The Gene Is Having an Identity Crisis 257
gollum123 writes "New large-scale studies of DNA are causing a rethinking of the very nature of genes. A typical gene is no longer conceived of as a single chunk of DNA encoding a single protein. It turns out, for example, that several different proteins may be produced from a single stretch of DNA. Most of the molecules produced from DNA may not even be proteins, but rather RNA. The familiar double helix of DNA no longer has a monopoly on heredity: other molecules clinging to DNA can produce striking differences between two organisms with the same genes — and those molecules can be inherited along with DNA. Scientists have been working on exploring the 98% of the genome not identified as the protein-coding region. One of the biggest of these projects is an effort called the Encyclopedia of DNA Elements, or 'Encode.' And its analysis of only 1% of the genome reveals the genome to be full of genes that are deeply weird, at least by the traditional standard of what a gene is supposed to be and do. The Encode team estimates that the average protein-coding region produces 5.7 different transcripts. Different kinds of cells appear to produce different transcripts from the same gene. And it gets even weirder. Our DNA is studded with millions of proteins and other molecules, which determine which genes can produce transcripts and which cannot. New cells inherit those molecules along with DNA. In other words, heredity can flow through a second channel."
Comment removed (Score:3, Interesting)
Re:Memory RNA (Score:5, Informative)
One experiment that was purported to show a chemical basis for memory involved training planaria to solve an extremely simple "maze", then grinding them up and feeding them to untrained planaria to see if they would be able to learn more quickly. The experiment seemed to show such an effect, but it was later determined that the original planaria had left chemical tracks inside the maze itself that were not properly cleaned away before the next set of planaria were run.
It's not a complete explanation, but it implies that pathfinding behavior(e.g. getting out of a maze) had much more to do with following a chemical "bread crumb" trail than using memory alone.
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More interesting still was his machine that took cell detritus and 'instant elsewhere'd' it to an adjoining chamber. The idea being to flush the junk from cells and cause a fountain of rejuvenation. FTA, it might be one day feasible to ride a cell of bad or junk RNA.
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Re:Memory RNA (Score:4, Interesting)
>>The way I understand it is that a large part of evolutionary theory ASSUMES that memory can't be inherited.
Maybe not memory per se, but certain phenomena have demonstrated Lamarckian style inheritance.
Mm, DNA can be methylated, which modifies its behavior. A fat pregnant mother will methylate the genes in the fetus, resulting in a kid much more genetically prone to being fat. Experiments with dutch prisoners of war during WWII showed that even when raised under similar conditions, kids from mothers who ate more when they were pregnant were much more prone to obesity.
There's also effects like http://en.wikipedia.org/wiki/Genomic_imprinting [wikipedia.org] which modify an offspring's genome on the fly between generation and generation.
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Also Lamarckian style, or at least very flexible in the short term inheritance
http://www.nature.com/ejhg/journal/v14/n2/full/5201567a.html [nature.com]
http://en.wikipedia.org/wiki/Epigenetics [wikipedia.org]
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One experiment that was purported to show a chemical basis for memory involved training planaria to solve an extremely simple "maze", then grinding them up and feeding them to untrained planaria to see if they would be able to learn more quickly.
This reminds me of VG Cats [vgcats.com].
So wrong..
Re:Memory RNA (Score:4, Interesting)
I'd venture a guess that it's not correct (simply not enough evidence supporting it, but that has not yet been ruled out either [nih.gov].
The bottom line is that we do not yet fully understand memory, in much the same way that we do not fully understand synapse formation in the brain. We should just wait and see before jumping to any conclusions (and maybe write a grant proposal or two along the way).
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Re:Memory RNA (Score:4, Interesting)
Memory is an entirely different system, in which patterns simulating previous stimuli are stored and available to be replayed or compared against. Calling the effect of instinct "ancestral memory" or "genetic memory" is at best a poetic interpretation, at worst a logical flaw similar to Lamarkian Evolution [wikipedia.org] wherein giraffes have long necks because their ancestors stretched out trying to graze from tall shrubs, then trees, rather than the Darwinian idea that giraffes have long necks because short necked giraffes did not live to reproduce as well as long necked ones.
