03Jul 2023 by Post

The Design of the Seminal Fluid and Sperm Capacitation

acrosome, antibodies, ATP, capacitation, cilia, clotting factors, contraceptives, egg, egg membrane, enzymes, Evolution, fibrin, flagellum, foresight, fructose, head, Intelligent Design, Irreducible Complexity, liquefaction, male infertility, Medicine, middle piece, non-hormonal contraceptives, reproductive tract, semen, seminal fluid, seminal vesicles, serine proteases, sperm cells, zona pellucida
There is no cause in the universe that is known to have such a capacity of foresight other than intelligent design. Source
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02Jan 2020 by Post

Care for Appetizers? Electric Proteins, Spidey Sense, and More

anatomy, appetizers, Arizona State University, Barry Scott, Biomimetics, centipedes, cilia, electricity, electron transport, gene repression, genes, genomes, Intelligent Design, Irreducible Complexity, Joubert syndrome, Junk DNA, Massachusetts Eye and Ear Infirmary, Massey University, materials science, metabolism, Michael Behe, miRNA, orb webs, photosynthesis, physiology, Siam News, sliders, spiders, Stuart Lindsey, swimming, Tohoku University, University of North Carolina, University of Otago, X-ray crystallography, Zheng-Yi Chen
Welcome to the second day of the New Year! Like tasty sliders, these short news stories should get the juices flowing for big developments in 2020. Electric Proteins Dr. Stuart Lindsey at Arizona State University is an expert in single-molecule dynamics in biomolecules. Older methods of observing protein structure, such as X-ray crystallography, only gave single snapshots of the highly dynamic world, he says, where proteins rapidly change conformations and interact in complex ways. Electron transport has been well known in the cases of photosynthesis and metabolism. But a few years ago, his team was astonished to find that a run-of-the-mill protein conducted electricity. The protein was acting like a wire! Further observations revealed that all proteins conduct electricity — even the ones that had “weren’t designed to do this”—…
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27Nov 2019 by Post

Design in the First Animals

animals, aragonite, Cambrian Explosion, Cambrian News, cilia, Cladonema, Cnidaria, cognitive capacity, comb jellies, crabs, crustaceans, Ctenophora, ctenophores, Current Biology, Darwin's Black Box, Edward Pope, Evolution, fossil record, honeycomb, hydrodynamic coupling, Intelligent Design, jellyfish, lobsters, Michael Behe, mollusks, nacre, Porifera, Precambrian, Robert Hovden, Sarah P. Leys, sea gooseberries, shrimp, Swansea University, tablets, The Edge of Evolution, Tohoku University, University of Michigan, University of Tsukuba
It didn’t take long for animals to master physics and engineering. The first animal body plans were performing feats that fascinate — and baffle — research scientists. Ctenophores: Flashing Paddles Also called sea gooseberries and comb jellies, ctenophores (pronounced TEN-o-fours) are small centimeter-sized marine organisms with rows of cilia, called comb rows or ctenes, which function as paddles for swimming. Though gelatinous and transparent, comb jellies are unrelated to jellyfish (phylum Cnidaria); they have been classified into their own phylum, Ctenophora, characterized by eight of these comb rows. Scientists debate whether ctenophores are the earliest animals that appeared in the Cambrian explosion, as opposed to sponges (phylum Porifera). If so, they arrived with multiple tissues, a nervous system, and a digestive system. That’s a lot to account for without any…
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