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First Reproducing Artificial Virus Created
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What is research but a blind date with knowledge? -- Will Harvey
What is research but a blind date with knowledge? -- Will Harvey
Should we really be doing things like this? (Score:2)
Re:Should we really be doing things like this? (Score:5, Insightful)
You would hope that they take great pains to make access to the virii as secure as possible.
But, things like this are very important in the fight to create vaccines to illnesses. Anyone who has taken apart and built a car, computer, or whatever will tell you that thier level of understanding is now MUCH greater than it was before they did it. Knowing how to assemble a virus, will hopefully allow us to defend ourselves against them.
Re:Should we really be doing things like this? (Score:5, Funny)
Re:Should we really be doing things like this? (Score:4, Insightful)
Knowing how to assemble a virus, will hopefully allow us to defend ourselves against them.
As long as the rate at which the virus reproduces and the level of devastation it causes is not too fast or too irreversible.
Consider the effects of some natural virus and other life forms that have been unleased.
A fungus from the Eastern hemisphere pretty well wiped out the American chestnut tree in short order.
Russian thistle, introduced to North America in the 19th century has likewise become endemic, to the point where tumbleweeds are considered an essential ingredient in any Western film set.
Rabbits in Australia, etc., provide some indication of how rapidly reproducing organisms can spread and how much change they can cause.
Do we trust our knowledge of virus mechanics enough to believe that an inadvertent release of "grey goo [wired.com]" can be undone?
To put it another way:
Re:Should we really be doing things like this? (Score:5, Insightful)
Re:Should we really be doing things like this? (Score:3, Insightful)
Not to flame you, but that is an arrogant and inherently dangerous presumption to make. Take for example Ted Kaczynski. Incredibly intelligent, incredibly crafty, incredibly deadly. And he's just one example. Sure, you could argue that he is insane. So take the invention of the atomic bomb as another example. Following your logic, the Unabomber
Re:Should we really be doing things like this? (Score:2, Funny)
We're all going to die! Nanobot virus AIs created from stem cells and feeding on the bodies of Monarch butterflies slain by the pollen from genetically engineered corn are going to destroy the world!
Re:Should we really be doing things like this? (Score:3, Insightful)
1. The "I don't understand it, we're all gonna die" crowd and...
2. The "I understand it, I don't trust those irresponsible buggers, if we don't do something we're all gonna die" crowd.
Large corporations (and some small ones) have repeated proven themselves to be untrustworthy and irresponsible. Crowd #2 have every reason to fear what they fear.
Re:Should we really be doing things like this? (Score:5, Funny)
Re:Should we really be doing things like this? (Score:5, Insightful)
Which is perfectly reasonable. People seem to be exremely afraid of anything made in a lab, but fail to recognize that the greater danger (by far) is from natural evolution of new viruses.
By the same token, the dangers of bio-weapons seem to be greatly excaggerated, when compared to natural pathogens. Some anthrax letters that killed half a dozen people seemed to get more attention and resources than the flu and aids, which kill tens of thousands of people per year in the US alone.
Tor
Re:Should we really be doing things like this? (Score:5, Insightful)
Perhaps bio weapons get more attention than natural viruses simply because if a natural virus kills you, it's an act of [insert deity here] and simply one of the risks of life, like getting hit by a bus.
Bio weapons on the other hand are purposely engineered to maximize the lethality of a disease for the intentional purpose of killing as many people as possible. In other words, it's the intent that matters.
Re:Should we really be doing things like this? (Score:4, Interesting)
I agree that bio weapons get more attention than natural viruses because they involve someone doing something intentionally. But I don't think it makes sense. The way I see it the downside of my getting killed by an intentional attack is that I'm dead. The downside of my getting killed by a natural virus is that I'm dead. Whether or not anyone intended me to be dead doesn't modify that downside at all for me. If society is going to try to do some stuff to prevent me (and others) from becoming prematurely dead, it seems to me it would make sense to allocate more resources to things that are more likely to kill people.
Re:Should we really be doing things like this? (Score:3, Insightful)
Right or wrong, an incident that is the result of deliberate intent is seen as much more heinous than an act of nature, even if it does much less danger. School shootings have killed only a handful of youngsers over several years. How many died from traffic incidents over the same time frame? Where is your child safer - sit
Re:Should we really be doing things like this? (Score:3, Insightful)
Re:Should we really be doing things like this? (Score:5, Insightful)
Unless somebody figures out how to make an artificial microbe that takes advantage of chemical processes that just aren't found in natural evolution. For example, the human body might not even be capable of attacking a hypothetical microbe that has a teflon or silicone-enhanced outer membrane.
