19Feb 2026 by Post

Yet Another Demonstration that Life’s Origin Required an Intelligent Agent

Cambridge, candor, chemical evolution, chemical processes, early Earth, Edoardo Gianni, England, experiments, intelligent agent, Intelligent Design, James Tour, MRC Laboratory of Molecular Biology, nucleotide chains, nucleotides, origin of life, physical processes, primer, protocell, QT45, reagents, RNA, RNA replicator, RNA world, Rob Stadler, Science (journal), water
James Tour and Rob Stadler explain why an RNA even remotely similar to QT45 could never have formed on the early Earth. Source
Read More
17Aug 2021 by Post

Tonight, New “Long Story Short” Video Delivers a Dose of Reality for Origin-of-Life Researchers

"building blocks" of life, academic fraud, Airgas, amino acids, Brian Miller, carbohydrates, carbon dioxide, Casey Luskin, Change Laura Tan, Evolution, experiments, heart disease, heart failure, Intelligent Design, Jeff Bada, Le Chatelier’s principle, lipids, Long Story Short, nucleotides, origin of life, Pier Luigi Luisi, prebiotic Earth, reagents, researchers, Stanley Miller, The Stairway to Life, YouTube videos
In the time of the early Earth, Airgas, the supplier from which the researchers obtained their materials, was not around. Source
Read More
23Apr 2020 by Post

An Astronomer Considers the Origin of Life, with Sobering Results

abiogenesis, astronomers, biologists, biology, calculation, Chemistry, Drake equation, Erlenmeyer flask, Evolution, Fischer Scientific, inflation, inflationary universe, metaphysics, meteorites, monomers, Nature (journal), nucleotides, origin of life, Physics, Earth & Space, reagents, RNA molecules, RNA world, silver atom, snowflakes, Tomonori Totani, tooth fairy, universe, University of Tokyo
Live Science reports: Is life a gamble? Scientist models universe to find out Scientists suspect that the complex life that slithers and crawls through every nook and cranny on Earth emerged from a random shuffling of non-living matter that ultimately spit out the building blocks of life. Even so, the details to support the idea are lacking. But researchers recently got creative in figuring out the probability of life actually emerging spontaneously from such inorganic matter — a process called abiogenesis. In the study, Tomonori Totani, a professor of astrophysics at the University of Tokyo, modeled the microscopic world of molecules across the epic scale of the entire universe to see if abiogenesis is a likely candidate for the origin of life. He was essentially looking at whether there were…
Read More