Atomfair Brainwave Hub: SciBase II / Biotechnology and Biomedical Engineering / Biomedical advancements through cellular and molecular innovations

Biomedical advancements through cellular and molecular innovations

Showing 25-36 of 59 articles

Bridging quantum biology with information theory to decode cellular decision-making mechanisms

quantum biology information theory cellular decision-making biophysics signaling networks

Combining lattice cryptography with biochemical signaling pathways for secure cellular communication

lattice cryptography biochemical signaling cellular communication post-quantum encryption molecular networks

Using quantum annealing methods to optimize large-scale protein folding simulations

quantum annealing protein folding optimization computational biology quantum computing

Employing neglected mathematical tools like tropical geometry in biological network modeling

tropical geometry biological networks metabolic pathways mathematical modeling neglected tools

Synthesizing algebraic geometry with neural networks for protein folding landscapes

algebraic geometry protein folding neural networks topological analysis biophysics

Characterizing protein folding intermediates during high-temperature denaturation using single-molecule fluorescence

protein folding thermal denaturation single-molecule imaging intermediate states biophysics

Via counterintuitive biological hacks such as inducing torpor in human cells for organ preservation

suspended animation cryobiology organ transplantation metabolic suppression medical hibernation

Using computational retrosynthesis with epigenetic reprogramming for next-generation drug discovery

computational retrosynthesis epigenetic reprogramming drug discovery synthetic biology cheminformatics

Mapping circadian gene oscillations in shift workers using single-cell transcriptomics

circadian rhythms shift work disorder transcriptomics chronobiology occupational health

Integrating art-inspired scientific approaches to improve protein folding visualization tools

protein folding scientific visualization bioart computational biology molecular dynamics

Decoding protein folding intermediates with machine learning-enhanced cryo-EM techniques

protein folding cryo-electron microscopy machine learning structural biology intermediate states

Bridging quantum biology with information theory to model enzyme tunneling dynamics

quantum biology enzyme dynamics electron tunneling information entropy bioenergetics