At any rate, natural evolution proceeds at a slow rate, so the defending species has time to adapt. Anthrax, for example, implements a tricky chemical hack to breach animal cells and destroy them. Most animals are pretty defenseless against the special back door that antrax uses, and without it the anthrax bacteria would be no more harmful than a pimple. However, anthrax is a rather obscure organism that mostly lives in the dirt. The reason that animals haven't evolved a defense against its chemical attack is that it just doesn't spread that easily in a natural setting. If anthrax were contagious like a cold, animals would have evolved a defense against it long ago.
Now, people may soon have the knowledge to install anthrax's chemical attack into something like a common cold virus. This short-ciruits the evolutionary process. Instead of just having to resist natural random improvemts in microbes, we may soon also face improvements that take advantage of god-like knowledge of the weaknesses of the defenders.
By simultaneously combining the best parts of various different microbes found in nature, then adding unnatural chemical improvements and using our newly available schematics of human cell defense design, we will certainly be able to create microbes far more dangerous than anything nature is likely to randomly come up with.
I doubt that trying to control this kind of technology is going to do any good, however. Somebody somewhere in the world is going to work on this stuff whether its banned or not. Our only hope is probably to develop means to quickly detect any new microbes, along with adaptive technology to create unnatural defenses to unnatural new organisms in real time.
Re:Should we really be doing things like this? (Score:5, Interesting)
Natural evolution is not slow for viruses; their genetic code does not have the copy-protection mechanisms of say mammals. That is why we have a new flu pop up every other year, or a SARS for that matter.
Anthrax, for example, implements a tricky chemical hack to breach animal cells and destroy them. Most animals are pretty defenseless against the special back door that antrax uses, and without it the anthrax bacteria would be no more harmful than a pimple. However, anthrax is a rather obscure organism that mostly lives in the dirt. The reason that animals haven't evolved a defense against its chemical attack is that it just doesn't spread that easily in a natural setting. If anthrax were contagious like a cold, animals would have evolved a defense against it long ago.
With all due respect I think you are contradicting yourself. When a patheogen spreads for natural or not so natural reasons, people may die. Some survive, the resistant genes thus become more common. There may even be mutations of strong resistance that start to spread.
When this process happens for natural reasons, you label it "evolving a defense", or "defending species having time to adapt". When it happens by an act of man, you think of it as man being caught "defenseless". Of course, in both cases the species start out as (relatively) defenseless, and end up with a better defense.
My whole point was that there seem to be no lab-made pahtogen worse than anything evolved in nature. As for spreading it by man, well, anthrax did get an assist by man. But the extent of that "outbreak" was miniscule next to the natural outbreaks that happen every year.
Unless somebody figures out how to make an artificial microbe that takes advantage of chemical processes that just aren't found in natural evolution. For example, the human body might not even be capable of attacking a hypothetical microbe that has a teflon or silicone-enhanced outer membrane.
Possibly. But then again, if such mechanisms were very successful, why did they not evolve for 4 billion years on a planet surface covered in silicon compounds. In general, it is very difficult for people in labs to compete with the lab which is our planet, and time-scales of millions or billions of years.
Tor
Re:Should we really be doing things like this? (Score:3, Informative)
No, actually.
Natural viruses live with the constraint that if they kill their hosts outright they can't spread and quickly die out. (Read "The Andromeda Strain" for a great book on the subject.)
And don't think that complexity in virual structure is required to make something lethal. Ebola is a VERY simply virus. So simple that it kills it's host in weeks by rupturing all of its cells from virus production. Fortunately, Ebola generally strikes in isolated re
Re:Should we really be doing things like this? (Score:4, Informative)
Yesterday, NPR's All Things Considered did a nice piece on it, you can download it here [npr.org]
eesh (Score:3, Funny)
heh.
These guys are writing fork bombs with DNA
Re:eesh (Score:5, Interesting)
"I think computer viruses should count as life. I think it says something about human nature that the only form of life we have created so far is purely destructive. We've created life in our own image."
