intake up to 80 g/day tend to have reduced archaeal density in the colon and reduced archaeal endosymbiosis contributing to homo sapienisation of the population. Thus fibre intake regulates the endosymbiotic archaeal density and type of human species. Dietary fibre deficiency and increased archaeal endosymbiosis can lead to metabolic syndrome X with diabetes mellitus, coronary artery disease and stroke.
The Full Book PDF |
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FrontMatter |
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Chapter 1 The Dietary Fibre, Species Evolution and Neuro-Immuno-Genomic-Endocrine Integration |
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Chapter 2 A Cholesterol and Actinide Dependent Shadow Biosphere of Archaea and Viroids in Metabolic Syndrome - Type 2 Diabetes Mellitus with Coronary Artery Disease and Stroke - Role of Dietary Fibre |
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Chapter 3 Dietary Fibre, Archaeal Endosymbiosis, Fructose Disease and Metabolic Syndrome |
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Chapter 4 The Archaeal Induced Stem Cell Conversion Produces an Epidemic Benjamin Buttons Reverse Aging Syndrome Leading to Metabolic Syndrome - Type 2 Diabetes Mellitus with Coronary Artery Disease and Stroke - Role of Dietary Fibre |
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Chapter 5 Metabolic Syndrome - Type 2 Diabetes Mellitus with Coronary Artery Disease and Stroke - Relation to Archaeal Mediated RNA Viroids and Amyloidosis - Role of Dietary Fibre |
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Chapter 6 Neoneanderthalisation and Metabolic Syndrome - Type 2 Diabetes Mellitus with Coronary Artery Disease and Stroke - Role of Dietary Fibre |
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Chapter 7 A Neoneanderthalisation related Porphyrin Metabolic Dysfunction underlies the Metabolic Syndrome-Type 2 Diabetes Mellitus with Coronary Artery Disease and Stroke - Role of Dietary Fibre |
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Chapter 8 Actinidic Archaea Mediates Biological Transmutation in Human Systems - Role in Metabolic Syndrome-Type 2 Diabetes Mellitus with Coronary Artery Disease and Stroke - Role of Dietary Fibre |
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Chapter 9 Endosymbiotic Archaeal Generated RNA Viroids Can Regulate Cell Function and Contribute to Metabolic Syndrome-Type 2 Diabetes Mellitus with Coronary |
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Chapter 10 Endosymbiotic Actinidic Archaeal Cholesterol Catabolic Syndrome - Hypocholesterolemia and Metabolic Syndrome-Type 2 Diabetes Mellitus with Coronary Artery Disease and Stroke - Role of Dietary Fibre |
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Chapter 11 Endosymbiotic Actinidic Archaeal mediated Warburg Phenotype mediates Metabolic Syndrome-Type 2 Diabetes Mellitus with Coronary Artery Disease and Stroke - Role of Dietary Fibre |
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Chapter 12 Endosymbiotic Actinidic Archaeal Synthesis of Digoxin from Cholesterol Regulates Cellular Function and Contributes to Metabolic Syndrome-Type 2 Diabetes Mellitus with Coronary Artery Disease and Stroke - Role of Dietary Fibre |
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Chapter 13 Neanderthalic Actinidic Archaea Related Lemurian Syndrome-Endomyocardial Fibrosis, Chronic Calcific Pancreatitis and Multinodular Goitre-Evolutionary Significance and Evidence for the Lemurian Supercontinent - Role of Dietary Fibre |
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Chapter 14 Endosymbiotic Actinidic Archaea and Viroidal Induced Warburg Phenotype Can Be Reversed by a Modified Vegetarian High Fibre, High Medium Chain Triglyceride Ketogenic Diet |
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Chapter 15 Endosymbiotic Pathogenic Archaea and Archaeal Derived RNA Viroids Induced Evolutionary Species Change in Humans - Interconversion of Homo Sapiens and Homo Neanderthalis - Method for Archaeal Symbiosis Modulated Human Evolution for Therapeutic Purpose |
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BackMatter |
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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.
Experts in Medicine, Nutrition, Endocrinology, Climatology, Evolution, Biology, Anthropology