New Class of Genes Discovered 106
HarryGenes writes "Reuters is reporting that Scientists Find New Type of Gene in Junk DNA. The research from Harvard Medical School describes a discovery in the Yeast Genome of a new class of gene that regulates the neighboring gene through the production of its RNA product. This has much broader implications than the article lets on to. Assuming these same type of genes exist in Humans and other organisms, the whole science behind gene expression and gene mapping will be changed dramatically. This type of mechanism can explain a lot of the 'unexplainable'. This is really exciting. I have been working in gene mapping for years and always felt that the 'junk' was there for a reason."
The more you know....... (Score:3, Interesting)
And yet there are people prepared to unleash modified genes on the world saying that they **know** there is no risk.
Re:The more you know....... (Score:3, Interesting)
As
Who would have thought that evolution would be developing it's own roundup resistance [cropchoice.com]. Damn that Charles Darwin.
Maybe the Monsanto executives are creationists.
We are not breeding tougher species (Score:2)
What this means is that if you throw enough nasty chemicals at the weeds, you will eventually wind up with weeds whic
Re:We are not breeding tougher species (Score:3, Insightful)
Who said anything about new species? It used to be that very few weeds were roundup resistant. Now that the roundup susceptible weeds are dead, there are more roundup resistant weeds.
What the hell are you talking about?
Re:We are not breeding tougher species (Score:2)
You originally said...
It's not developing roundup resistance. The roundup resistance was there before the roundup.
Developing roundup resistance would imply a feature which was not previously there.
Such a feature would in many circumstances be enough to differentiate a species. The touchstone there used to be interbreeding ability, but since many beasties long regarded as sepa
Re:We are not breeding tougher species (Score:2)
Then they'd already be different species, wouldn't they?
Whatever.
Re:We are not breeding tougher species (Score:2)
Re:We are not breeding tougher species (Score:1)
ie. the only way that WeedV2 woudl be a differnt spices is if you cant cross it back with WeedV1.
Re:We are not breeding tougher species (Score:2)
For a moment... (Score:2)
-Cyc
Re:The more you know....... (Score:5, Insightful)
And yet there are people prepared to unleash modified genes on the world saying that they **know** there is no risk.
Every time somebody has a child they "unleash modified genes on the world". When people say that there is no risk, they mean there's no risk above and beyond normal behaviour.
context. (Score:2, Informative)
Many food producing species have been crossed with outside species (usually closely related, but not always). Crossing with outside species introduces a host of unknown factors, combining genes in a totally unique, unpredictable way. However, this was never a matter of heated public debate. Now if you want to add a single gene culled fro
Re:The more you know....... (Score:1, Insightful)
When someone has a child in the traditional way, they are unleashing the result of a cross between a human and a human on the world. Several million years of history have shown that the risks involved are relatively low.
When someone splices a jellyfish gene into a mouse, they are unleashing the result of a cross between a mouse and
Re:The more you know....... (Score:1)
Im not against investigating our new abilities to mix DNA and produce new species, in fact I think it will
Re:The more you know....... (Score:1)
Several million years of history have shown that the risks involved are relatively low.
Indeed, several thousands of History have shown that the risks involved in multiplicating humans are relatively high (for both humans themselves and for the other species as well).
Re:The more you know....... (Score:1)
Barring mutation (which would explain a lot...), each of my genes can be found in one of my parents. They're shuffled, not modified.
Falaciuos argument (Score:1)
The whole point of fertilization, also known as gametic fusion or (imprecisely) as "sexual reproduction", is for species to make sure there is nothing really novel, nothing unusual, in its genes, hence the need for 2 genomes of independent sources, which need not be identical but they do need to be *compatible*. Otherwise, there is no embryo. How many species of metacellulars do you know that do not practice gametic fusion? I thought so. Even partenogenic species are
Re:The more you know....... (Score:5, Insightful)
There is certainly a risk involved with genetically modified things. Hell, we know this for a fact because we have been doing it for hundreds of years through more primitive means, and we have screwed up in the past. That said, there comes a point when you need to go over your fear and dive in. We will never know anything for sure, and pretty sure is good enough most of the time. I am pretty sure I am not going to die in a car accident on the way to work each morning and that is good enough for me.