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A very simple answer is that RNA degrades *extremely* rapidly. Injecting RNA could feasibly give a short change in phenotype, but it is hard to imagine that RNA would be able to encode something as long-lasting as memory.
Re:Memory RNA (Score:5, Informative)
RNA is a copy of DNA created by an enzyme called RNA Polymerase [wikipedia.org]. All RNA Polymerase does is a simple copy. There is no mechanism for creating "new" RNA that contains data that is not already present in your genes. That is, your body does not contain any device that can write memory information to RNA strands.
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Any new findings on instinct?
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Can you define instinct so we can talk intelligently about it?
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Stimulus-response patterns that are inherited, not learned. Some might exclude mere reflexes (patterns where the stimulus creates the response before/without brain activity) but I'm not sure that modifies the definition in a helpful way.
It's really an interesting question. Seeming complex behavior patterns are clearly not learned, but present in each generation - where do they come from? This would seem to be software, not hardware, but where and how it it stored/passed on?
Re:Memory RNA (Score:4, Interesting)
Raising both a two year old and a seven month old, there appears to be precious little instinct. Maybe dancing to music.
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So, what we REALLY need is . . . (Score:5, Insightful)
. . . A Human Genome Interpreter Project.
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Re:So, what we REALLY need is . . . (Score:4, Funny)
How long does it take to compute 42?
Oh wait, we already have 42. What was the question again?
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What was the question again?
"What do you get when you multiply 9 times 5."
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I thought we had those, and called them "mom"
I Knew It (Score:5, Funny)
Not only does God code in machine language, but it is all spaghetti. Thats probably why eventually malfunction and die.
Re:I Knew It (Score:4, Funny)
Some faster than others, apparently.
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ha, just got that.
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Some faster than others, apparently.
I guess we live in the Age of the Killer Typo.
Re:I Knew It (Score:5, Funny)
You have it backwards. God doesn't code in spaghetti machine language. The FSM itself coded God.
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I've read the Bible cover to cover. That's actually pretty much WHY I'm an atheist. Have you read that it? It's retarded. Seriously. It was obviously written by a bunch of primitive hicks millenia ago. It's just superstition.
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But hey, don't let the tenets of MY PERSONAL FAITH get in the way of your petty jokes....
That's not the issue. The question is why should your personal faith (or lack of it) have anything whatsoever to do with what anyone else says or does? As you say, that's your personal business. It is not ours, and we are under no obligation to avoid offending you, especially when you can so easily avoid being offended.
And from a practical standpoint (as someone who has been a regular reader/poster on this site for years) you'd best learn to grow a thicker skin. Or find a tamer forum. Nobody here cares w
Re:I Knew It (Score:5, Funny)
Well, what do you expect when you knock off a major project in under a week?
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I bet that obscure comments in God's code would put Larry Wall to shame too :) /* FIXME: Is free will a good idea? Review after beta testing... */
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Well, yeah. Some of the best evidence that christian or muslim creationists are full of shit is that, well, god's "designs" *suck*.
True, you'd think He would be a better engineer. Of course, if you make that point, they'll just tell you that God's will is not obvious. Furthermore, they'll tell you that we must be better designed than we appear, because otherwise we could not have been made in God's image. Ha ... tell that to all the people who died before their time because of the quality engineering that went into their bodies. If God is a Lamborghini then people are Yugos.
I have friends who tell me they can see signs of the Creato
How is any of this new? (Score:5, Informative)
RNA Splincing [wikipedia.org]
siRNA [wikipedia.org]
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Mod Parent Up
Re:How is any of this new? (Score:4, Informative)
http://www.pbs.org/wgbh/nova/sciencenow/3411/02.html [pbs.org]
I'm waiting longer before hitting submit.
Re:How is any of this new? (Score:4, Interesting)
Some of it is new, but none of it is surprising to anyone who has been paying attention for, I dunno, the past decade.
It's been clear since the mid-90's when we learned that there were only 44k "coding" genes but at least ten times that many proteins that more was going on than simple templating.
Things like methylation of double-stranded DNA have been known to be important in oncogenesis for at least ten years. miRNAs have been considered important for five years or more. Other conserved non-coding regions have been known for almost as long or longer.
This story is going to be like that "green" story that reports breathlessly every year or so that some company has instituted green policies because they save money! Just like Interface did fifteen years ago, and hundreds of others have done since.
