A biochemical circuit built from 74 small DNA molecules demonstrates an approach that may enable embedded control of molecular devices.
The interactions of xenon atoms with a nanoelectromechanical system have now been measured to characterize the statistical noise caused by atomic fluctuations.
We are proud to announce our final conference program for Foresight@Google‘s 25th Anniversary Conference Celebration, held June 25-26 in Mountain View, CA. For $50 off registration use code: NANODOT This weekend – full of plenary talks, panels, and breakout sessions – is a unique opportunity to be stimulated, enlightened and inspired by direct interaction with… Continue reading Foresight@Google: Full Program of Speakers posted!
A Monte-Carlo simulation shows that a simple self-replicating RNA-like molecule in a specific protective environment could evolve the ability to translate a genetic code to produce peptides.
Midnight tonight Pacific time is the deadline for the early registration rate on Foresight@Google, our 25th Anniversary Conference and Celebration. Check it out here: https://foresight.org/reunion Past participants have said: “This is mind candy for my soul. Having attended for two years now, this event stands alone in my mind as an opportunity to explore new horizons,… Continue reading TODAY is the last day for early rate on Foresight@Google
New software for scaffolded DNA origami makes it easier to predict what shape will result from a given DNA template.
Combined computational and experimental study shows molecules walking, hopping and flying across a surface; may lead to controlling molecular motion.
MIT scientists have devised much more efficient procedures for modeling protein folding in order to be able to model the folding of the flood of proteins sequences made available by modern genome sequencing methods.
A step toward advanced nanotechnology has been achieved by using attachment to a surface and confinement by surrounding molecules to make two molecules react to form a product that would not form if they were free to react in solution.
Computational work links optically-induced molecular shape change to change in DNA structure to extract useful work.
