Awesome! :w00t:
http://www.nytimes.com/2014/05/08/business/researchers-report-breakthrough-in-creating-artificial-genetic-code.html?hp&_r=2
QuoteScientists Add Letters to DNA's Alphabet, Raising Hope and Fear
By ANDREW POLLACKMAY 7, 2014
Scientists reported Wednesday that they had taken a significant step toward altering the fundamental alphabet of life — creating an organism with an expanded artificial genetic code in its DNA.
The accomplishment might eventually lead to organisms that can make medicines or industrial products that cells with only the natural genetic code cannot.
The scientists behind the work at the Scripps Research Institute have already formed a company to try to use the technique to develop new antibiotics, vaccines and other products, though a lot more work needs to be done before this is practical.
The work also gives some support to the concept that life can exist elsewhere in the universe using genetics different from those on Earth.
"This is the first time that you have had a living cell manage an alien genetic alphabet," said Steven A. Benner, a researcher in the field at the Foundation for Applied Molecular Evolution in Gainesville, Fla., who was not involved in the new work.
But the research, published online by the journal Nature, is bound to raise safety concerns and questions about whether humans are playing God. The new paper could intensify calls for greater regulation of the budding field known as synthetic biology, which involves the creation of biological systems intended for specific purposes.
"The arrival of this unprecedented 'alien' life form could in time have far-reaching ethical, legal and regulatory implications," Jim Thomas of the ETC Group, a Canadian advocacy organization, said in an email. "While synthetic biologists invent new ways to monkey with the fundamentals of life, governments haven't even been able to cobble together the basics of oversight, assessment or regulation for this surging field."
Despite the great diversity of life on Earth, all species, from simple bacteria to human beings, use the same genetic code. It consists of four chemical units in DNA, sometimes called nucleotides or bases, that are usually represented by the letters A, C, G and T. The sequence of these chemical units determines what proteins the cell makes. Those proteins in turn do most of the work in cells and are required for the structure, function and regulation of the body's tissues and organs.
The Scripps researchers chemically created two new nucleotides, which they called X and Y. They inserted an X-Y pair into the common bacterium E. coli. The bacteria were able to reproduce normally, though a bit more slowly than usual, replicating the X and Y along with the natural nucleotides.
In effect, the bacteria have a genetic code of six letters rather than four, perhaps allowing them to make novel proteins that could function in a completely different way from those created naturally.
"If you have a language that has a certain number of letters, you want to add letters so you can write more words and tell more stories," said Floyd E. Romesberg, a chemist at Scripps who led the work.
Dr. Romesberg dismissed concern that novel organisms would run amok and cause harm, saying the technique was safe because the synthetic nucleotides were fed to the bacteria. Should the bacteria escape into the environment or enter someone's body, they would not be able to obtain the needed synthetic material and would either die or revert to using only natural DNA.
"This could never infect something," he said. That is one reason the company he co-founded, Synthorx, is looking at using the technique to grow viruses or bacteria to be used as live vaccines. Once in the bloodstream, they would conceivably induce an immune response but not be able to reproduce.
One possible use of an expanded genetic alphabet is to allow cells to make new types of proteins.
Combinations of three nucleotides in DNA specify particular amino acids, which are strung together to make proteins. The cell, following those instructions, strings amino acids together to form proteins. With rare exceptions, living things use only 20 amino acids.
But there are many amino acids that could possibly be used in proteins, potentially adding new functions. Ambrx, a San Diego company that has filed to go public, is incorporating novel amino acids into certain proteins that are used as drugs in an effort to make the drugs more potent in killing tumors or make treatments last longer in the bloodstream.
Proteins with novel amino acids might also be better tracked to research how cells work, or isolated for use in diagnostic testing.
Work on artificial DNA has been underway for more than 20 years. Man-made nucleotides have functioned in test tubes and are even used in some diagnostic tests.
But until now it has not been possible to get them to function in a living cell. Dr. Romesberg said he and his colleagues created 300 variants before coming up with nucleotides that would be stable enough and would be replicated as easily as the natural ones when the cells divide. The X nucleotide pairs with Y, just as A pairs with T and C pairs with G, allowing the DNA to be accurately replicated.