-- Stephen Hawking
Re:eesh (Score:5, Informative)
Re:eesh (Score:3, Interesting)
Re:eesh (Score:3, Insightful)
Resident Evil anyone? (Score:2, Funny)
Scared now (Score:5, Funny)
Re:Scared now (Score:4, Funny)
Re:Scared now (Score:2)
Re:Scared now (Score:3, Interesting)
All cute kittens have a fair number of virii inside their bodies. I guess they are just starting with those. Then they'll make the bacteria in their guts, the ticks/germs on their fur, and finally the kitten.
Re:Scared now (Score:2)
Do we have another candidate for the Darwin Awards [darwinawards.com] perhaps?
Re:Scared now (Score:2)
Now that we have created some procreating life, lets go a little bigger here.
What about making some mini-human race, so we can use them as slaves. I would like about 20 little guys running around doing everything for me. And I could make them , cuz im bigger! Also, make them eat old tires or garbage or something, so they dont steal my pretzels. If you have any more questions regarding this mini race, please email me at god@slashdot thnx.
PS
Re:Scared now (Score:5, Funny)
No, wait, that's viruses, lawyers, ameoba..
Re:Scared now (Score:3, Funny)
Re:Scared now (Score:3, Funny)
I thought you said life... The undead don't count.
Re:Scared now (Score:3, Funny)
Worse, they could have created real-life Tribbles but didn't. How can they call themselves scientists yet not pursue the future laid out before us by Gene Roddenberry?
Re:Scared now (Score:4, Insightful)
As anyone can tell you, learning how to copy something that already exists doesn't really mean you know that much more about how it works. Just because I could write out a copy of a Chinese story doesn't mean I know anything more about what the story says, just that I can duplicate the writing correctly.
Creating NEW life forms, not just copying existing ones, is still a ways off.
Theoretically, they should be able to do this with a mammal like a feline. Sequence the DNA, build a copy, and replace the DNA in a freshly fertilized egg, and it should grow up just fine. Though the complexity of the animal would add issues that I'm not educated enough to be aware of, certainly.
Re:Scared now (Score:3, Interesting)
Theoretically, they should be able to do this with a mammal like a feline. Sequence the DNA, build a copy, and replace the DNA in a freshly fertilized egg, and it should grow up just fine. Though the complexity of the animal would add issues that I'm not educated enough to be aware of, certainly.
One interesting issue with this approach that was only recently brought to my attention is mitochondrial DNA. Mitochondria in cells carry their own DNA inherited from the organism's mother (they are descended f
Re:Scared now (Score:3, Interesting)
Re:Scared now (Score:5, Insightful)
Whether virus is life or not depends on the definition of life. There is no consensus on this defintion, so debates on the matter are rather meaningless, it is really disputes over the definition of a word.
What makes viruses controversial is that they cannot reproduce by themselves; they need to infect antoher cell. But then again, many parasites cannot live without some other organism, and they are usuually considered alive.
Tor
Re:Scared now (Score:3, Funny)
Hmm, I shall have to double check when I get off work, but I'm fairly certain that: I cannot reproduce by myself; I need to infect another human.
Chilling (Score:4, Insightful)
I still don't really think the benefits (gene expression research, gene therapy in general) are good enough, considering the potential problems.
I'd like to know who's funding them. Is it civilian or military?
As if there weren't enough virii on the planet already, we have to go making more. Fantastic academic achievement, but wish they hadn't done it. A bit like a nuclear bomb, in its own way...
Simon.
Re:Chilling (Score:2)
I know it's too much to ask around here sometimes, but maybe you could at least glance at the article?
- The project was funded in part by the Department of Energy
Re:Chilling (Score:2, Insightful)
Sometimes it feels like this might apply to Craig Venter. I mean his intellectual achievements are staggering, world-class, unimpeachably brilliant. but his choice of topics is sometimes very unnerving.
Re:Chilling (Score:5, Insightful)
Simon.
Re:Chilling (Score:3, Funny)
I think the full case goes:
'Our new virus could help society meet its energy needs, clean up pollution, bring about World peace, reunite the cast of 'Friends', immunise the World's population against the threat of Jennifer Lopez movies and produce a Starbucks espresso that tastes faintly of coffee.'
Best wishes,
Mike.
An software anecdote (Score:2, Insightful)
Just to find a metaphor that will bring this home to some of us...
