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Luca Piantanida

I earned a B.Sc. and M.Sc. in Medical Biotechnology at University of Trieste in north-east of Italy, working firstly in a cancer research lab, and secondly, in a biophysics lab where my passion of nano-molecular objects started, along with my Atomic Force Microscopy experience. Then, I continued working on DNA origami technology to successfully create a Localized Surface Plasmon Resonant (LSPR) switching device triggered by DNA oligonucleotide molecules, obtaining, in this way, a PhD in Nanotechnology from University of Trieste in 2015. In January 2016 I started my international research experience working as a Post-Doctoral associate for 3 years, in the group of Kislon Voitchovsky at Durham University in UK, where I investigated the biophysical properties at the nanoscale of soft matter in bio-synthetic models extensively using Atomic Force Microscopy. After a short 6-months period in AFM bio-physics lab at INSERM-Marseille institute in France, I joined Micron School of Materials ....

Atomic Force Microscopy , Biotechnology At University Of Trieste , University Of Trieste , Micron School Of Materials , Medical Biotechnology , Localized Surface Plasmon Resonant , Kislon Voitchovsky , Durham University , United Kingdom , Atomic Force , Omicron School , Boise State University , Fluorescence Microscopy , Super Resolution , Nucleic Acid Memory , Super Resolution Microscopy , அணு படை நுண்ணோக்கி , பல்கலைக்கழகம் ஆஃப் முயற்சிக்கிறது , மருத்துவ உயிரி தொழில்நுட்பவியல் , டர்ஹாம் பல்கலைக்கழகம் , ஒன்றுபட்டது கிஂக்டம் , அணு படை , மைக்ரான் பள்ளி , போயஸ் நிலை பல்கலைக்கழகம் , அருமை தீர்மானம் , அருமை தீர்மானம் நுண்ணோக்கி ,

Study reveals how cells build 'mini-muscles' underneath their nucleus

Study reveals how cells build mini-muscles underneath their nucleus
Research groups at the University of Helsinki uncovered how motor protein myosin, which is responsible for contraction of skeletal muscles, functions also in non-muscle cells to build contractile structures at the inner face of the cell membrane.
This is the first time when such mini-muscles , also known as stress fibers, have been seen to emerge spontaneously through myosin-driven reorganization of the pre-existing actin filament network in cells. Defects in the assembly of these mini-muscles in cells lead to multiple disorders in humans, and in the most severe cases to cancer progression. ....

Eteläuomen Läi , Jaakko Lehtimaki , Pekka Lappalainen , Emily Henderson , Hilife Institute Of Biotechnology , University Of Helsinki , Academy Professor Pekka Lappalainen , Docent Sari Tojkander , Veterinary Medicine , Cell Membrane , Super Resolution Microscopy , எமிலி ஹென்டர்சன் , பல்கலைக்கழகம் ஆஃப் ஹெல்சின்கி , கால்நடை மருந்து , செல் சவ்வு , மன அழுத்தம் , அருமை தீர்மானம் நுண்ணோக்கி ,

Fluorescence microscopy at highest spatial and temporal resolution

Fluorescence microscopy at highest spatial and temporal resolution
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Buenos Aires , Distrito Federal , Fernando Stefani Buenos Aires , Philip Tinnefeld , Alexander Von Humboldt Foundation , Technological Research , National Agency For The Promotion Of Research , University Of Buenos Aires , Council For Scientific , Technological Development , German Research Foundation Cluster Of Excellence , Nobel Prize , Professor Philip Tinnefeld , Professor Fernando Stefani , German Research Foundation , National Agency , Georg Forster Prize , Humboldt Foundation , Fluorescence Microscopy , Super Resolution Microscopy , புஏனோஸ் ஐரிஸ் , திஸ்திரிதோ கூட்டாட்சியின் , பெர்னாண்டோ ஸ்தேபனி புஏனோஸ் ஐரிஸ் , அலெக்சாண்டர் வான் ஹம்போல்ட் அடித்தளம் , தொழில்நுட்ப ஆராய்ச்சி , பல்கலைக்கழகம் ஆஃப் புஏனோஸ் ஐரிஸ் ,