Now, there are plenty of reasons to be weary of modified plants and animals, but all of them are patenting and legal issues. As to the raw science of it though, such concerns are negligible with enough foresight. I don't know about you, but I would merrily risk two or three people in an entire population dying because genetically modified super corn gives them an allergic reaction then watch a few hundred thousand people die because their refuse to grow in the barren land that they live.
People need to put a careful eye to potential risks and rewards. Humans are horribly crafty bastards. Sure, we screw up for time to time, but we are not all that bad at dealing with the consequences. If you need any proof that we fix things more then we break them, you need only look at the average human life expectancy has changed over time.
Re:The more you know....... (Score:4, Informative)
I'm more of an animal guy, but my ex was into plant biology, and her take on the whole plant genetics thing is nothing less than... very worrisome. Plants swap and adopt chromosomes, hybridize, etc. much more freely than animals.
The problem therefore is not that the actions of a gene in one species aren't known (though I'm not convinced they're know well enough); it's that the gene can get into other species far too easily. There are bigger nightmares in that scenario than a few allergic reactions.
I'll be the first to admit I'm no expert in plant genetics - but a fair number of people who ARE experts are concerned. I'm inclined toward caution. I'd suggest that the best thing to do is to clearly label products containing material from GMOs and let the consumers decide, but the shee^H^H^H^Hconsumers are the same folks with unpatched Windoze boxen. Cheers!
Re:The more you know....... (Score:3, Funny)
"Feed me Seymore!!"
Feed me all night long (Score:1, Offtopic)
Re:The more you know....... (Score:3, Interesting)
A shovel-full of dirt contains a regular frenzy of bacteria swapping genes not unlike getting fish, birds, reptiles, mammals, and earthworms together for a big bisexual orgy. The only difference is that with the bacteria, it actually works from time-to-time because they haven't specialized as
Re:The more you know....... (Score:1)
OR heterosexual
FRANCIS:
Yeah. I think Judith's point of view is very valid, Reg, provided the Movement never forgets that it is the inalienable right of every man--
STAN:
Or woman.
FRANCIS:
Or woman... to rid himself--
STAN:
Or herself.
FRANCIS:
Or herself.
REG:
Agreed.
FRANCIS:
Thank you, brother.
STAN:
Or sister.
FRANCIS:
Or sister. Where was I?
REG:
I think you'd finished.
FRANCIS:
Oh. Right.
Re:The more you know....... (Score:2)
Re:The more you know....... (Score:2)
Re:The more you know....... (Score:2)
Hah, like the super plants growing out of control and killing everyone? Sounds crazy right? There is a good write up about it here [xs4all.nl] Interesting stuff.
Makes sense (Score:2)
Oranges, Apples, most fruits... and they've managed to crossbreed with nicotine plants. Granted that many of these plants are still fairly related... but I've heard of some very interesting crosses in the world of flora. Fauna is a bit behind on that, I think.
Re:The more you know....... (Score:2, Interesting)
Humans master fire:
+ life expectancy goes up.
- Number of people being killed (broken) by fire increases dramatically
- Number of forests destroyed(broken) by fire goes up
Humans master agriculture:
+ life expectancy goes up.
- millions of acres of forest are clearcut(broken) for farming land and buildings for farming villages
- genetic diversity of agricultur
Re:The more you know....... (Score:2)
So yes, agriculture has completely changed the face of the world and wiped out many pieces of the environment, but I give agriculture a big thumbs up. Agriculture means that I don't have to go get my own food, and that gives me plenty of time
Re:The more you know....... (Score:3, Insightful)
Ahem, are we saying that GMC's are being used as a solution to world famine? I am no expert, but I know in Europe the EU commision has problems curbing production levels because they are too high. So is there any logic introducin
Complexity = unintended consequences (Score:3, Informative)
Now, expand that space to accoun
Re:The more you know....... (Score:2, Interesting)
Like the foresight we used when we put lead in gasoline? Or put CFCs in aerosol cans? Or started using fission for electrical power generation without a plan for storing nuclear waste? When profits enter the picture, foresight is a rare commodity.
Re:The more you know....... (Score:1)
but I would merrily risk two or three people in an entire population dying because genetically modified super corn gives them an allergic reaction then watch a few hundred thousand people die because their refuse to grow in the barren land that they live.
