flagellum Type post Author Brian Miller Date January 3, 2022 CategoriesBiologyEngineeringEvolutionIntelligent Design Tagged , bacterial flagellum, BIO-Complexity, components, Conference on Engineering in Living Systems, constraints, design logic, engineering model, evolution, hook, intelligent design, manufacturing, navigation, propeller, proteins, requirements Bacterial Flagellum Demonstrates the Explanatory and Predictive Power of Engineering Models Brian Miller January 3, 2022 Biology, Engineering, Evolution, Intelligent Design 5 Dean Schulz investigated the design of the flagellum with a method that could be described as groundbreaking. Read More ›
maize Type post Author Brian Miller Date September 24, 2021 CategoriesBiologyEngineeringIntelligent DesignLife Sciences Tagged , biophysicists, cave fish, CELS 2021, Conference on Engineering in Living Systems, DNA, dog breeds, engineering model, environmental conditions, evolutionary theory, gene regulatory network, hair, intelligent design, James Shapiro, maize, natural genetic engineering, natural selection, phenotypic plasticity, sodium, temperature, yeast Nearly All of Evolution Is Best Explained by Engineering Brian Miller September 24, 2021 Biology, Engineering, Intelligent Design, Life Sciences 8 Transposable elements modify gene regulation in maize to confer drought tolerance, alter flowering time, and enable plants to grow in toxic aluminum soils. Read More ›
watching clock Type post Author Brian Miller Date February 15, 2017 CategoriesAnatomyBiochemistryEvolution Tagged , __edited, binding site, engineering model, Extended Evolutionary Synthesis, gene regulatory network, innovation, intelligent design, software analogy, theistic evolution, transcription factors, vertebrate eye, waiting-time problem Eye Evolution: The Waiting Is the Hardest Part Brian Miller February 15, 2017 Anatomy, Biochemistry, Evolution 7 Without calling it a series, I've written several articles recently that followed a logical path. Read More ›
