E. coli bacteria Type post Author Jonathan McLatchie Date July 25, 2023 CategoriesBiologyEvolutionIntelligent Design Tagged , amino acids, bacteria, bacterial cell division, bacterial cell wall, cell wall, cleavage, evolution, foresight, glycosyltransferases, Gram-negative bacteria, intelligent design, Irreducible Complexity, Mycoplasma, natural selection, penicillin, peptides, self-replication Irreducibly Complex, Bacterial Cell Wall Manufacture Is an Evolutionary Enigma Jonathan McLatchie July 25, 2023 Biology, Evolution, Intelligent Design 10 Evolutionary processes cannot select for some future utility that is only realized after passing through a maladaptive intermediate. Read More ›
Berlinermauer Type post Author David Coppedge Date May 9, 2023 CategoriesBiologyEvolutionIntelligent Design Tagged , bacterial flagellum, Berlin Wall, Casey Luskin, convergent evolution, East Germany, evolution, Gram-negative bacteria, intelligent design, Irreducible Complexity, journals, magic wand, mainstream media, Michael Behe, Nature Communications, proteins, schools, state universities, type III secretion system The Darwin Wall Still Stands; but for How Long? David Coppedge May 9, 2023 Biology, Evolution, Intelligent Design 10 The tyranny of Darwinism in academia does not yet allow for open exchange of ideas and debate over origins. Read More ›
gram negative bacteria Type post Author David Coppedge Date July 12, 2022 CategoriesBiologyEvolutionIntelligent Design Tagged , bacteria, bacterial flagellum, co-evolution, conjugation, cryo-electron microscopy, Darwin Devolves, degeneration, devolution, evolution, genes, Gram-negative bacteria, intelligent design, Michael Behe, molecular machine, Nature (journal), proteins, Richard Dawkins, selfish genes, T3SS, The Miracle of Man, University College London Scientists Reveal Bacterial T4SS “Biogenesis Machinery” David Coppedge July 12, 2022 Biology, Evolution, Intelligent Design 7 With cryo-electron microscopy, scientists have zoomed in on a molecular machine that is very different from the Type III Secretion System. Read More ›
