Not exact matches
DNA is transcribed into messenger RNA (mRNA) that carries the code to ribosomes, the
molecular machines that
build proteins by reading the mRNA instructions.
According to the map's creator, Paul Rothemund at Caltech in Pasadena, US, DNA origami could prove hugely important for
building future nano - devices including
molecular machines and quantum computer components.
A
machine in University of Illinois chemistry professor Martin Burke's lab assembles complex small molecules out of simple chemical
building blocks, like a 3 - D printer on the
molecular level.
Chemists at the University of Illinois, led by chemistry professor and medical doctor Martin D. Burke,
built the
machine to assemble complex small molecules at the click of a mouse, like a 3 - D printer at the
molecular level.
I have programmed computers since the first TRS - 80s came out in the late 1970s, and I thought it would be wonderful if I could
build complex
molecular machines as easily as I could write software.
STANDING OUT Scientists used to think that ribosomes,
molecular machines that
build proteins, are identical and interchangeable.
Like any cell, it's a highly complex assembly of many molecules, a
machine built from
molecular parts.
The 2016 Nobel Prize in chemistry honors three pioneers in this field who have designed and
built some of the first
molecular machines (see Fig. 1A).
This
machine learning technique
builds a model that encodes the information contained in the database, and in turn this model can predict the outcome of the
molecular self - assembly process with high accuracy.
Molecular manufacturing is the name given to the proposal that molecular machine systems will eventually be able to manufacture most objects, including large objects, from the molecule up, building complex products with atomic p
Molecular manufacturing is the name given to the proposal that
molecular machine systems will eventually be able to manufacture most objects, including large objects, from the molecule up, building complex products with atomic p
molecular machine systems will eventually be able to manufacture most objects, including large objects, from the molecule up,
building complex products with atomic precision.
Our cells use genes as recipes to
build proteins — little
molecular machines that do useful stuff in cells.
The proposal that advanced nanotechnology will include artificial
molecular machine systems capable of
building complex systems to atomic precision has been controversial within the scientific community.
We must first focus our efforts on developing two things: the tools with which to
build the first
molecular machines, and the blueprints of what we are to
build.
In light of the results of synthetic organic chemistry and the ability of
molecular machines to make reactions site specific, it seems difficult to maintain that nonprotein
machine components can not be
built and assembled.
Self - assembling, self - replicating, and self - repairing, biology
builds renewably — from the
molecular machines inside of cells to global ecosystems.