The bacteria described in the Nature article each contained only a single X-Y pair. It is not yet known whether a cell would function if it contained many such pairs. It is also not clear how long the bacteria would survive and retain the foreign code. The article mentions growing them for only about 24 replications over 15 hours.
Most important, the researchers have not yet demonstrated that the artificial nucleotides can actually be used by the cell to make proteins. That will require more genetic engineering of the bacteria, though work by others has suggested how it might be done.
Dr. Benner in Florida is trying to engineer cells genetically so they can make their own nonnatural nucleotides. That would allow the cells to survive on their own and be more useful, he said.
But Dr. Romesberg and colleagues took a shortcut of sorts. Chloroplasts in plants have the ability to import nucleotides from the surrounding tissue, and other researchers have figured out what genes are responsible for this. The Scripps researchers spliced an algae gene into E. coli, giving the bacteria the ability to take up the X and Y nucleotides from the medium in which they grew.
"It took some clever problem-solving to get where they got," said Eric T. Kool, a professor of chemistry at Stanford who is also doing research in the area. "It is clear that the day is coming that we'll have stably replicating unnatural genetic structures."
Besides any possible practical applications, the research into the field, which is sometimes called xenobiology, could shed light on why living things evolved to have four nucleotides. It could be that four is the most efficient number, in which case organisms with expanded genetic codes might not function very well.
It was the best of Tims, it was the worst of Tims.
Really? One response!
ONE RESPONSE MEGATHREAD
Quote from: jimmy olsen on May 10, 2014, 08:30:18 AM
Really? One response!
I'll spam more next time, Tim. :rolleyes:
I do like the bit in the article where the scientist says that nothing could go wrong.
Monstrous.
Riefenstahl tinged
Quote from: garbon on May 10, 2014, 08:45:10 AM
I do like the bit in the article where the scientist says that nothing could go wrong.
I'm pretty sure that if, rather than that, they had said "this opens up for the creation of a master race of fire-breathing insectoids with super strength" that would have worried the layman less.
Quote from: jimmy olsen on May 10, 2014, 08:30:18 AM
Really? One response!
Maybe you should lead the direction of the discussion with your initial post. "Awesome!" doesn't do this. If you don't have anything substantial to say about the article, why expect that we do? :hmm:
Will these new DNA letters give us eternal life and infinite wisdom?
I wonder if they actually do anything, or if cells just ignore the codes with the new nucleotides as if they were none functional.
Quote from: Valmy on May 10, 2014, 11:37:30 AM
Will these new DNA letters give us eternal life and infinite wisdom?
Eternal life can be granted by blood transfusions from the young. Wisdom is a lost cause.
Okay Fate, you are the resident butcher. What does this story really mean?
Quote from: Razgovory on May 10, 2014, 04:11:13 PM
I wonder if they actually do anything, or if cells just ignore the codes with the new nucleotides as if they were none functional.
The article I read said they could get new proteins from them.
Quote from: Razgovory on May 10, 2014, 04:11:13 PM
I wonder if they actually do anything, or if cells just ignore the codes with the new nucleotides as if they were none functional.
without RNA that can read the new alphabet it can't make new proteins, so as far as I know these do nothing. Just extra letters (like Ide's movie reviews, ba ra bump :P )
For some reason I think of DNA as binary code. Adding in new stuff would be like adding in a "2" every once in a while.
Can they make Grumbler tall :hmm:
I didn't know he was short. :huh:
Quote from: jimmy olsen on May 14, 2014, 01:47:29 AM
I didn't know he was short. :huh:
More people would call me tall than would call cRazy cAnuck smart. :lol:
Just let him run with this "tall" thing. It keeps him out of mischief and doesn't disturb the adults.
Quote from: jimmy olsen on May 14, 2014, 01:47:29 AM
I didn't know he was short. :huh:
Add this to the list of things you didnt know.
Quote from: grumbler on May 14, 2014, 06:19:05 AM
Quote from: jimmy olsen on May 14, 2014, 01:47:29 AM
I didn't know he was short. :huh:
More people would call me tall than would call cRazy cAnuck smart. :lol:
Thats a lot of really short people where you are Grumbles.
I am quite certain 6' 3" is considered tall in Vancouver.