I once had a prolonged discussion on the pros and cons of GM food and the mixing of seperate genetic organisms (as has produced this virus) with a Phd in Computer Science. Eventually I grabbed a textbook on UML from his desk and waved it at him. "Look," I cried, "they're breaking encapsulation!" My friend immediately reversed his stance on Genetic Engineering and wanted more testing.
Oh no! (Score:5, Funny)
Re:Oh no! (Score:3, Funny)
Its ALIVE! (Score:2)
nah, screw that. Let's just get Kelly Le Brock!
Now.... (Score:3, Funny)
Viruses and weapons (Score:4, Insightful)
I don't think anybody should be making any new life forms or modifying any existing life forms, at least until we've had a serious societal discussion regarding its possible role and impact on terrorism and biowarfare.
Imagine a scenario where terrorists could alter a disease or organic biological weapon gene by gene to make it immune to current antidotes. Beyond that, I worry that the US itself might use it for its own cache of new-age weapons.
If WE convert it to a weapon, what's the difference? We can claim we're the good guys and we won't use it. But we can look at Nagasaki and Hiroshima.
I hope I'm not fear-mongering here, but, I worry.
Re:Viruses and weapons (Score:5, Insightful)
However, I think this sort of research is as or more likely to radically benefit society as it is to create catastrophe. Look at the genie released when we first split the atom; I'd argue that the current and future benefits from nuclear power alone outweigh the concern about the misuse of this knowledge. But I feel that ethical concerns must become a stronger part of scientific research and funding, not only because of this breakthrough but because of the ones we're about to make (nanotechnology will present similar worrying potential...)
Re:Viruses and weapons (Score:2)
If any country had to be in possession of these things, it should be the US. You don't want it to be the US? Well, let's look at the alternatives:
1. Middle Eastern countries? Yeah, right. Entire place is a hellhole.
2. Russia? If that place is secure, then a kid holding a slingshot and a stone is wielding a WMD. [cbsnews.com]
3. Asia? Countries like Pakistan, India and China? Malaysia? Forget it. Pakistan or India would likely use the bioweapon against eac
Re:Viruses and weapons (Score:5, Insightful)
Re:Viruses and weapons (Score:4, Insightful)
why do you keep selling them weapons??
Who sold Saddam chemical and biological weapons?
The US insists on a monopoly on WMD technology
not for the safety of the world, but for
its own economic interests and to maintain
its power.
Re:Viruses and weapons (Score:5, Insightful)
Considering the recent record of the US of bombing and invading countries on purely imaginary perceived threats and very real economic reasons, I'd rather NOT have the US be the only one with such a weapon. I'd like a lot of different people to have it. Balance of terror is bad, but I've come to appreciate the advantages of unstable equilibrium compared to a (albeit very stable) death.
Re:Viruses and weapons (Score:3, Interesting)
Re:Viruses and weapons (Score:3, Interesting)
Because you sure sound like them.
Re:Viruses and weapons (Score:4, Informative)
This is absolutely not true. The US created many chemical weapons which it did not use (I don't know if we used chem weapons in WW-I, but we enver used them since then).
The US has NEVER used biological weapons (even the recorded use of smallpox against Indians was done by the British before the American Revolution).
The US has never used a hydrogen bomb.
Re:Viruses and weapons (Score:3, Insightful)
Except that with bio-weapons, there's a big problem... There's no "safe haven" for those that release it. Even the wackiest of terrorists want their people to survive. If you ram a couple planes in a building (US), gas the subway (Japan) or even nuke a city off the map (Nowhere..
Re:Viruses and weapons (Score:4, Insightful)
1 - Terrorism isn't generaly a R&D effort. The act of terrorism isn't anything new, contrary to what GW Bush Inc. seems to belive. For centuries people have been committing acts of terrorism, but these are not the organizations that develop the new and frightening weapons of war.
Terrorism is, by it's very nature, a low budget enterprise. Until Mr and Mrs Smith can grow little Susie a custom built kitten with neon pink fur by hitting some buttons on the Recombinator (tm) you won't see gene level modifications as something available to terrorists.
2 - We've been making viruses resistance to treatment/immunization for years now. Read Ken Alblik's autobiography on his roll in the Soviet Bioweapons program. Until the 1970s the United States was engaged in offensive biological warfare . Today we still research defensive biowarfare, which means that we use developing treatments as an excuse to weaponize deadly organisims.
