A research team has developed a technology that distinguishes lung cancer gene mutations solely by measuring the "stiffness" of exosomes—tiny particles released from cancer cells in the ...
The research team led by Senior Researchers Yoonhee Lee from the Division of Biomedical Technology and Gyogwon Koo from the Division of Intelligent Robot at DGIST (under President Kunwoo Lee) has ...
New model extracts stiffness and fluidity from AFM data in minutes, enabling fast, accurate mechanical characterization of living cells at single-cell resolution. (Nanowerk Spotlight) Cells are not ...
The research team led by Senior Researchers Yoonhee Lee from the Division of Biomedical Technology and Gyogwon Koo from the Division of Intelligent Robot at DGIST (under President Kunwoo Lee) has ...
Atomic force microscopy (AFM) has emerged as an indispensable technique for probing the mechanical and structural properties of living cells at nanometre resolution. By employing a sharp probe to ...
Thought LeaderProf. Dr. Kristina Kusche-VihrogHead of Department, Institute of PhysiologyUniversity of Lübeck In this interview with News Medical Life Sciences, Prof. Dr. Kristina Kusche-Vihrog, head ...
AFM is a scanning probe microscopic instrument that consists of a force-sensing microcantilever, a laser source, a piezoelectric scanner and a photodiode detector (Figure 1A). During AFM imaging, the ...
(Nanowerk News) Membrane rafts are nanometer-scale structures rich in cholesterol and sphingolipids, believed to serve as vital platforms for cell signaling, viral entry, and cancer metastasis. Since ...
insights from industryDr. André KörnigApplication ScientistBruker BioAFM In this interview, Dr. André Körnig, Application Scientist at Bruker BioAFM discusses the applications of BioAFM in the life ...
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