Fluorescence resonance energy transfer at the single-molecule level
Fluorescence resonance energy transfer (FRET) is a powerful spectroscopic method for
measuring distances in the 2–8 nm range. Often, conformational changes and molecular …
measuring distances in the 2–8 nm range. Often, conformational changes and molecular …
Single-molecule FRET for probing nanoscale biomolecular dynamics
Single-molecule spectroscopy is a powerful method for studying the physics of molecular
systems, particularly biomolecules, such as proteins and nucleic acids. By avoiding …
systems, particularly biomolecules, such as proteins and nucleic acids. By avoiding …
Artificial intelligence-driven quantification of antibiotic-resistant Bacteria in food by color-encoded multiplex hydrogel digital LAMP
Antibiotic-resistant bacteria pose considerable risks to global health, particularly through
transmission in the food chain. Herein, we developed the artificial intelligence-driven …
transmission in the food chain. Herein, we developed the artificial intelligence-driven …
Probing actin‐activated ATP turnover kinetics of human cardiac myosin II by single molecule fluorescence
A Berg, LP Velayuthan, S Tågerud, M Ušaj… - …, 2024 - Wiley Online Library
Mechanistic insights into myosin II energy transduction in striated muscle in health and
disease would benefit from functional studies of a wide range of point‐mutants. This …
disease would benefit from functional studies of a wide range of point‐mutants. This …
An evaluation of recent advancements in biological sensory organ-inspired neuromorphically tuned biomimetic devices
In the field of neuroscience, significant progress has been made regarding how the brain
processes information. Unlike computer processors, the brain comprises neurons and …
processes information. Unlike computer processors, the brain comprises neurons and …
Programming morphological and mechanical performance of cyclic ori-kirigami via design-feasible parameter space
Recent advances in origami and kirigami have enabled the creation of unconventional
structures that utilize precise folding and strategic cutting to achieve complex functionalities …
structures that utilize precise folding and strategic cutting to achieve complex functionalities …
Deep learning based local feature classification to automatically identify single molecule fluorescence events
S Zhou, Y Miao, H Qiu, Y Yao, W Wang… - Communications …, 2024 - nature.com
Long-term single-molecule fluorescence measurements are widely used powerful tools to
study the conformational dynamics of biomolecules in real time to further elucidate their …
study the conformational dynamics of biomolecules in real time to further elucidate their …
Artificial Intelligence‐Enhanced Analysis of Genomic DNA Visualized with Nanoparticle‐Tagged Peptides under Electron Microscopy
DNA visualization has advanced across multiple microscopy platforms, albeit with limited
progress in the identification of novel staining agents for electron microscopy (EM) …
progress in the identification of novel staining agents for electron microscopy (EM) …
Pretrained Deep Neural Network Kin-SiM for Single-Molecule FRET Trace Idealization
Single-molecule fluorescence resonance energy transfer (smFRET) has emerged as a
pivotal technique for probing biomolecular dynamics over time at nanometer scales …
pivotal technique for probing biomolecular dynamics over time at nanometer scales …
Deep-LASI, single-molecule data analysis software
By avoiding ensemble averaging, single-molecule methods provide novel means of
extracting mechanistic insights into function of material and molecules at the nanoscale …
extracting mechanistic insights into function of material and molecules at the nanoscale …