The former Soviet Union (according to most sources) weaponized the small pox virus. Weaponization, for the unaware, is a process of making a virus resistant to treatment and immunization techniques while increasing it's kill rate.
As was pointed out elsewhere in this thread, if you have something insanely dangerous and you want to it to fall into the wrong hands, the best thing you can do with it it hand it to the Russian Army to guard.
I have the utmost respsect for the scientific community. The work they do is amazing and valuable research, but this isn't something I'm worried about. Somehow, I doubt that a bunch of PhDs in a lab can come up with anything (much) more deadly than billions of years of evolution and 50 years of cold war has produced.
Re:Viruses and weapons (Score:3, Insightful)
I can't prove it is right, but you can't prove it is wrong.
"Discussion"? (Score:5, Insightful)
But the problem is that we're not *going* to have a serious societal discussion because that phrase means nothing. Who's talking with whom? Who makes decisions? Who gets input?
When I hear "societal discussion", I get an image in my head of the entire country sitting at a great big table having a little chat about what to do. But in real life, that sort of thing doesn't happen. You have kooks who think that anything that looks like "playing God" is evil, you have people who think that every new invention must immediately be used to aid/fight terrorism, you have people who don't even understand the basic science behind what's going on(like Slashdot...oops, did I say that out loud?). And in the end, after all of these people have "had their say"(who are they talking to?), who decides what will be done? You want the government to say "Sorry, no more research on microorganisms"? Because that's about all it could do. What right does "society" have to control science? Most people will tell you that they don't even understand what "science" is! Who is qualified to do cost/benefit analysis of this sort of thing? Does anybody even *care* about cost/benefit analysis?
I understand(and sympathize with) your concerns, but no amount of talking is going to do anything about this situation. We can't halt our understanding of the world where it is just because a few people might cause problems with it. Hell, if we had taken that attitude to begin with, we'd be lucky to have fire by now!
Re:Viruses and weapons (Score:4, Insightful)
Re:Viruses and weapons (Score:3, Insightful)
My grandfather bred chickens. His father corresponded with Charles Darwin about it (my aunt has the letters). Breeding animals to enhance or supress certain traits has been going on for ages.
> Imagine a scenario where terrorists could
I can imagine any scenario "where terrorists could.." do just about anything (brainwash my children into blowing up their schools... putting poison in the water supply.
I thought bill gates and co. (Score:2)
Nanotechnology + Artifical Virii merging... (Score:2)
Playing God (Score:2)
Well, you can stop yourself from doing it. But can you stop your enemies?
Global death fun (Score:2)
I studied biology and one of the lecturers was an expert in viruses. He is convinced that there is a high probability of a global, deadly flu-like virus sometime in the near-term future. (I remember one of his memorable phrases - be thankful that the HIV virus is so difficult to catch, you have to have sex with the carrier. Imagine if they just had to sneeze near you...)
Anyway, what do you do when this deadly virus breaks out? Apparently the thing to do is head for the hills - take a caravan somewhere remo
Not really new (Score:3, Informative)
(from NY times, July 2002: Scientists construct virus from scratch for first time, synthesizing live polio virus from chemicals and publicly available genetic information; work was conducted by scientists at State University of New York at Stony Brook and financed by Defense Department as part of program to develop biowarfare) countermeasures
bill gates and co. (Score:2)
Sensationalist reporting again (Score:2)
Journal Science link, NOT life (Score:3, Informative)
It is the stuff of science fiction and bioethical debates: The creation of artificial life.
A virus can reproduce, but does not consume energy -> they are not alive in a technical sense.
Also see this news from Science [sciencemag.org].
Incredibly cool.
Not the first time (Score:3, Informative)
heh (Score:2)
</sarcasm>
Life? (Score:3, Informative)
What they did, why it is hard (Score:5, Informative)
However, in order to use these instructions to make a cell, you need a cell of the same kind to read them.
Analogy: You have a computer program that tells you how to manufacture computers but this doesn't do any good unless you already have a computer OF THE SAME KIND on which to execute it.
So, even if I assemble an entire human genome, I can't use it to make a person unless I already have a human cell. Kapish?
