Berkeley Lab and University of California researchers have developed a new technique for monitoring protein phosphorylation inside single living cells, enabling them to follow live cellular chemical changes without bias and without harming the cells. Read more »
Real-Time Chemical Imaging of Bacterial Biofilm Development
Almost all bacteria can form biofilms—dynamic communities of cells enclosed in self-produced matrices of polymers. Researchers have developed a robust and label-free method to probe the chemical underpinnings of developing bacterial biofilms. Read more »
First Detailed Look at RNA Dicer
Scientists have gotten their first detailed look at the molecular structure of an enzyme that Nature has been using for eons to help silence unwanted genetic messages: Dicer, an enzyme that plays a critical role in a process known as RNA interference.
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Snapshots of Ribozyme Reaction States Reveal Structural Switch
RNA, like protein, can sometimes function as an enzyme (ribozyme) to speed biochemical reaction rates. But how does RNA, a simple polymer, enhance reaction rates by at least a million fold? Researchers obtained the structures of a ribozyme trapped in different states of its catalytic cycle, showing how a change in the RNA conformation governs the reaction mechanism. Read more »
The Path of Messenger RNA through the Ribosome
Using x-ray crystallography, researchers directly observed the path of mRNA in the 70S ribosome in Fourier difference maps at 7 Å resolution. Image depicts the view down the crystallographic 4-fold axis of the 70S ribosome-mRNA-tRNA complex, showing the head-to-tail juxtaposition of the model mRNAs (red-orange) between adjacent ribosomes. Read more »
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