tailieunhanh - Uric acid and life on earth

Uric acid is a key product of the metabolism of purines, the backbone of Desoxyribonucleic acid (DNA). Being a fundamental component of every living cell, the total Earth’s DNA base pairs is estimated to weigh 50 billion tons [1], which translates into a huge abundance of uric acid in our planet. It would be naive to think of all these virtual heaps of uric acid as useless, inert waste produces. Indeed, they are not. Uric acid in the environment is a rich source of nitrogen (33% of its weight) to plant life, hence its important role in the universal food chain. Most animals get rid of uric acid, thereby replenishing the ecosystem with a precious nutritional ingredient. Interestingly, primates have opted to keep some uric acid for their own internal environment, obviously reflecting an evolutionarily acquired physiological role that seems un-necessary for lower forms of animal life. Yet, like with many other molecules of physiological benefit, there is a risk of retaining too much. The role of increased extracellular uric acid pool in the pathogenesis of gout, urolithiasis, tumor lysis syndrome and rhabdomyolysis has been well known for decades. More recently, several animal and clinical observations have suggested a potential role of excess uric acid in the pathogenesis of hypertension, obesity and cardiovascular disorders, chronic kidney disease, and others. However, a conclusive cause-and-effect relationship has not been established, so far. The broad diversity of uric acid metabolism in different forms of life, its physiological role in plants and primates, and the debate on its significance in many common diseases in humans constitute the rationale for putting together this special issue of the Journal. | Journal of Advanced Research 8 2017 471-474 Contents lists available at ScienceDirect Journal of Advanced Research journal homepage locate jare Editorial Uric acid and life on earth Uric acid and life on Earth Uric acid is a key product of the metabolism of purines the backbone of Desoxyribonucleic acid DNA . Being a fundamental component of every living cell the total Earth s DNA base pairs is estimated to weigh 50 billion tons 1 which translates into a huge abundance of uric acid in our planet. It would be naive to think of all these virtual heaps of uric acid as useless inert waste produces. Indeed they are not. Uric acid in the environment is a rich source of nitrogen 33 of its weight to plant life hence its important role in the universal food chain. Most animals get rid of uric acid thereby replenishing the ecosystem with a precious nutritional ingredient. Interestingly primates have opted to keep some uric acid for their own internal environment obviously reflecting an evolutionarily acquired physiological role that seems un-necessary for lower forms of animal life. Yet like with many other molecules of physiological benefit there is a risk of retaining too much. The role of increased extracellular uric acid pool in the pathogenesis of gout urolithiasis tumor lysis syndrome and rhabdomyolysis has been well known for decades. More recently several animal and clinical observations have suggested a potential role of excess uric acid in the pathogenesis of hypertension obesity and cardiovascular disorders chronic kidney disease and others. However a conclusive cause-and-effect relationship has not been established so far. The broad diversity of uric acid metabolism in different forms of life its physiological role in plants and primates and the debate on its significance in many common diseases in humans constitute the rationale for putting together this special issue of the Journal. Uric acid metabolism While earlier products of purine .

• Hoá học
• Uric acid and life on earth
• Life on earth
• Uric acid
• Uric acid metabolism
• Physiological role of uric acid in humans