A VIRUS, which is what was made here, is NOT A CELL. It is a parasitic piece of DNA that hijacks an existing cell and contains the instructions to make viruses. The DNA that the virus contains is, in the best case, sufficient to hijack the cell all by itself, and convert the cell into a factory for making viruses. Viruses CANNOT make more viruses by themselves. The similarity to a computer virus, I assume, is obvious.
So, if you can make VIRAL DNA, this will be sufficient to make the virus, if you have cells that the virus can infect.
Even making the genome of a virus is very difficult. The "commercially available" DNA mentioned in the article is made chemically. DNA is made up of a chain of monomers; each monomer has a 5' end and a 3' end that can attach together to form a chain. In order to add monomer n+1 to a growing chain, this is what you do (description meant to be accessible to people who don't know a lot of chemistry):
-> **add reagent to unblock**
-> wash
-> add 5' (Monomer n) 3' {BLOCKED}
-> add reagent to attach 5' and 3' together
and repeat for Monomer n+2. Recursion is good.
Now, this is done in parallel in thousands of molecules of DNA (the 5' end of each molecule is fixed to a plate.)
Every time you add the reagent to remove the BLOCKS, it has a percentage chance, which can be very small, of failing.
So, for example, if, on one paritcular molecule, it fails at position 10, then instead of:
ACGTACGTACGT
you will get,
ACGTACGTAGT.
DNA that makes proteins has something called a "reading frame", consisting of codons which are three monomers long. If you shift the reading frame over by 1 monomer, it completely changes the meaning of the message.
So, a single nucleotide deletion, which I describe above, is disastrous - the synthetic DNA becomes useless.
Even if the chance of failing to remove a block is small - typically about 0.1% - if your DNA molecule is thousands of bases long, the chance of successfully adding every base to any individual molecule is slight.
Of course, you can make two different 100-base long molecules by the above technique and then ligate them together (recursion by splitting the task in half) which is, I believe, what's been done here. This has technical difficulties of it's own, of course, but with refinements it woud allow you to make useful DNA of length n*2^m instead of DNA of length n.
This is a frightening prospect because it would allow you to make ebola "from scratch", or just from the the string of letters that represent the genome (which is so short I could write it out by hand on a stack of cocktail napkins.) We're not to that point yet but it is a scary possibility.
Morals Schmorals (Score:5, Interesting)
The project was funded in part by the Department of Energy, which hopes to create microbes that would capture carbon dioxide in the atmosphere, produce hydrogen or clean the environment.
Okay, so let's assume we do something like this, with the perfectly innocent intention of cleaning up some level of carbon dioxide. Okay, well you're counting on the virus to reproduce, but what if it gets out of control? It eats up ALL the carbon dioxide. All the trees and plants suffocate and die, but that might not happen before the atmosphere goes up in flames since that carbon dioxide is being turned into hydrogen.
Maybe not a likely event, but my concerns are a bit more on the practical side. Frankly, I'm all for creating new forms of life and bringing back extinct ones, just for the coolness of it. I just hope we don't go doing something foolish, which we always seem to manage to do.
Re:Morals Schmorals (Score:3, Insightful)
Of course, the microbe would presumably die as well, and much more quickly than the plants, while the CO2 is replenished by mammal activity.
but that might not happen before the atmosphere goes up in flames since that carbon dioxide is being turned into hydrogen.
Well, if they can create a microbe that can transmute a carbon and two oxygens into hydrogen, color *me* impressed.
Hmm... would that require or release energy? For
Uh... From scratch? (Score:5, Interesting)
The cell then started reproducing. They didn't create the cell. They probably didn't design the genome as much as patch one together from other genomes (though they may have 'created' it - physically manufactured it)
They say it's safe because it only infects batceria. Unfortunately, humans depend on bacteria to survive, so it's not nearly as innocuous as one might like to think.
However, these are nano-machines that might do real work safely (cleaning up chemical toxins, etc) - I'm just worried about mutations and how they will develop. You can't create life and expect it to reproduce itself without change over time. Pretty soon it'll discover that human skin is much more plentiful than the chemical toxins it was eating, and it'll change its diet.
-Adam
human interference.... (Score:3, Insightful)
So, what kind of checks and balances will there be on man-made viruses? None- you just cannot introduce anything into nature so quickly. I think the possible outcome is clear. This is downright frightening. I think I'll go rent The Stand this weekend.