The interesting thing is that these persistently "new" stories give us a measure of how slowly what can fairly be called "general knowledge" changes. Based on evidence from the "green" story we can expect to be hearing the AMAZING NEWS that there's more to genes than template coding until at least 2020.
Following the details as we learn them is fascinating. Being told that an uncontroversial fact we've known for a decade or more is "news" is very, very irritating.
So, as a car analogy... (Score:2)
Somebody help me out here, I'm on pain meds and not thinking at 100% capacity...
Re:So, as a car analogy... (Score:5, Insightful)
Think of it this way- if your protein-coding genes are the blueprints for a car, then epigenetics are the blueprints, operating procedures, and logistics for a mass production automobile factory. By reading your genes, you can find out the kinds of proteins that make you up. Similarly, car blueprints tell you how to make a car. A car, just one car. However, your cells are not putting out handbuilt cars. It's a modern Toyota factory going on in there, with continuous production and assembly. It's a marvel of mass production, with transcription, splicing, translation, post-translational modification, and relocation to the site of use all going on in multiple sites constantly. Production has to be carefully coordinated to make sure you have the right amounts of the right proteins delivered at the right times.
Epigenetics is the guy at the factory who knows how many cars to build this month, and the guy who makes sure that 10,000 cars have 10,000 steering wheels available to put in. Epigenetics is the guy who tells the line to hold up on building doors, because there's a surplus of doors in the warehouse already and we should use those first. Epigenetics is not the stuff you are made of, but rather a system of production control of that stuff.
Shades of Star Wars (Score:2)
Seriously, though, I thought we already had mitochondria living in our cells that were also inherited...
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Iron. (Score:2)
As much as I was unpleasantly gobsmacked by the Midichlorians thing, I do recognize it as an earnest attempt on Lucas' part to match up his universe with the real one.
In Star Wars, the Force IS out there, like water in a river and we are all little row boats bobbing in the current. --To manipulate the water, (the Force), you need something to stick in the water. Like midichlorians, the more 'Oars' you have to work with, the more you can alter how the Force affects you. (Sorry. That's a horrible metaphor
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The Force is everywhere, just as Yoda said. The ability for a sentient being to manipulate the Force comes only via midichlorians.
There's your explanation.
And yes, it's still retarded. Best to pretend that never happened.
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Inteligent Design (Score:5, Funny)
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Come on, intelligently designed Perl is quite readable.
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Well, we thought She was doing it with regexes, some of them a thousand characters or more long, but still basically pattern matching. But now it turns out that She's doing some of it with evals and self-modifying code, which opens up an entirely different beastiary. And who can guess what other clever little tricks She is using?
The gene is dead. NYT confirms it...
so what to call the full package? (Score:2)
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Imagine: a little molecular salt on that embryo, and we could make Johnny a genius and 7 feet tall!!
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Mom and dad?
Nope. Even if you just consider the genome, you only get half from each. The other half of their genome you don't get.
...or not (Score:4, Interesting)
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He doesn't really refute anything in TFA, he just complains that this is old news, and gives his own summary.
Wow! (Score:2)
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Ya, consider my mind blown. Particularly the epigenetic factors.
Obligatory (Score:2)
This is why... (Score:3, Insightful)
...I'm not (yet) convinced of the value of the gene-mapping you can currently buy. $1000+ and you get back a description that is essentially meaningless because they don't really understand how the genes work yet. You get tested for a handful of conditions which have genetic links, but not all. (Genetic studies have shown there to be 7 forms of ME, according to the specific genetic cause, but very few labs will test for any of them yet.) Without knowing more about how genes work, it is impossible to know if what these studies reveal is even an accurate reflection of the genetics behind such conditions.
Alongside that is an argument in the reverse direction. If genes are not necessarily contiguous and/or can have ill-defined boundaries and/or can have components off the main DNA itself, then there is a definite possibility that there may be additional regions that could be useful for deep ancestry and genealogical DNA testing. This could help enormously as current research is pushing the limits of what is knowable using the regions and markers that are currently available. Entire haplogroup trees have been redefined because new information has revealed flaws in the previous models. More data, preferably more data that changes slowly, could be useful in getting these models right rather than continuously patching them.
