Arab13 Art Vandelay 45180 Posts user info edit post |
Quote : | "The Gene that Makes Us Human?
Scientists have identified a gene that just might be the key to the unique evolution of the human brain.
A small section of DNA that has rapidly evolved in humans could play a key role in the development and evolution of the human brain, according to research published online yesterday in the journal Nature. Although scientists don't yet know exactly how the gene functions in the brain, they do know that the sequence is entirely unique to humans and is expressed in the cortex -- which is responsible for complex thought -- during a key stage of brain development.
"This is a very exciting finding," says Bruce Lahn, a geneticist who studies brain evolution at the University of Chicago. "It brings us one step closer to the overall goal of understanding human brain evolution at the level of genes."
Sometime in the last five to seven million years, when humans and chimpanzees split from each other on the evolutionary tree, our brains became three times bigger than those of our closest primate relatives. That impressive growth was largely due to expansion in the cerebral cortex, the outer layer of the brain responsible for reasoning and other types of complex thought. Since the sequences of the human and other animal genomes have become available for study, scientists have been scouring reams of DNA for genetic clues to our brains' unique growth spurt -- and to the biological changes that make us uniquely human.
In the new paper, researchers at the University of California, Santa Cruz compared the human genome to the genomes of chimps, dogs, rats, mice, and chickens, searching for genetic sequences that were highly conserved during evolution and therefore functionally important. They then looked for sequences within those conserved regions that had changed rapidly in humans, indicating that those changes were important for human's unique evolution.
The researchers identified several rapidly evolving chunks of DNA, but the fastest piece by far was a small chain of DNA that's part of a gene expressed in the hippocampus, which is involved in learning and memory. According to the findings, the sequence was very similar in chickens and chimps, with only two changes to the genetic code; but it had changed remarkably in human DNA, showing 18 genetic differences from the version in chimps.
"That really confirmed that this [sequence] is specific to the human lineage," says David Haussler, a genomics expert at UCSC who led the work. "We also sequenced human DNA from different people around the world -- everyone seems to have these same 18 variations."
The researchers then discovered that the gene, known as HAR1F, has some even more enticing properties: it is expressed in a particular set of cells in the human brain between 9 and 19 weeks of gestation -- when the cortex is undergoing a rapid period of development. "It's essentially the initial phase of the development of the cortex, the thinking part of the brain," says Haussler. "That's the part of our brain that's gotten so much bigger during the last few million years of evolution."
Since scientists don't yet know the function of the gene, it's difficult to predict its role in brain development or human evolution. "Finding these rapidly evolving genes is a starting point to understanding human genetic evolution," says Lahn, "but it doesn't tell us how changes in the genetic sequence lead to changes in human biology."
Indeed, HAR1F is rather mysterious. It codes only for an RNA, while most genes ultimately code for a protein. While other RNA coding genes have been identified -- RNA genes sometimes have a regulatory function, altering production of a protein -- this sequence resembles none of the known RNA genes. "The gene seems to be a gene in its own universe," says Lahn.
The gene is also distinct from previously identified genes that might play a role in brain evolution. Last year, Lahn's group identified two brain genes as being under recent evolutionary pressure. Unlike HAR1F, these genes have a known function -- they're both involved in control of brain size. In addition, different variations of these genes are found in different regions of the world, while everyone tested so far seems to carry the same 18 variations in the rapidly evolving chunk of HAR1F.
Haussler's group was able to identify the novel piece of DNA because of their unique approach to genome analysis. Previous studies focused on the coding regions of the genome: the section of DNA that directs the production of proteins. Haussler's group, on the other hand, did a genome-wide search for rapidly evolving sequences within the conserved regions of DNA. "Their method seems to be a very elegant way of picking up the potential regulatory elements that acquired unique functions in the human lineage," says Ganeshwaran Mochida, a neuroscientist and geneticist at Harvard Medical School in Boston.
However, some scientists are skeptical that the piece of DNA will turn out to be the key to human brain evolution. "It is a bit hard to fathom how a 118 base pair piece of RNA could have been so stone-cold evolutionarily, with two changes in the last 318 million years, then undergo 18 successive independent substitutions in the human lineage since the split with chimpanzee," says Andrew Clark, a population geneticist at Cornell University in Ithaca, NY. He suggests the recent changes may be the product of an unusual and not-yet-understood mutational process, rather than of evolutionary pressure. And he adds that no proof yet exists for either possibility. "In any event, the work serves as strong motivation to understand the biological function of this gene, and that has always been the excitement of this kind of work," he says.
