Transcription and translation are processes a cell uses to make all proteins the body needs to function from information stored in the sequence of bases in DNA. The four bases (C, A, T/U, and G in the ...

How does the cell convert DNA into working proteins? The process of translation can be seen as the decoding of instructions for making proteins, involving mRNA in transcription as well as tRNA. But ...

Researchers applied the Ribo-STAMP method to map protein translation in nearly 20,000 mouse hippocampal cells. The study ...

The maps of electrical brain activity taken during the making of memories are well established, but how those memories are stored and subsequently released remains unclear. In 23 October Proceedings ...

In a new study, published in Cell, researchers describe a newfound mechanism for creating proteins in a giant DNA virus, comparable to a mechanism in eukaryotic cells. The finding challenges the dogma ...

A study using Ribo-STAMP technology reveals that protein production in brain cells varies significantly between different types of neurons, offering new insights into autism and memory.

RNA transcription is the genomic process in which a cell produces a duplicate of a gene's DNA sequence. In a study published in Nucleic Acids Research, University of Alabama at Birmingham Department ...

The brain's ability to carry out everything from forming memories to coordinating movement depends on its cells producing the right proteins at the right time. But directly measuring this protein ...

Propagation of expression noise from mRNA to protein level is influenced by variation in availability of ribosomal machinery.

Whether you’re interested in why a living system works as it does or the reasons it goes awry, proteins are a critical part of the molecular picture. The proteins circulating in a person’s plasma can ...