Sorry to burst your bubble, but I Call For Bullshit(R) here
The agricoltural assets are just about enough to feed every living person on this planet, given a fair redistribution of those assets (in fact, in the EU, the goverments pay the farmers not to
Re:The more you know....... (Score:1)
Genetic engineering consists of moving DNA for a reason - i.e. its done with the sequences that we know well how they work. No-one is creating commercial GMOs out of 'junk' DNA today - but now our understanding is growing, some of that junk isnt junk any more, and when it *is* understood, it probably will feature in future biotechnological innovation.
It's only in Nature that you see huge chu
Re:The more you know....... (Score:2)
It's so scary. After all, genes have gone unmodified since the beginning of time, no one knows what could happen if you change them from their original, perfect form.
I mean, if anyone had different genes, they're libel to become zombies or something. Hasn't TV taught us anything?
OK, ok. I was tempted to stop here, and have a nice little troll, but some of what we hear about as "genetic engineering" really is little more than the selective
Yeah, But (Score:4, Interesting)
I have been working in gene mapping for years and always felt that the 'junk' was there for a reason.
Sometimes, too, the gene may have moved into the junkyard for a good reason.
Just imagine reactivating some junk human genes to see what happens:
Human females have a more pronounced season of going into and out of heat.
Get an extra furrowed forehead to better protect vision during rainstorms and intense heat on veldt.
Get large hairy ears to better pick up on approaching predators like lions.
Given the current rate of change in human environment due to social and cultural changes, I'd venture to guess we have a lot more junk DNA that needs to exit (eg, propensity to develop diabetes if not on a hunter/gatherer diet) than we have need to reactivate old junk DNA.
If we could engineer useful new DNA, probably creating a visual transmitter capable of expressing information more quickly than voice or hand movement would be high on the list. I would call this the Teletubby gene...
Mmm, sexy. (Score:5, Funny)
Human females have a more pronounced season of going into and out of heat.
Get an extra furrowed forehead... [and] large hairy ears
Well, those two should help cancel each other out, no?
Re:Yeah, But (Score:2)
Knowning when the ladies are in heat... that can't be bad at all. Evolution took this out because we don't need it to survive.. what we need and what we want aren't always the same thing.
Extra furrowed forehead which gives better vision, better vision sounds good. The cosmetic affect after all is irrelevant, when everyone has this it won't "look bad" anymore.
Improved hearing, this is bad?
Re:Yeah, But (Score:4, Funny)
Re:Yeah, But (Score:2)
Actually, "Evolution" probably took it out for a positive reason, not just because we didn't need it.
There are a number of other species in which the female estrus is weak or nonexistent and females are sexually active much of the time. These species have a number of characteristics that they share with us humans: They are mostly social species in which the males contribute a great deal to the raising of
Re:Yeah, But (Score:3, Interesting)
Actually, "Evolution" probably took it out for a positive reason, not just because we didn't need it.
I don't think that it's gone. Your lady may want to have sex with you on a regular basis, but she is most fertile on certain days of her cycle. The natural planning method of birth control would work, except for the fact that sperm are able to live for quite some time whilst looking for an egg to fertil
Re:Yeah, But (Score:3, Interesting)
The only difference would be that you'd have women walking up to you at various times and rubbing their bodies against yours.
Actually however, our social structure isn't really a superior way to propogate the species. The males sticking around is really a bad thing.
The purpose of a species of course is perpetuate,
Re:Yeah, But (Score:2)
Re:Yeah, But (Score:3, Interesting)
I was struck by this as it is connected with something I have been thinking about for awhile.
Namely the impact of Race and DNA on diet.
We know that issues such as lactose intolerance are regional
http://www.gnxp.com/MT2/archives/001681.html
I would suspect that tolerance of other foods are as well, given the differing ava
Re:Yeah, But (Score:3, Interesting)
With the above, it surprises me that instead of things like Atkins, there is not a more racial approach to diet. I.E. A "northern european" diet heavier on dairy, an asian diet heavier on fish etc.
Actually, there is.
A while back people started coming out with the notion that the ideal diet (and, for that matter, entire lifestyle including exercise regimen) depended on blood type [about.com], which roughly characterizes some racial features.
Blood type (Score:3, Interesting)
My thinking is that the prehistoric people regardless of blood type would have all had to survive on the available local foods. I would think that the lack of choice, i.e. "rabbit or nothing" would have killed off those in the region incapable or less well suited to digesting most of the local quisine.
