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How a DNA 3D printer could revolutionize nanochip design, enabling optical computing, cheaper microchips, and eco-friendly fabrication.
High-resolution cryo-electron microscopy makes it possible to study complex enzymatic processes in detail. With this method, a research team of the University of Potsdam and Humboldt-Universität ...
Columbia University engineers 3D print self-assembling DNA - using biomolecular code to produce nanoscale devices at scale.
In a joint initiative between the Universities of Geneva, Lausanne and Bern, and the EPFL the Dubochet Center for Imaging ...
When the Empire State Building was constructed, its 102 stories rose above midtown one piece at a time, with each individual element combining to become, for 40 years, the world's tallest building.
Since the discovery of the electron microscope and the development of the initial techniques for the processing of biological samples for electron microscopy, the protozoan Trypanosoma cruzi has been ...
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AZoLifeSciences on MSNGenetically Modified Yeast Turns Urine into Bone MaterialResearchers at Lawrence Berkeley National Laboratory, UC Irvine, and the University of Illinois Urbana-Champaign (UIUC) have developed a method to convert human urine into a usable material. They ...
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AZoLifeSciences on MSNHow Does DNA Unwind? Study Explores Helicase Mechanisms In DNA ReplicationThis study reveals how SV40 helicase unwinds DNA, highlighting ATP hydrolysis's role in translocation and offering insights ...
Cryo-electron microscopy reveals hidden mechanics of DNA replication, sheds new light on cancer target Date: March 10, 2025 Source: Memorial Sloan Kettering Cancer Center Summary: Researchers shed ...
Using cryo-electron microscopy (cryo-EM), a team of structural and molecular biologists at Memorial Sloan Kettering Cancer Center (MSK) set out to investigate G4s — which have gained attention as ...
Specialized magnetic beads that bind target proteins to a cryogenic electron microscopy grid make it possible to study the structure of protein complexes from dilute samples.
Next, what’s known as an optical gating pulse initiates, allowing an infinitesimal timeframe for a one-attosecond electron pulse to then emit from the microscope.
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