Currently viewing the category: "molecular biology"

Gamers Solve Protein Structure Puzzle

By On · Add Comment · In amino acids, computer, drug resistant HIV, enzymes, Foldit, gaming, molecular biology, protein structure, retrovirus

Here goes an exciting story, a symbiosis of human mind and computer, to solve a decade-long problem in the molecular structure of a key enzyme in an AIDS-like virus.  The feat was carried out by gamers playing an online game called Foldit, where groups compete to unfold chains of amino acids–the building blocks of proteins–using a set of online tools.  It is believed that this is the first time gamers have resolved a long-standing scientific problem.

Online gamers cracked the structural code of a retroviral monomeric protease enzyme, a cutting agent in the complex molecular tailoring of retroviruses, a family that includes HIV.  The game is a 3-D picture that “unfolds” the molecule and rotates it in order to reveal potential targets for drugs.  Looking at proteins through a microscope provides only a flat image of what looks like (to the untrained eye) a plate of one-dimensional scrunched-up spaghetti.

Understanding protein structure is important in understanding enzymatic function, substrate and environment to lead to strategies for combating viruses and other microorganisms.   Pharmacologists use structural information to devise drugs.

Foldit was developed in 2008 by the University of Washington.  “We wanted to see if human intuition could succeed where automated methods had failed,” Firas Khatib of the university’s biochemistry lab said in a press release.

“The ingenuity of game players is a formidable force that, if properly directed, can be used to solve a wide range of scientific problems.”
One of Foldit’s creators, Seth Cooper, explained why gamers had succeeded where computers had failed.
“People have spatial reasoning skills, something computers are not yet good at.  Games provide a framework for bringing together the strengths of computers and humans,” he said.
I love this latest breakthrough, not just because I am a molecular biologist by training, but because I am certain that man and computer will continue to evolve together in greater hybridization to the benefit of both in the near future.  This is simply one example of what will be accomplished from that symbiosis.  Bravo to online gamers!  And this should be food for thought to those that think video gaming is useless.  As I’ve contended repeatedly in this blog, all human interests have value, and we never know how our underappreciated skills will serve humanity in the future.

A Future Cure For Cancer?

By On · Add Comment · In bacteria, bacteriophage, bioengineering, biotech, cancer, cancer cells, eradicate, genetically engineered, gentic material, herpes virus, living, molecular biology, treatments, virus
A German Biotech company is working on a genetically engineered herpes virus to combat and kill cancer cells. Apparently, the modified virus leaves healthy tissue alone, making it a promising tool in the fight against cancer.
This concept may seem weird to many unfamiliar with principles of molecular biology, but it is, in fact, possible, theoretically speaking. Viruses attack cells and other cellular organisms, like bacteria (called bacteriophages). Viruses are small packets of gentic material surrounded by a protien covering. Whether or not they can be considered living material is still being debated by modern science, but either way viruses are an enormous part of life on this planet.
Through bioengineering techniques, viruses can be manipulated to attack certain cells, so these recent finding a very important indeed. We may be getting a glimpse of the future with regard to cancer treatments – and other medical treatments in general. I think it’s exciting anyway. I’ve been saying for quite some time now that it’s futile to try to eradicate certain organisms, particularly microorganisms, from this planet. They wouldn’t exist if they had no purpose – so why try to play Zeus and remove them? In other words, if you can’t beat ’em, find a use for them, and manipulate them. Isn’t that what we humans are best at, anyway?
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