Haussler and collaborators are now trying to figure out what role HAR1F plays during brain development. Among other experiments, they plan to create a mouse that expresses the human form of the gene. "We don't know if the mouse will start writing Shakespeare," says Haussler. "It's unlikely to function like a human gene because it's being expressed in the mouse cortex with other mouse genes, but it's something to try."
Haussler predicts the findings will spark a wave of research into the role of HAR1F. For example, he hopes that scientists who study the genetics of schizophrenia and other disorders will search their patient populations for mutations in the gene, which might shed light on its role in brain development and cognitive function. " |
very interesting, basically they found a small bit of dna that all humans have (just about exactly the same between all humans too) that is unique to humans that functions in brain development (cortex) AND has evidence of rapidly evolving...8/17/2006 9:58:08 AM |
stategrad100 All American 6606 Posts user info edit post |
Great, now let's splice it and put it in monkey DNA and see what happens.
8/17/2006 10:04:09 AM |
Lokken All American 13361 Posts user info edit post |
and now
they are going to stick it in a mouse 8/17/2006 10:04:31 AM |
stategrad100 All American 6606 Posts user info edit post |
or a tobacco plant 8/17/2006 10:05:09 AM |
Excoriator Suspended 10214 Posts user info edit post |
freakin awesome - i can't wait to communicate with intelligent tobacco plants 8/17/2006 10:12:01 AM |
Perlith All American 7620 Posts user info edit post |
link plz 8/17/2006 10:12:52 AM |
Arab13 Art Vandelay 45180 Posts user info edit post |
http://www.technologyreview.com/read_article.aspx?id=17321&ch=biotech 8/17/2006 10:23:15 AM |
Donogh5 All American 971 Posts user info edit post |
so that's the gene that God intelligently designed into us 8/17/2006 11:33:33 AM |
Lokken All American 13361 Posts user info edit post |
Except that apparently he left off the intelligence part of yours.
[Edited on August 17, 2006 at 11:36 AM. Reason : of != off] 8/17/2006 11:34:51 AM |
miska All American 22242 Posts user info edit post |
aha 8/17/2006 11:35:36 AM |
Donogh5 All American 971 Posts user info edit post |
^^ yeah, 'cause i was clearly being serious
i'll accept your apology as long as you accept the flying spaghetti monster as your one true saviour
[Edited on August 17, 2006 at 12:18 PM. Reason : -] 8/17/2006 12:16:05 PM |
TheCapricorn All American 1065 Posts user info edit post |
8/17/2006 12:30:58 PM |
Fermat All American 47007 Posts user info edit post |
Innteresting 8/17/2006 1:17:36 PM |
Pyro Suspended 4836 Posts user info edit post |
It took more than a single gene. For instance, the MYH16 mutation about 2 1/2 million years ago resulted in smaller jaws with less associated muscles, leaving more room for brain development.
By contrast, it's thought that the ASPM gene, which also affects the size of the brain arose more or less 6,000 years ago, coinciding neatly with the dawn of civilizations.
In between, countless other minute mutations like the one mentioned above paved the way for us to become the dominant species on the planet.(In fact the process continues to this day...) To point to any single gene as the one that magically turns us into humans is both overly sensational and foolish. 8/17/2006 10:09:30 PM |
ssjamind All American 30102 Posts user info edit post |
^ what he said 8/18/2006 12:27:20 PM |
stategrad100 All American 6606 Posts user info edit post |
^ ^ I am gonna throw the plagiarism flag on that one.
You gotta cite your genetics professors' powerpoints in all forms of media. 8/18/2006 12:45:08 PM |
AndyMac All American 31922 Posts user info edit post |
You know what this means right?
8/18/2006 1:04:43 PM |
Pyro Suspended 4836 Posts user info edit post |
Plagiarism? I've never even taken genetics, or intro biology for that matter.
I learned everything I know from Trivial Pursuit. 8/18/2006 6:29:59 PM |
Donogh5 All American 971 Posts user info edit post |
but surely genetics is no trivial pursuit 8/19/2006 9:04:50 AM |
SSJ4SonGokou All American 1871 Posts user info edit post |
I see what you did there.
[Edited on August 19, 2006 at 12:48 PM. Reason : ^^then cite trivial pursuit ]
[Edited on August 19, 2006 at 12:48 PM. Reason : .] 8/19/2006 12:48:03 PM |
firmbuttgntl Suspended 11931 Posts user info edit post |
I heard they were doing this thing with the mice sequence HAR1F a long time ago. You mean they're not developed, yet? Err, were not developed yet, whatever the fuck they come out to be. 8/19/2006 2:11:07 PM |