Posted on 03/29/2006 1:47:22 PM PST by SampleMan
Spirals of DNA, once thought to be merely the passive memory banks that preserve lifes blueprints, may also actively modify themselves under certain conditions, according to Princeton University scientists.
A team of molecular biologists has found that some single strands of DNA are capable of removing a genetic building block from the spiral, a task previously thought to be impossible without the involvement of a separate catalyst such as RNA or proteins. Such removal, called depurination, occurs only at a single point within a particular genetic sequence, one that appears at least 50,000 times in the human genome. The teams discovery that the removal occurs consistently in laboratory samples indicates that DNA is a more dynamic substance than was previously thought, and it raises the possibility that other unexpected behaviors still await discovery in this well-studied molecule.
No one ever dreamed genomic DNA may have another function besides memory storage, but it apparently does, said Jacques Fresco, the Damon B. Pfeiffer Professor in the Life Sciences at Princeton. We dont really know yet why or how it happens, but it makes us wonder what else DNA might be doing without our knowledge.
Dr. Ann Skalka, senior vice president for basic science at the Fox Chase Cancer Center in Philadelphia, said the findings merit continued attention.
This fascinating and unanticipated new property of DNA has the potential to cause substantial damage to our cells, leading to cancer or other diseases, unless it is controlled or exploited for some beneficial purpose, she said. We will stay tuned.
Frescos team published its findings in the March 21 issue of the journal, Proceedings of the National Academy of Sciences. Also contributing to the research are Princeton researcher Olga A. Amosova and Richard Coulter, currently at West Chester University.
The double-stranded helical structure of DNA is a shape familiar to many, and these long, stringy molecules are in most circumstances unchanging and highly stable -- valuable characteristics for objects whose function is to preserve the master plan of the organism that carries them. Altering the sequence of a DNA strand is often necessary for innumerable bodily functions, such as growth and healing, but scientists previously thought that such alterations require other chemical catalysts or enzymes to do the clipping and rearranging.
When DNA does undergo such changes, its two strands sometimes separate from one another like a broken zipper splitting down the middle, the teeth of one side pulling away from the other. But in some cases, each side will then often bunch up so its teeth can latch on to others from the same side, forming small loops of a single-stranded DNA that extend out from the side of the double-stranded helixs stem.
For genes to express themselves and create change within the body, you absolutely have to get the two strands of DNA apart first, and its only through separation that DNA forms these stem-loops, said Amosova, a research molecular biologist and Frescos long time collaborator. Such separation occurs, for example, when genes are doing something to regulate the body.
But the team found that if a stem-loop forms from a particular sequence of DNA, one of the genetic teeth will fall spontaneously from that side of the zipper, and the weakened strand will eventually break apart in that spot unless it is repaired by enzymes in the cell. Fresco said this sort of activity seems akin to self-mutilation at first glance.
To a scientist, this kind of self-inflicted genetic damage appears unhealthy, the sort of thing that would cause undesirable mutations and could kill off the organism, Fresco said. Cells have evolved a complex DNA repair system to constantly repair such damage. But evolution has not, as wed expect, put a stop to it. So we theorize it must be happening for some good reason that we have yet to uncover.
Of the more than 3 billion DNA building blocks in the human genome, the 18-residue sequence that gives rise to the cleavage occurs in about 50,000 places -- a very significant number, Fresco said.
We can only speculate now as to what aspects of biology this self-cleavage could influence, but the general function of stem-loops combined with the number of sites where depurination can occur does make us curious enough to look further, Amosova said. Such a self-depurination capability may, for example, be beneficial in sections of the genome involved in antibody production, where losing a building block from the sequence could lead to higher mutation rates in the antibody-coding genes. This, in turn, could lead to a larger variety of antibodies to protect the body more effectively.
More generally, Amosova said, losing a building block increases the flexibility of the otherwise highly rigid DNA molecule, which in some circumstances needs to be bent.
Flexibility could help with DNA packaging, which happens any time you need to stuff DNA into a tight place, she said. In particular, viruses typically pack a lot of DNA strands into their shells, leaving virtually no space unused. It may also play a role in the folding of DNA in chromosomes.
Still, Fresco said, it remains too early to tell where the discovery will lead, though the team will look for some possible biological role for their finding.
Thus far we have observed this effect under laboratory conditions that closely resemble those within the cell. Now, we would like to observe them directly in the cell nucleus, he said. If we have indeed found one way that DNA can change itself spontaneously, there might be others, and we plan to hunt for them.
Additionally, I might mention that this discovery was made while we were exploring ways to repair the genetic mutation that causes sickle cell anemia, Fresco said. We noticed that the depurination occurs right next to the site of the mutation responsible for the disease, but we dont yet know if theres any relation between these two facts. We certainly hope weve noticed an effect that will eventually offer some new approaches to many diseases.
LOLOL!
"Hey. Is that a joke?
Do I look like I'm laughing?
Life is serious.
Can we talk a bit?
Hey, don't push. Can I leave you
some literature . . ."
Very curious. Thanks for the ping.
What an irresponsible thing to say. Your B.S. theory on how science works and how scientists work is just plain wrong. Science is properly set up so that no scientific theory is absolute unlike your absolute belief that Genesis is absolutely correct no matter what.
A vast range of scientific Information to the contrary, courtesy Ichneumon
Molecular evolution of an arsenate detoxification pathway by DNA shuffling
The evolutionary origin of complex features
Bacterial evolution and the cost of antibiotic resistance
Mild environmental stress elicits mutations affecting fitness in Chlamydomonas
The emergence and maintenance of diversity: insights from experimental bacterial populations
Pleiotropic effects of beneficial mutations in Escherichia coli
The Rate of Compensatory Mutation in the DNA Bacteriophage X174
Evolution and Information: The Nylon Bug
Spontaneous mutations in diploid Saccharomyces cerevisiae: more beneficial than expected
Examples of Beneficial Mutations and Natural Selection
Spontaneous mutations in diploid Saccharomyces cerevisiae: more beneficial than expected
Evolution and Information: The Nylon Bug
Punctuated evolution caused by selection of rare beneficial mutations.
PLEIOTROPIC EFFECTS OF BENEFICIAL MUTATIONS IN ESCHERICHIA COLI
The Distribution of Fitness Effects Among Beneficial Mutations
Incidentally, there is no law that says the entropy of DNA can't decrease through time.
True, of course. But perhaps it would be better if you paid no attention to the flaming troll...
Sounds like a pessimistic democrat..The glass is half empty.
I prefer to be optimistic that this may be the key to the evolution of species whether under the direction and control of a higher being, or not....as you prefer to believe.
Could you point us to a list of those who claim we know everything? Thanks
Great post. Thank you. Let the debate begin again.
Let me guess, "Nothing beats a great pair...of L'Eggs!"
Cheers!
Reminds me of how often the crevo threads themselves "unwind" over time ;-)
(Heads for exit, running for cover...)
Cheers!
There's a list? Its worse than I thought.
Must be a "bug" in my coding. : )
I can point you to a leading Korean scientist that's good at cloning, or perhaps you're interested in claims of cold fusion?
Gosh, you got me. I don't have a quote of a "leading scientist" saying, "I declare that there is nothing more to learn about evolution." However, finding a lot of quotes that say the equivilent of, "What total nonsense, shut up" isn't that difficult. I believe that's pretty much been the line on contrary scientific thought since about 50 A.D.
So you just made it up, the part about science claiming to know everything.
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