Not the first, and is identical to a natural virus (Score:4, Informative)
Ventner's new virus [nature.com] is artificial in the sense that it was created from chemicals- but it is identical to a known natural virus.
It's probably not a very effective virus (Score:5, Insightful)
Just because it's man-made doesn't make it more advanced than naturally-occurring viruses. It's been possible for a long time to build viruses from collected stocks, and these are generally much more frightening. What will be scary is when we have some clue as to how to design proteins, and could construct a virus with specific properties. Until then, we're not likely to create anything that doesn't arise in nature.
(Genetically modified foods are a slightly different issue; just because it might arise in nature doesn't mean we'd eat it if it did. Also, most of the organisms involved are much more resistant to mutation and genetic mixing than viruses and bacteria)
Viruses, not virii (Score:5, Informative)
Re:Viruses, not virii (Score:3, Informative)
Deal with it.
Re:Viruses, not virii (Score:3, Insightful)
And since you're clearly an authority on the history of English, you're no doubt already aware that the trend over at least the last century has been toward stricter disciplines of spelling and grammar, not
Re:Viruses, not virii (Score:5, Funny)
I'm all for literacy and correct grammar/spelling, but anyone who doesn't think English is a constantly evolving language obviously has never read a book more than 20 years olde.
Could help stop biowarfare as well (Score:4, Interesting)
With a proven and consistent ability to recreate a virus from its known DNA sequence, the actual viruses themselves could be safely destroyed without impacting the ability to resurrect them in the future. As well, it's probably considerably harder to recreate a virus this way than to steal existing stock.
So while this opens the door to manufacturing viruses for biowarfare, it also makes it possible to destroy current stocks that might be stolen and used for such purposes.
Rainbow Six future scenario? (Score:5, Interesting)
Thinking about it in slightly different terms, all societies attempt to limit the proliferation of highly destructive weapons among their populace because the arbitrary nature of people would guarantee their arbitrary misuse. Imagine a world where people could obtain nuclear weapons as easily as a box of ammunition. We'd already all be dead.
This is what makes this particular story quite fear-inducing. When we arrive at the point where we can easily contruct very deadly weapons, particularly with the subtlety of viruses, there should be very strict regulation and government supervision. I can only hope there will be a worldwide treaty to that effect. After all, would you want someone engineering a virulent strain of airborne type 4 Ebola because he or she has a beef with a government's ideology?
obligatory joke (Score:5, Funny)
The bizzare genome of Phi X 174 (Score:4, Interesting)
In fact, it's genome is so short that at first it confused researchers. It's genome is shorter than it should be. That is, there are fewer codons in the genome than there are amino acids in the virus's proteins. Normally, there would need to be a 1:1 codon:amino-acid ratio.
This lead researchers to the amazing discovery that phiX174 contains "genes within genes" and "overlapping genes". (Link to Genetic Map of phiX174) [neb.com] In several instances, one gene is entirely contained within another gene. In another, there are two genes (A and A*) that overlap with "reading frames" that are off by one.
This discovery challenges notions of what a gene is. With this knowledge, you can't say that a gene is simply a particular region of DNA.
These overlapping genes also call attention to the improbability of the evolution of phiX174. Commonly when a genetic mutation occurs, one base changes. This could affect one amino-acid in the protein for which the gene codes. In phiX174's case, a single base mutation could change 2 amino-acids in 2 proteins. This means that the evolution of these proteins is interdependent. That two functional proteins evolved in this manner is absolutely extraordinary.
Of course, now that it has evolved that way, it gives phiX174 an advantage of genetic economy. It takes less energy to maintain and reproduce a shorter genome. So phiX174 gets more bang for it's genetic buck by overlapping genes in this way.
Not as worrisome as it seems (Score:3, Interesting)
It is likely that any "supervirus" that could exist would have come into existence on it's own anyways. And some have; the bubonic plague, 1918 influenza, and to a lesser extent, aids. But the competition between viruses and hosts goes on and on in a cycle, with no final victor.
In fact, I would guess that any virus we could make would be a weakling compared to the viruses that evolve in the wild.
