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Mapping how proteins change shape is vital but slow. Now, a new method combines AI (AlphaFold2) with experimental data to ...
Breakthrough research explains how brain proteins (VGLUT1) fill nerve cell sacs with glutamate, a key messenger. It details ...
New research on armadillos reveals how DNA shuffling rates evolve. These ancient mammals have surprisingly similar rates, ...
Farmed fish are bred to be less stressed, but wild fish show a wider range of stress responses, including high sensitivity.
Monitoring elusive harbor porpoises is challenging. A study found that land-based optical tools excel at tracking them, while drones are superior for counting group sizes. Using both together provides ...
New AI helps unlock how tiny RNAs (piRNAs) control genes by binding to genetic instructions (mRNAs). This breakthrough in ...
Net, precisely detects rice pests. Combining two powerful AI methods, it analyzes images to understand both tiny details and ...
Cancer cells adapt to drugs, leading to resistance. New research shows current methods often miss individual cell differences ...
Common pulse oximeters, used to check blood oxygen, are dangerously inaccurate at low levels, a new study warns. Crucial for ...
Ants' amazing navigation relies on visual memory. New research shows their brains might not calculate complex visual cues ...
Breakthrough computer models reveal how the bladder lining regenerates. They show how its cells divide and mature, similar to ...
New research reveals how the brain precisely recognizes objects. It uses complex, non-linear interactions between brain cells ...
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