The question for me is are t
bad article (Score:5, Insightful)
There are repeats (sometimes referred to as 'junk DNA') and there are introns and intergenic regions with no *known* function (also referred to as 'junk DNA').
So while it is technically true that the gene was found in 'junk DNA', it's also true that EVERY new gene is found in junk DNA. That is not what is interesting here at all.
Basically, they found a gene that turns another gene on or off via it's RNA product. This is what the intereseting news is.
Good article (Score:5, Informative)
Much more information can be found in this article taken from pubmed.
Stealth regulation: biological circuits with small RNA switches [genesdev.org]
Re:Good article (Score:3, Insightful)
The important part of the article is that this is a new never before seen *type* of gene. That's the news here, not this sillyness about junk DNA. That part should have been completely left out IMO.
Re:Good article (Score:2)
I hereby propose DUFF - DNA of Unknown Form and Function.
Re:Good article (Score:2)
While my specific area of interest is not genetics or molecular biology- it is mathematical and computational ecology- I do have the basic knowlege of genetics required of anyone in a college biology program.
I have always heard the term "junk DNA" refer to sequences of genetic code that appear to have no use, oftentimes appearing just to be big repeating patterns of nonsense and outside of a coding region.
What interests me especially about this article is that since I f
Re:bad article (Score:2, Insightful)
Re:bad article (Score:2)
The article almost makes it sound like this is about junk DNA. It's not though, it's about this new type of gene. That's why I feel it's a bad article. And it would have been nice if they at least provided a reference to the lab or paper.
Precedent for "junk DNA" (Score:3, Interesting)
For example, a few centuries ago some mathematicians started studying the funny numbers like the diagonal of a unit square, and proved that they weren't the ratio of two integers. The idea that there were such numbers was widely ridiculed. The mathematicians' reaction was to say "We need a name for these new numbers. People are calling us irrational for talking about them. Why don't we just call them `irrational' numbe
Re:Precedent for "junk DNA" (Score:3, Informative)
Actually, irrational numbers are so named because they can't be forme
Re: (Score:2)
Re:bad article (Score:1)
Of course, most people reading a Reuters article probably don't even know what RNA is, much l
There is real naivete (Score:5, Interesting)
This article is about is genomics knowledge which is one of the best understood areas of biotechnology and molecular biology, yet it's always bugged me that PhDs in biology would simply dismiss what didn't fit into their neat little model as "junk DNA". That "junk DNA" was conserved gave serious doubts about it being junk. That it has to be a "control system" component has pretty obvious.
Until recently though, math and systems theory have not been strengths of biologists in general - when I was in school, biology was what people took to be able to do science without a lot of math. Ask a biologist about Laplace, Linvill or Liapunov and you'll get a blank stare - which is truly scary if they're mucking around with living feedback systems being spread into the broader environment. There's still a generation that probably needs to be purged before the profession can be deemed "systems theory aware".
What's scarier: the whole knowledge-base of proteomics and enzyme/metabolic circuitry is far more primitive that genomics, yet this area represents far more of the biology activity in cells than genomics. Which makes plunging head-long into rolling out things like Monsanto safflower extremely dubious and dangerous.
That said, I'd be the last to advocate ceasing this type of genetic research and technology development - only it is different from most every potentially dangerous technology humanity has developed, so considerable caution and process safe-guards are needed.
Re:There is real naivete (Score:3, Insightful)
Re:There is real naivete (Score:2)
Re:There is real naivete (Score:2)
Re:There is real naivete (Score:2, Flamebait)
My biology-majoring school (I mean, university) friends, both in undergrad and graduate school did, in point of their own words, pick biology because of the minimal math. Those people are now runnng biotech and pharma companies today. Statistically significant? - well, a dozen data po
Re:There is real naivete (Score:2, Insightful)
What I hate the most in scientific debates are those people whose arguments are both heated and unknowledgeable. Junk DNA is something of a junk word if you ask from a real geneticist, as many examples of regulatory and other types of function have been attributed to the non-protein-coding regions of the genome.
This is because your personal DNA sequence is not just the blueprints for all your components, it also works as a script to trigger synthesis of these components at a right place and time -- as a re
Very ironic (Score:2, Interesting)
You are correct that nowadays biology and mathematics are intertwined, attracting more quantitative people. Where you are mistaken is your implicit assumption that the naivete is on the biologists side. There is a lot of knowledge that needs t
Multi-dimensional (Score:2)
--
The fallacy of government is that it assumes everyone needs to be told how to live, but the fact remains it is unconstituational to homogenize community by its own standards. When it passes more laws until it makes everyone a criminal it has made the mistake of placing the intent on the "Letter of the Law" over the "Spirit of the Law."
