23Feb 2024 by Post

Getting It Together: Tethers, Handshakes, and Multitaskers in the Cell

aminoacyl-tRNA synthetases, anticodon, biochemistry, Caltech, channel guards, condensates, cubicles, DNA, DNA translation, double duty, droplets, dual affinity, dual affinity proteins, endoplasmic reticulum, ER–mitochondria encounter structure, eukaryotes, Evolution, evolutionarily conserved, Intelligent Design, membrane lipids, membranes, mitochondria, molecular biology, molecular machines, multitasking, offices, organelles, paradigm shift, peroxisomes, PLOS Biology, proteins, Ptc5, speckles, tethers, TIM, tom, transfer RNA, tRNA
Running a cell requires coordination. How do molecules moving in the dark interior of a cell know how and when to connect? Protein tethers offer new clues. Source
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30Dec 2022 by Post

#3 Story of 2022: Did Researchers Explain the Origin of Life?

Darwinian evolution, enzymes, Evolution, Intelligent Design, investigators, molecular machinery, mutations, Nature Communications, Nobel Prize, nucleotides, origin of life, parasites, press release, Qb virus, replicase, replication, Ribosome, RNA, Ryo Mizuuchi, translational machinery, tRNA, University of Tokyo
The research paper avers, “These results support the capability of molecular replicators to spontaneously develop complexity through Darwinian evolution.” Source
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23Mar 2022 by Post

Fact Check: Did University of Tokyo Researchers Explain the Origin of Life?

Darwinian evolution, enzymes, Evolution, Intelligent Design, investigators, molecular machinery, mutations, Nature Communications, Nobel Prize, nucleotides, origin of life, parasites, press release, Qb virus, replicase, replication, Ribosome, RNA, Ryo Mizuuchi, translational machinery, tRNA, University of Tokyo
The research paper avers, “These results support the capability of molecular replicators to spontaneously develop complexity through Darwinian evolution.” Source
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