Researchers identify a protein involved in the chromosomal disorder that could explain its characteristic learning deficits.
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Researchers find that temporary double-stranded DNA breaks commonly result from normal neuron activation—but expression of an Alzheimer’s-linked protein increases the damage.
Researchers show that a bacterium’s self-sacrifice can benefit its community, even when the members are not strongly related.
Improvements in light-sheet microscopy enable real-time activity imaging of almost every neuron in the brain of zebrafish larvae.
Disgruntled Nobel loser sues; brain trauma researchers search for biomarker of a chronic condition; receptor for novel coronavirus found; the rise of transcriptomics; and ethical oversight of participant-led research
Nanoparticles coated with a toxin found in bee venom can destroy HIV while leaving surrounding cells intact.
Transcriptome studies reveal new insights about unusual animals whose genomes have not been sequenced.
A red alga appears to have adapted to extremely hot, acidic environments by collecting genes from bacteria and archaea.
Mice with human brain cells showed enhanced synaptic plasticity and learning, suggesting glia may be key to our cognitive prowess.
Normal proteins with regions resembling disease-causing prions are responsible for an inherited disorder that affects the brain, muscle, and bone.
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