ID the Future Intelligent Design, Evolution, and Science Podcast
Topic

Kinesin

3d-rendered-illustration-of-a-motor-protein-stockpack-adobe-230402435-stockpack-adobe_stock
3d rendered illustration of a motor protein

McLatchie: How Motor Proteins Power Eukaryotic Cell Division

Could the components of the eukaryotic cell division process have arisen through a gradual, unguided process? On this ID The Future, Dr. Jonathan McLatchie casts light on the unlikelihood of this proposition as he continues a four-episode series with host Andrew McDiarmid on the intelligent design and irreducible complexity of eukaryotic cell division. In this segment, McLatchie dives into some of the key molecular machinery responsible for the success of mitosis: the mitotic spindle and the motor proteins that aid in its assembly and function, explaining why their origin is beyond the reach of a Darwinian process. Read More ›
fetus
3d rendered medically accurate illustration of a fetus at week 20

David Galloway: The Fetal Circulatory System is Irreducibly Complex

On today’s ID the Future, distinguished British physician and author David Galloway explains why he’s convinced that the human fetal circulatory system is irreducibly complex and therefore beyond the reach of blind gradualistic evolution to have built. In his conversation with host and fellow physician Geoffrey Simmons, Galloway also mentions some molecular machines that he’s convinced are irreducibly complex and shout intelligent design. The occasion for the conversation is Galloway’s new book, Design Dissected.