power lines Type post Author David Coppedge Date March 27, 2023 CategoriesBiologyIntelligent DesignScience Tagged , ATP synthase, blood vessels, Cambrian animals, Cambrian Explosion, Cambrian News, cristae, Darwin's Dilemma, electricity, hierarchy, intelligent design, metabolites, mitochondrial membranes, muscle cells, muscles, National Institutes of Health, oxygen, Stephen Meyer A Power Grid in Muscle Cells Has Profound Design Implications David Coppedge March 27, 2023 Biology, Intelligent Design, Science 6 To see why, we must remember that muscles first appear in the Cambrian explosion. Read More ›
ATP Synthase Type post Author David Coppedge Date March 14, 2022 CategoriesBiologyEvolutionIntelligent Design Tagged , animation, archaea, ATP synthase, bacteria, crankshaft, cristae, cryo-electron microscopy, evolution, Germany, hydrothermal vent, intelligent design, Japan, Jet Propulsion Laboratory, Journal of Bacteriology, mitochondria, molecular machines, Nature Communications, phosphate, plant cells, protons, Scott Minnich, Unlocking the Mystery of Life ATP Synthase Gets Smarter David Coppedge March 14, 2022 Biology, Evolution, Intelligent Design 7 Two new papers reveal fine-tuning in the assembly of ATP synthase rotary motors and in its operation under ATP hydrolysis. Read More ›
ATP-synthase Type post Date March 19, 2018 CategoriesIntelligent DesignLife Sciences Tagged , __k-review, ATP synthase, bacterial flagellum, cells, cristae, dimers, Irreducible Complexity, John E. Walker, Jonathan Wells, messenger RNA, mitochondrial membrane, molecular machines, Paul Nelson, Proceedings of the National Academy of Sciences, protons, Ribosome, Unlocking the Mystery of Life Irreducible Complexity in Molecular Machine Assembly Science and Culture March 19, 2018 Intelligent Design, Life Sciences 8 We know that many molecular machines are irreducibly complex in their operation. Even more IC is the process of assembling them in the cell. Read More ›
