New math model controls biological noise at single-cell level, offering a path to tackle cancer relapse and drug resistance.
Brian P. Lazzaro from Cornell University discusses the role of dynamic feedbacks in determining infection outcomes ...
Morning Overview on MSN
Math team solves cellular 'noise' puzzle, unlocking better treatments
Cells live in a world of chaos, constantly buffeted by random molecular jolts that can derail even the most carefully tuned ...
Think back to middle school algebra, like 2 a + b. Those letters are parameters: Assign them values and you get a result. In ...
Researchers at Los Alamos National Laboratory have developed a new approach that addresses the limitations of generative AI ...
The Hechinger Report on MSN
Talk nerdy to me: Teachers who use math vocabulary help students do better in math
Using words like ‘factors,’ ‘denominators’ and ‘multiples’ may be part of a constellation of good math teaching practices ...
That challenge is examined in the study Towards Eco-Friendly Cybersecurity: Machine Learning-Based Anomaly Detection with ...
Why does cancer sometimes recur even after successful treatment, or why do some bacteria survive despite the use of powerful ...
Khrystyna Voloshyn, Data Scientist, Tamarack Technology Scott Nelson, Chief Technology and Chief Product Officer, Tamarack ...
The Brighterside of News on MSN
New study provides a key breakthrough in cancer therapy and synthetic biology
Randomness inside cells can decide whether a cancer returns after chemotherapy or whether an infection survives antibiotics.
This study presents SynaptoGen, a differentiable extension of connectome models that links gene expression, protein-protein interaction probabilities, synaptic multiplicity, and synaptic weights, and ...
Using words like ‘factors,’ ‘denominators’ and ‘multiples’ may be part of a constellation of good math teaching practices.
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