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Toward a 3D Search Engine
Plasma Droid writes "NewScientistTech has a story about a 3D molecular search engine that is over 1,500 times faster than anything previously developed. The researchers, from Oxford University, developed a lightning-fast way to quickly match 3D shapes mathematically. This could not only speed up searches for new drugs, but lead to 3D search engines, for finding objects uploaded to platforms such as Google Earth, they say." The problem will be in jump-starting the supply of 3D data about molecules and everything else.
Boobies, extra large please.
liqbase
It's pretty easy to geometrically hash or construct reduced feature vectors for matching. People (like me) have been doing this for years. It's much harder to know if a molecule will fit into a crevice or negative space. THe latter is probably more important to drug design. the reduced feature vectors let you know quickly if two molecules are simmmilar in shape. Which is the title given to the article. But then this is discussed in the context of drug targets. A harder problem. What maybe new or clever here is that they found a very useful set of feature vectors.
Some drink at the fountain of knowledge. Others just gargle.
Hot molecule on molecule action! See uncensored carbon bonding!
"Have you ever thought about just turning off the TV, sitting down with your kids, and hitting them?"
This is a really cool advance when working with molecules you already know the shape of, but it still doesn't get around the problem of what shape a molecule is in the first place. A protein molecule will naturally collapse into the shape with the lowest energy. If there are 100 atoms in the main chain, that's 99 different angles that it could have, that's 99 degrees of freedom. I hear that genetic algorithms are pretty good at finding the most lightly shape though, so this may not be as big a problem as it used to be.