Cheers
Ho-hum. Big deal... (Score:3, Informative)
This isn't amazing at all. It isn't even wondrous or frightening. It is merely the synthesis of enough DNA, duplicated in sequence from an extant bacteriophage, to paste together into a full phage genome. So what? Chemical DNA synthesis (as opposed to enzymatic/biological) is old news and an everyday occurrance. If you wish (and have the money) you could order "oligos" (short stretches of DNA sequence) of ANY sequence and paste them together into an ever lengthening string.
I have pasted together 6 complementary pairs of DNA oligos, each 120 bases in length and designed to have "complementary" ends. First anneal the DNA together (Heat the single strand DNAs to ~95 C in a nice buffer, paired with their complement, and then cool to just below the melting temperature of the base-paired oligos for about 30 seconds to a minute). Next, you mix together the annealed oligo pairs and incubate at room temp (or 16 C for slower reaction) with the addition of ligase (enzyme that glues DNAs together, end-to-end) for about 1 hour (or 4hrs to overnight at 16 C). If properly designed, you end up (as I did) with a long DNA sequence made up of end-to-end glued-together DNAs. In my case, the DNA sequence encoded the gene for HIV integrase, the enzyme that HIV uses to insert itself into and infected individual's DNA. Totally synthetic. Big whup.
What would have been interesting? If I had designed oligos to encode a new protein or enzyme of my own design, unique in the world, that actually functioned at doing something. All I did was produce a copy of a DNA sequence that exists already in nature. You do the same thing when you PCR DNA, fer gawd's sake. The difference is PCR is much easier and faster (yet it requires the chemical synthesis of "artificial" DNA oligos for use as primers). Now extending what I just said to the Ventner virus (phage), he didn't do anything woundrous, he did something difficult and that's it. It is difficult (more a pain in the ass) to synthesis long oligos, anneal them, ligate/glue them together, and in enough volume, to have something to work with. In my personal case, the amount of artificial gene (I changed the way the gene encodes the amino acids that make up integrase so the actual DNA sequence was ~40% different from natural HIV integrase sequence) was miniscule after the above-mentioned process. So I made lots of it by doing a...PCR on it. Simple. The PCR takes a VERY few complete, full-length sequences and copies it into a LOT of copies. At 7500 basepair, this would also be very doable with the "artificial" phage genome. You make what turns out to be very few complete genomes in a mix of mishmash and use PCR to generate lots of the complete genome. Stock molecular biology.
Do you want to know what would have been REALLY newsworthy? If the phage produced was truly artificial. That is, if it was not merely an exact copy of an already extant phage but a new, never before existing phage. Truly "life" generated artificially. As it is, they just did a lot of common molecular biology to generate a short, complete genome for a phage and, low and behold, since it is identical to the natural phage, it reproduces. Expecting otherwise would be like thinking that somehow synthetic vitamin C is different than natural vitamin C (it isn't). The chemical bonds are identical, the actual molecules in it are not different in any way, etc. Same for this phage example.
I could do something simpler. I could cut and paste a bunch of HIV DNA sequences (different strains if you wish) together into a full-length HIV DNA genome, suspend it in a buffer with DMSO and have you apply it to the skin on the inner side of either arm. There is a good chance that this will result in you contracting an HIV infection. MAGIC! If I wanted to spend the time and money to generate all the DNA oligos needed, I could anneal and paste them together and generate an HIV genome (10,000 basepairs of DNA) identical to whatever strain I chose and it would be infectious. Big deal.
I find it interesting (Score:3, Interesting)
Patent question (Score:3, Funny)
Re:yes, but does it run Linux? (Score:2)
Re:Perhaps this is a good thing... (Score:2)
Re:duh.. I guess humans will do it themselves (Score:3, Interesting)
Its all part of Nature's master plan.
Re:duh.. I guess humans will do it themselves (Score:3, Informative)
There are plenty of examples of people from different races who are closer genetically to each other than to many others of the same race.
Now an individual or family target, that is
Re:duh.. I guess humans will do it themselves (Score:3, Interesting)
There are a great number of genetic markers which are overwhelmingly present in certain populations. This obviously doesn't apply to every individual, but say when 80% of what we call a race has a specific genetic condition, that is probably good enough for the next Hitler.
There are clearly different races (genetically) and until very recently humans were not as mobile as they currently are. Breeding was once a tribal concept and we live in a much different world th
Re:Ebola Anyone? (Score:3, Informative)
Ebola Reston: 18891 base pairs [nih.gov]
Marburg: 19112 base pairs [nih.gov]