"The more corrupt the republic, the more numerious the laws" -- Tacitus,
Re:Multi-dimensional (Score:3, Informative)
Sorry, but they already are!
A single gene can contain up to three overlapping reading frames, and some virii and bacteria can generate three completely different and functional proteins from the same gene sequence by this method. Add to that that certain gene products may be broken into subunits at different points along their sequence, and a highly-evolved (or carefully designed) gene could encode >10 protei
Re:Multi-dimensional (Score:2)
Now that's cool.
Got any links or references so I can show others this?
Re:Multi-dimensional (Score:1)
Junk DNA == Slashdot Trolls (Score:4, Funny)
Since I'm bored today, I'll try my hand at rewriting the Reuters article.
Slashdotters Find New Type of Moderation in Troll Postings
LONDON (Reuters) - Troll posts may not be so useless after all.
Slashdotters coined the term to describe the textual wasteland within the Slashdot database, or book of posts, which consists of long uncharted stretches of text for which there is no known function.
But researchers from Hard Vard Medical School in Jamaica said on Wednesday that within troll postings in the Science database they have discovered a new class of post.
Unlike other posts, the new one does not produce an Insightful or Interesting comment to carry out its function. But when it is browsed at -1, it moderates a neighboring post.
"This doesn't explain all troll posting. It gives a potential use for some troll posting," Professor Red Finster, who headed the research team, said in a made-up Slashdot posting.
"I cannot think of another regulatory post such as this one," he added.
There are about 3,000,000 to 4,000,000 posts in the Slashdot database. Much of the database consists of troll postings which scientists are trying to decipher to determine the causes and potential treatments for boring, inane discussions.
The new troll called GOAT1 blocks the function of the adjacent posting in the Science database. Finster and his team, who reported their finding in the science journal UnNature-al, believe other trolls could work in the same way and in other databases including the main database.
"We found one example of a type of troll posting that hasn't been found before that might alert investigators to look for it in other offtopic discussions," Finster said.
"This type of moderation may occur in other cases throughout the message board kingdom," he added.
The new troll works by making Frustration, a cousin of Interest, which causes down-moderation or turning off the adjacent post.
"When people are looking to understand the regulation of posts from whatever database -- main, games, Apple, science -- they cannot just look for messages that are acting there. It might be that it is simply the act of moderating that is causing regulation," said Finster.
The Moderation alphabet consists of several moderations -- Flamebait and Troll to Insightful and Informative -- which carry instructions for making all databases. The sum of the moderations carries the score. Each set of moderations corresponds to a single comment score, which join up in many different combinations to make discussions.
"We want to understand the psychology behind the regulation (of the postings). It is a previously unidentified type of moderation and if we could understand how it is controlled, we will learn more about Slashdot moderation," said Finster.
Re:Junk DNA == Slashdot Trolls (Score:2)
so let's see... (Score:3, Interesting)
Greg Bear's Darwin series (Score:2, Interesting)
Re:Greg Bear's Darwin series (Score:2)
Just in case someone wants another opinion on this: I've read Darwin's Radio [barnesandnoble.com] but haven't picked up Darwin's Children [barnesandnoble.com] yet. I highly recommend the first book. As the parent post says, the major premise is that the so-called "junk DNA" is really a latent genetic disease that causes sudden, drastic changes i
Paper search (Score:2)
Anybody know where I can get this paper? I hate reading news blurbs on research. I want the meat!!!
Re:Paper search (Score:4, Informative)
Another Idea: (Score:2)
Re:Another Idea: (Score:1)
Computer Parallels (Score:4, Insightful)
The more I heard about genetic codes, the more they resemble certain thigns in the computer world to me. Probably convergent evolution of sorts. Sounds like they've been staring at an incomprehensible data-set they were examining byte by byte to understand where the data was stored in what format. They found isolated bits that matched up and identified their purpose, but large amounts of the code remained a mystery. Then with this discovery, they just realized that they're actually staring at a huge peice of mixed data and code (probably in some cases dual-purpose bits which are both data and code) - just like in the computer case. Well, not so much in a high level language's case, but remember when people used to write ultra-compact self-modifying code/data in asm? When you think about it, for any given computing problem that can be solved by some chunk of code and data, the most space-efficient hyper-optimal way to do it usually ends up being self-modifying assembler "code", which re-uses code for data and data for code where possible.
