The Miracle of the Cell provides compelling evidence that long before life emerged on our planet, the design of the carbon-based cell was foreshadowed in the order of nature, in the exquisite fitness of the laws of nature for this foundational unit of all life on Earth. Nowhere is this fitness more apparent than in the properties of the key atomic constituents of the cell. Each of the atoms of life--including carbon, hydrogen, oxygen, and nitrogen, as well as several metal elements--features a suite of unique properties fine-tuned to serve highly specific, indispensable roles in the cell. Moreover, some of these properties are specifically fit for essential roles in the cells of advanced aerobic organisms like ourselves. Author Michael Denton is a Senior Fellow with Discovery Institute's Center for Science and Culture. He holds an MD from Bristol University and a PhD in biochemistry from King's College in London. His previous books include Evolution: A Theory in Crisis and Nature's Destiny: How the Laws of Biology Reveal Purpose in the Universe. He has published his work in Nature, Nature Genetics, BioSystems, Human Genetics, and Biology and Philosophy.
The Miracle of the Cell provides compelling evidence that long before life emerged on our planet, the design of the carbon-based cell was foreshadowed in the order of nature, in the exquisite fitness of the laws of nature for this foundational unit of all life on Earth. Nowhere is this fitness more apparent than in the properties of the key atomic constituents of the cell. Each of the atoms of life--including carbon, hydrogen, oxygen, and nitrogen, as well as several metal elements--features a suite of unique properties fine-tuned to serve highly specific, indispensable roles in the cell. Moreover, some of these properties are specifically fit for essential roles in the cells of advanced aerobic organisms like ourselves. Author Michael Denton is a Senior Fellow with Discovery Institute's Center for Science and Culture. He holds an MD from Bristol University and a PhD in biochemistry from King's College in London. His previous books include Evolution: A Theory in Crisis and Nature's Destiny: How the Laws of Biology Reveal Purpose in the Universe. He has published his work in Nature, Nature Genetics, BioSystems, Human Genetics, and Biology and Philosophy.