Kleiber’s Law or E = M3/4 is a mathematical expression known since 1932 that outlines the relationship between mass (biomass) and the use of energy. It is compelling because it supports a long standing observation th...Kleiber’s Law or E = M3/4 is a mathematical expression known since 1932 that outlines the relationship between mass (biomass) and the use of energy. It is compelling because it supports a long standing observation that larger animals appear to use energy more efficiently than smaller ones. For example, an elephant’s weight is 200,000 times of a mouse, but uses only about 10,000 fold energy;thus a cat, having a mass of about 100 times of a mouse, only spends roughly 33 fold energy. In other words, the bigger you are, the less energy per gram of tissue you actually need to stay alive. Many facts pertaining to animal size call for a rational explanation. This paper takes into account that the fascinating relationship between mass and energy use for any living thing is governed strictly by a mathematical universal formula across all living species, operating in the tiniest of bacteria to the biggest of whales and sequoia tress. For the first time, we report a capacity for the mammal eukaryotic cell to split, break or dissociate water molecules through melanin. Even though E = M3/4 was discovered eight decades ago, no proper satisfactory explanation exists. Nevertheless, our multiyear detailed study on the “Human Photosynthesis” or first found in the human retina and later in all eukaryotic cells, may finally unravel this mystery, namely, the bigger you are the more surface area you have to absorb electromagnetic radiation and the more potential exists to use that electromagnetic radiation spectra to perform work. We propose a future application of this theory in the context of human diseases, especially age-related disorders, such as retinopathy, cerebrovascular and Alzheimer disease and these implications may not only foster a better understanding of the pathobiology of these devastating diseases but also develop much more effective therapies in the foreseeable future.展开更多
文摘Kleiber’s Law or E = M3/4 is a mathematical expression known since 1932 that outlines the relationship between mass (biomass) and the use of energy. It is compelling because it supports a long standing observation that larger animals appear to use energy more efficiently than smaller ones. For example, an elephant’s weight is 200,000 times of a mouse, but uses only about 10,000 fold energy;thus a cat, having a mass of about 100 times of a mouse, only spends roughly 33 fold energy. In other words, the bigger you are, the less energy per gram of tissue you actually need to stay alive. Many facts pertaining to animal size call for a rational explanation. This paper takes into account that the fascinating relationship between mass and energy use for any living thing is governed strictly by a mathematical universal formula across all living species, operating in the tiniest of bacteria to the biggest of whales and sequoia tress. For the first time, we report a capacity for the mammal eukaryotic cell to split, break or dissociate water molecules through melanin. Even though E = M3/4 was discovered eight decades ago, no proper satisfactory explanation exists. Nevertheless, our multiyear detailed study on the “Human Photosynthesis” or first found in the human retina and later in all eukaryotic cells, may finally unravel this mystery, namely, the bigger you are the more surface area you have to absorb electromagnetic radiation and the more potential exists to use that electromagnetic radiation spectra to perform work. We propose a future application of this theory in the context of human diseases, especially age-related disorders, such as retinopathy, cerebrovascular and Alzheimer disease and these implications may not only foster a better understanding of the pathobiology of these devastating diseases but also develop much more effective therapies in the foreseeable future.