It is of course mind-bogglingly complex to write code in this fashion for any sufficiently complex software, which is why we only tend to have examples of this on very small scales (tiny little DOS programs and simple virii back then).
But.. if that's the most efficient way to pack the functionality into a small space - and if writing DNA is similar in nature to writing assembler code - then evolution would naturally gravitate towards this method of encoding, eventually becoming such a complex self-modifying code/data mess that it causes us all these problems trying to unravel it.
Re: (Score:1)
Re:Computer Parallels (Score:2)
Many of the people I know that were involved with the early stages of the human gome project also where involved in the theoritcal computer science.
On the other hand... (Score:4, Informative)
So the moral is, we have a lot to learn about DNA.
Re:On the other hand... (Score:4, Insightful)
I think that might be the crucial factor there. After all, how can we effectively measure things that we're just starting to discover?
Re:On the other hand... (Score:2)
One of the theories about the junk DNA is that it's there to help reduce the chances that a mutation could cause catastrophic harm to the organism. If you've got 5 times as much stuff to hit with a cosmic ray, for example, you're more likely to hit the "padding" than the useful stuff. If that's correct, you would see exactly what they're seeing with this mouse, until an im
Re:On the other hand... (Score:3, Insightful)
I forget where I saw this analogy, but... imagine you're reverse-engineering a car by removing parts of it and seeing what stops working. You remove the windscreen wipers and the headlamps and hey, nothing's wrong! They're junk components.
At least, until you drive at night in the rain.
The argument was that junk DNA might contain contingen
Re:On the other hand... (Score:2)
Lots of Junk (Score:3, Funny)
Nature is a pack rat. Get used to it...
I thought they found its purpose (Score:1)
Evolution and spaghetti (Score:2, Insightful)
Total Genome size (Score:2, Insightful)
This isn't exactly new... (Score:3, Informative)
Interestingly, the mechanism was actually understood before functional miRNAs had been discovered. Back in the 90s there was an upswelling of new biotech companies (Isis, for one) looking at antisense technology. Basically, the idea is that if you insert a complementary RNA strand to a messenger RNA (mRNA- The RNA's which code for proteins), you could block the expression of that gene into protein. The problem was that these weren't very specific (relative to what people would expect, since it was the exact complement of the gene sequence). Also, it's a bitch to get a full length RNA strand into cells reliably, short of using viruses. Generally a bad stigma.
Over time, people started realizing that these antisense targets being inserted were being cleaved into really small (~20 to 25 nucleotide) pieces by an enzyme group called the RISC complex (It's a lot more complecated than that, but whatever). This explained one thing. ~20 nucleotide chunks are much more likely to stick to another gene. There's a much better chance that the 20 bases are identical to 20 bases in another gene, than several hundred to several thousand being repeated. What it didn't answer is what was going on.
It was assumed that the complex that large antisense targets made blocked translation into protein. 20 base pieces were much less likely to do that. What people came to realize is that another enzyme called DICER was chomping up the genes where these ~20 nucleotide pieces stuck. This technique isa called RNA interference, or RNAi, and these ~20 nucleotide sequences were called short interfering RNAs or siRNAs. The sweet thing is these, relative to their much longer antisense couterparts are relatively trivial to insert into cells.
Anyway, to make a long story short, researchers didn't really know why this worked at first, and consensus was that it was either an evolutionary legacy, a mechanism to fight RNA viruses, or a fluke (which generally, very few things in biology end up being).
Anyway, this article points out what researchers all over are finding which is that these little guys appear to be present all over the human and other genomes. They are much more likely to be a mechanism for regulating gene expression. For more info, google 'micro RNA'.
Cheers
Implications to Myotonic Muscular Dystrophy (Score:2)
This is exciting but not unexpected news to me. Two of my children have a flaw in one of these junk areas that causes dramatic effects for them. Their symptoms range from mild mental retardation to muscular effects throughout every muscle type. Its amazing, given the many known diseases that result from flaws in junk DNA, that its taken them this long to come close to admitting there is no such thing as junk DNA. So called "scientists" have a remarkable blindness to the facts that they can't explain tha