New math model controls biological noise at single-cell level, offering a path to tackle cancer relapse and drug resistance.
CI Jaekyung Kim of the IBS Center for Mathematical and Complex Systems, Professor Jinsu Kim of POSTECH, and Professor ...
Dot Physics on MSN
Spring-force modeling of a spinning and flipping T-handle in Python
Spring-force modeling of a spinning and flipping T-handle in Python. Explore rotational dynamics, torque, and oscillations through clear simulations and physics-based code. #RotationalDynamics #Spring ...
Dot Physics on MSN
RLC circuit modeling and simulation using Python
RLC circuit modeling and simulation using Python, explained step by step. Explore resonance, damping, and frequency response with practical coding and clear physics insights. #RLCCircuit #CircuitSimul ...
Explore the link between cancer and bacterial relapse in light of new research on biological noise and therapy strategies.
News Medical on MSN
A mathematical solution for precise control of cellular “noise”
Why does cancer sometimes recur after chemotherapy? Why do some bacteria survive antibiotic treatment? In many cases, the answer appears to lie not in genetic differences, but in biological noise - ...
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 ...
Brian P. Lazzaro from Cornell University discusses the role of dynamic feedbacks in determining infection outcomes ...
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