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Entire haplogroup trees have been redefined because new information has revealed flaws in the previous models.
Not just that, but the redefinitions have come about in large part due to the efforts of hobbyists [webalice.it] (the YDNA SNPs spreadsheet).
How many genes does it take to invent a light bulb (Score:5, Interesting)
I recall people freaking out when the human genome project revealed that Humans only have about 30,000 genes rather than the previous estimate of 150K.
It always seemed to me that measuring Human complexity based on the number of our genes is a little like judging a book by the number of words it contains. It completely ignores the fact that words have Meaning.
Poetry is both the most compact and the most subtle form of written expression.
This latest finding suggests to me that something similar applies to our genetic heritage.
-S
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your genes are a complete mess
and not poetic.
Re:How many genes does it take to invent a light b (Score:4, Interesting)
I recall people freaking out when the human genome project revealed that Humans only have about 30,000 genes rather than the previous estimate of 150K.
It always seemed to me that measuring Human complexity based on the number of our genes is a little like judging a book by the number of words it contains. It completely ignores the fact that words have Meaning.
Uh, I remember when they discovered that too, and I don't recall any scientists "freaking out" because the low number of genes implied we had low "complexity". Instead, I remember them being very excited, because they already knew there are far more than 30,000 proteins generated from our DNA, meaning that the 1:1 gene:protein mapping theory had to be wrong, and the mechanism was far more complicated than previously thought.
This sounds to me like a continuation of the line of inquiry opened by that discovery years ago, where now they're gaining a better idea of how the genes really code for proteins. With the extremely interesting aspect that some of this is controlled by things not part of the DNA itself, yet which can still be inherited.
To (ab)use your analogy, if the human body is a work of literature then proteins are the words, and genes are characters. The number of words hasn't changed, it's just that before we thought the language was like Chinese, where a single character mapped to a single word. Now we realize it's more like English, where the interactions between characters create different words. Oh and now we've discovered that there's also punctuation like apostrophes and hyphens which can significantly alter the meaning of the resulting words.
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I don't recall the professionals as a whole 'freaking out' either, but when that 30,000 number began being bandied about, there were scientists who pointed out that some other species seemed to have a lot more than 30,000 genes (some amphibians in particular, had anomalously high numbers). I also recall comparisons to the numbers found in fruit flies, which led to comments that either fruit flies were a lot more complex than we had thought, or there was something else very strange going on.
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g=c800:5 (Score:2)
Where you start in a code has an awful lot to do with the output, or if it runs at all. First of all, there are base triplet "synonyms" aplenty since there are many more base triplets than there are amino acids. This means there are a variety of ways to code the same protein, so it is possible to tweak a sequence without changing its function. What if you were to start some number of base pairs into a sequence -- might it also code for a valid protein? Would changing a base pair change the output of this ne
Pfft. (Score:2)
Can't be harder than programming a graphics card.
An analog? (Score:3, Interesting)
Does anyone else see the resemblence between DNA and crufted up old legacy software? Concepts about how heredity works get turned on their head once the mechanisms are examined in detail. I expect next it will be discovered that there are bugs in the DNA transcoding that are fixed by patches which in turn have patches.
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Does anyone else see the resemblence between DNA and crufted up old legacy software?
Well, imagine that this software started out as a simple "hello-world" program, and that every time the requirements changed -- a frequent occurence -- it was updated by repeatedly making the smallest change required to bring it a bit more in line with the requirements, with no regard at all to readability or maintenance. Further assume that random changes are being made all the time, and are only removed when a customer registers a complaint.
The result would probably look something like DNA.
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Actually, I was thinking of something even more confounding: superficial "fixes" that cover up an underlying problem, such that the the core problem can never be corrected because to do so will break the patch (and the patch of the patch). I see that sort of thing occurring where I work. (I'd run screaming, but they keep throwing benefits and bonuses at me. I sometimes wonder if I still have a soul.)
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I expect next it will be discovered that there are bugs in the DNA transcoding that are fixed by patches which in turn have patches.
Already [icnet.uk] discovered [wikipedia.org].
-Ted
Not at all surprising, given the history (Score:2, Informative)
DMCA Takedown (Score:5, Funny)
Ladies and Gentlemen:
We act on behalf of God (the "Owner").
