E. coli Type post Author Emily Reeves Date March 7, 2022 CategoriesBiologyEvolutionFine-tuningIntelligent Design Tagged , Bacillus subtilis, beauty, biological redundancy, biological systems, design triangulation, duplicate genes, E. coli, elegance, enzymes, evolution, fitness, function, gene expression, genetic information, intelligent design, laboratory conditions, Neo-Darwinism, optimality, precision, proteins, robustness, speakers, sporulation, Stanford University, storage, transmission Application of ID: Leveraging Design Triangulation to Anticipate Biological Redundancy Emily Reeves March 7, 2022 Biology, Evolution, Fine-tuning, Intelligent Design 8 In previous posts, I’ve covered how neo-Darwinism can make biological redundancy more confusing than it should be. Read More ›
DNA Type post Author Emily Reeves Date March 4, 2022 CategoriesBiologyEvolutionIntelligent Design Tagged , biological redundancy, design triangulation, DNA, evolution, fitness, function, genetic material, genotype, intelligent design, laboratory conditions, Martin Nowak, neo-Darwinian theory, organisms, robustness No More Confusion: Three Categories of Biological Redundancy, Simplified Emily Reeves March 4, 2022 Biology, Evolution, Intelligent Design 3 Rewriting the categories of biological redundancy in terms of function clarifies their purpose and contribution. Read More ›
Type post Author Michael Behe Date May 12, 2016 CategoriesEvolutionGeneticsScience Reporting Tagged , __tedited, adaptive mutations, Barry Hall, citrate, contingency, dishonesty, E. coli, Elizabeth Pennisi, epigenetic change, exaggeration, false dichotomy, genetic changes, hype, laboratory conditions, limits of evolution, loss-of-function mutations, LTEE, media, motivated reasoning, peer review, public opinion, repeatability, Richard Lenski, science journalism, Science News, science reporting, Scott Minnich, speciation Richard Lenski and Citrate Hype — Now Deflated Michael Behe May 12, 2016 Evolution, Genetics, Science Reporting 8 For more than 25 years, Lenski's lab has grown a dozen lines of the bacterium E. coli in small culture flasks. Read More ›
