10Nov 2025 by Post

Building the Foundations: The Strong Nuclear Force

astrophysics, atomic bomb, atomic nucleus, baryons, black hole, electrons, Energy, fundamental forces, gold ring, gravitational collapse, gravity, hydrogen, Intelligent Design, life, molecule, neutron stars, nuclear force, nucleons, nucleus, Periodic Table, physics, planets, proton, repulsive force, stars, strong force, sun, supernovae
If the strong force suddenly turned off, the nuclei in an object as small as a gold ring would explode with energy equivalent to a small atomic bomb. Source
Read More
16Sep 2024 by Post

Embrace the Chaos: How Cells Harness Disorder for Function

Alex Holehouse, AlphaFold, antibiotics, ATP synthase, biophysicists, botanis, Brownian motion, Caltech, car jacks, cell's, conformations, cytoplasm, Duke University, electrostatic conditions, eric hedin, Gabriella Heller, Intelligent Design, intrinsically disordered proteins, kinesin, Life Sciences, Maxwell’s demon, MIT, molecular machines, noncoding RNAs, nucleus, pollen grains, proteins, Robert Brown, Robert Shedinger, Scotsmen, socket wrenches, solubility, The Scientist, Washington University
In three classes of examples, cells are shown to manipulate chaotic forces toward functional purposes. Source
Read More
04Mar 2023 by Post

Why High School Biology Made Me Angry (And Why I Like It So Much Better Now)

biology, cell membrane, cell walls, Charles Darwin, computers, Derek Muller, Discovery Institute, Education, Evolution, high school, Howard Glicksman, ID The Future, Intelligent Design, Lex Luthor, mitochondria, molecular machines, nanomachines, nucleus, organelles, oxygen, Podcasts, protoplasm, Superman, teachers, Technology, The Stream, Thermos bottle, Veritasium
Your own body has something like 30 trillion cells in it. That’s 30 trillion large cities’ worth of complexity. Source
Read More
09Feb 2022 by Post

Nuclear Pore Complex Comes into Focus

Baylor College of Medicine, biology, Boston University, Cell (journal), Christopher W. Akey, cytoplasm, DNA, Evolution, Intelligent Design, macromolecule, nuclear envelope, nuclear pore complex, nucleoporins, nucleus, Nups, Rockefeller University, super-resolution microscopy, therapeutics, Transport Channel, UC San Diego, Unlocking the Mystery of Life, WEHI
Super-resolution microscopy is letting us peer even closer into the cell’s secrets, revealing awesome wonders. Source
Read More
28Jan 2021 by Post

The Tragedy of Eukaryote Evolution

archaea, bacteria, California, careers, coronavirus, death camps, eukaryotes, Evolution, gender binary, gender-reveal party, genders, heterosexuality, housework, Insider (magazine), Jane Ward, John Zmirak, Maine, New York University Press, nucleus, parody, prokaryotes, sex, sexuality, The Stream, The Tragedy of Heterosexuality, tigers, UC Riverside, wildfires
Think of all the frustrated longings, misunderstandings, jealousy, and more entailed by the fact that males and females constitute separate genders. Source
Read More
03Apr 2020 by Post

The “Why” of the Fly “Y”: Reflections on “Junk” DNA

Alison Nguyen, axioms, Carmen Sapienza, chromosomes, DNA, Doris Bachtrog, Drosophila melanogaster, Emily Brown, euchromatin, Evolution, Francis Crick, fruit fly, genetics, heterochromatic proteins, heterochromatin, Junk DNA, Leslie Orgel, nucleus, organism, phenotype, repetitive sequences, Richard Dawkins, RNA, The Selfish Gene, transposable elements, W. Ford Doolittle, Y chromosome
In April 1980, almost exactly forty years ago, the journal Nature published a pair of highly influential articles on the topic of what has become known as “junk” or “selfish” DNA. Both reflected the key concept of The Selfish Gene, the highly influential 1976 book by Richard Dawkins, namely, that organisms are merely DNA’s way of making more DNA. The first was authored by W. Ford Doolittle and Carmen Sapienza and titled “Selfish genes, the phenotype paradigm and genome evolution.”1 The second was authored by Leslie Orgel and Francis Crick and titled “Selfish DNA: the ultimate parasite.”2 Together they posited an easy-to-grasp way to conceive of “excess” nucleotides along chromosomes — repetitive sequences in general and transposable elements in particular. In short, it was proposed that most such DNA elements…
Read More