As required under Sections 512(c)(3) and 512(d)(3) of the Digital Millennium Copyright Act (17 U.S.C. ??512(c)(3) and 512(d)(3)), we are instructed to place you on notice that:
1. The Owner is the exclusive owner of the copyrights in and to the human DNA, RNA, and all other information contained therein
2. Decryption of aforementioned encrypted information constitutes an unlawful cicumvention of encryption technology
Please cease and desist from further decryption of stated copyright information and publication of previously acquired DNA information.
He is? (Score:2)
Makes sense (Score:3, Funny)
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Real scientists will know and acknowledge they don't know everything. The hacks think and try to convince you otherwise.
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There are plenty of very good scientists who actually are blindly arrogant, but still able to produce important work. And there are some modest people with a realistic understanding of the limitations of human kowledge who nonetheless have very little to contribute in terms of significant research.
Crick, for example, really believed that he had pretty much covered it all. He was arrogant beyond belief. Yet he is still a real scientist.
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Sometimes you have to ignore the bigger picture to make progress in the short term. Very few problems are solved trying to solve the macro picture without focus on the micro, IMO, and most macro problems are solved only after a shit-ton of micro problem solving. [Note: macro/micro doesn't refer to physical scale]
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Anyone who claims they do know everything about something is either lying or trying to sell you something.
I know this because I know everything about how people work.
Re:Surprise, surprise! (Score:4, Informative)
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Surprise!
We now know that most of junk DNA is STILL junk - it serves no direct purpose. That's about 60% of DNA. Of that 60% more than 45% consist of transposons.
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Retrotransposons do not have a direct purpose. In fact, you'll quickly develop multiple cancers if retrotransposons are allowed to propagate. They ARE selfish DNA.
For example, 13% of human genome consists of repeating http://en.wikipedia.org/wiki/Alu_sequence [wikipedia.org] which can cause multiple diseases.
It's speculated that junk DNA might be beneficial because it works as a buffer against mutation (unlikely) or as intra-genome source of additional mutations.
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Really, the same people? I think not. DNA that doesn't seem to get used in protein synthesis in the well-understood mechanisms as "junk" is, as I understand it, mostly an misperception of popularization, not something that has ever been the dominant understanding in the field.
Re:Surprise, surprise! (Score:5, Insightful)
Computer memory is actually a pretty good analogy for this: the "unused" DNA is not reachable by any "pointers" and thus wasn't important when eucaryote evolution began. Some of these areas are obviously non-coding ever-repeating nonsense sequences, others appear to be random information - exactly like unused RAM in a computer system. Of course, nothing in there is really random, it's just a product of whatever process happened to use the areas before.
Here's the catch, however. Just like a programmer who develops against an ancient API with a lot of well-known bugs and workarounds, some transcription mechanisms actually began to rely on the presence of the "useless" areas in order to work.
It's all a huge mess, the deeper you look, the less elegant it all becomes. For example, epigenetic mechanisms modify the meaning of DNA code depending on different contexts, as the article mentioned. But that's still not the whole picture. In order to create a protein, DNA is first transcribed into RNA, which then in turn gets executed in order to assemble the protein. However, the intermediate RNA information is modified beyond recognition before it is used. Then, after the protein is finally assembled, it too can be modified extensively. All of these steps are hopelessly interwoven, and they use zillions of chemical messenger signals in order to tweak an manipulate each other.
Genetics really is the worst spaghetti code project ever and I assume that more advanced (=complex) organisms really paint themselves into an evolutionary corner eventually, because the whole system - while beautifully specialized - is essentially becoming more and more difficult to alter meaningfully when radical change needs to happen.
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EX: The arrangement of your blood vessel's are not designed at the lowest level. They self balance and repair so each cubic mm of your body gets all the nutrients it ne
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because the whole system - while beautifully specialized - is essentially becoming more and more difficult to alter meaningfully when radical change needs to happen.
I am so tired of people raging on the US government on slahdot!
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"Junk DNA" probably hasn't been stated in any serious, meaningful way by genetics in decades, and probably was never meant to be taken seriously--especially since research in gene expression took off. Not to say that there aren't any junk DNA, there certainly are, but the media took something interesting a
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Global warming? Bueller? Bueller?
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