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Biotech Science

Genome Surprise 292

Catskul writes "Along with the news that the polished and (more nearly) complete human genome being published Monday, comes a surprising observation about the genome: We have substantially fewer genes than expected; between 27,000 and 40,000 as compared to an original estimate of 140,000." Update: 04/14 01:22 GMT by T : For everyone who can't look at a Z, headline updated with an S in "surprise."
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Genome Surprise

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  • by InterruptDescriptorT ( 531083 ) on Sunday April 13, 2003 @08:02PM (#5724251) Homepage
    Ingredients

    1 genome (preferably human)
    4 eggs
    1/4 cup flour
    1/2 teaspoon baking powder
    1-1/2 teaspoons dry mustard
    1 cup cottage cheese
    1 cup shredded Jack cheese
    1 cup shredded cheddar cheese
    3 chopped peeled green chiles
    One 16-ounce package frozen hash browns
    Shaker of paprika --dust top of casserole just before putting in oven - looks pretty.

    Preheat oven to 325 degrees. Spray a small casserole dish with vegetable oil spray, 7 to 8 inches square or round. Line the pan with 1/2-inch layer of potatoes. Beat eggs. Add dry ingredients and beat well. Blend in remaining ingredients. Batter will be lumpy. Pour in dish and bake 25-30 minutes.

    Serves 4.
  • We have substantially fewer genes than expected; between 27,000 and 40,000 as compared to an original estimate of 140,000."

    What 140,000 +/- 113,000???? that seems a bit bigger.

    What I want to know is if these are counting genes which are active in humans (i.e. activated by master genes) or are inactive genes (say for a monkey-like tail ;-)) counted too?

    I suspect I should spend more time reading the article :(
    • by Anonymous Coward
      Some of those oddities like tails are awfully curious to me. They're only somewhat inactive and are expressed in some people, and carry on down through their offspring - are they then really 'inactive' in the whole human scheme of things. ie some theoretical gene for "tail" or "no tail" for example, which is active would create a tail when present or not. But some fully inactive ones like "feathers" or "no feathers" which aren't used no matter what their state.

      I'd see genes like those for a tail as being a
    • by Anonymous Coward
      I happen to like my monkey-like tail thank you very much!

    • We have about as many genes as a mouse... but is the mouse _using_ all of its genes? Maybe the mouse is like a souped up Pentium 4 running WordPerfect 5.1 under DOS... and we're like the same Pentium 4 running AutoCAD under Windows XP.
  • I thought so. (Score:5, Insightful)

    by Capt'n Hector ( 650760 ) on Sunday April 13, 2003 @08:05PM (#5724272)
    We are simple creatures, no doubt. But the number of genomes does not point to our complexity. Rather, these genomes could be incredibly complex, controlling all sorts of things. They could intermingle, with no clear linear relationship between a single function and a single genome. It would have been easier to decode had there been more, because now it is clear that these genomes are more complex than originally thought.
    • Re:I thought so. (Score:2, Insightful)

      by glwtta ( 532858 )
      Frankly, I would have more faith in your scientific reasoning if you knew the difference between a gene and a genome.
    • The previous response notwithstanding, you're absolutely right. We're more complex than, say, an earthworm not so much in the number of our genes, but rather in the number of ways that they can be expressed. There are complex regulatory networks, messenger RNAs (the intermediates between genes and their protein products) can be spliced in various ways, etc. It's all very fascinating and mind-boggling, and a hell of a lot more complex than the genome sequence itself can reveal directly.
    • Re:I thought so. (Score:5, Insightful)

      by Spy Hunter ( 317220 ) on Sunday April 13, 2003 @08:35PM (#5724455) Journal
      Yeah, I was astonished at the stupid claims being made in the article based on this percieved lack of genes.

      The small number of genes is significant [because it means] we're not hard-wired

      It means no such thing! It could just mean that fewer genes are necessary to hard-wire us. Nobody really knows how much effect particular genes have on us, so saying that 140,000 would be enough but 40,000 isn't enough is just spewing hot air.

      The low number of genes means humans have as few as 300 more genes than a mouse and only twice the genes of the fruit fly. "A lot of people will find that philosophically disturbing," says theoretical biologist Jean-Michel Claverie

      I don't see why they should. More genes == more superiority? Who made up that rule? How about "better genes == more superiority"?

      The low number of genes [means] that there is no genetic basis for race.

      Totally not true. Of course race has a genetic basis. It is inherited, after all. Black people have black children. It just means that the number of genes necessary to determine race is smaller than we thought.

      ...how have we become so much more complex than other creatures, whilst having relatively few extra genes.

      I don't think it's any mystery. We're NOT "so much more complex!" The only part of us that is more complex is our brains. And animals have brains too, some of which are quite sophisticated by any measure of complexity.

      Looks like people are having a field day speculating about what this low number could mean. I think it just means that we were wrong before, and we still don't have a clue about how big an effect single genes can really have on an organism.

      • Re:I thought so. (Score:2, Interesting)

        by NedTheNerd ( 652808 )
        this is a little off topic but jsut a small fact (taken from the discovery channel) it takes roughly 20,000 years for the evoloution of white skin to black skin and vise versa. the further north you move the lighter your skin gets and is allso reduced in the amount of "natural sun screen" you skin has. and it was allso sugested that maybe the first humans where black because the harsh adaptation required to live in winter climates.

        Humans have allways been good at explaining why they are the better than som

      • Re:I thought so. (Score:5, Informative)

        by evilquaker ( 35963 ) on Sunday April 13, 2003 @09:59PM (#5724956)
        The low number of genes means humans have as few as 300 more genes than a mouse and only twice the genes of the fruit fly. "A lot of people will find that philosophically disturbing," says theoretical biologist Jean-Michel Claverie

        I don't see why they should. More genes == more superiority? Who made up that rule?

        The brightest minds of biology did, over 10 years ago... and so the central dogma of biology ("one gene => one protein => one function") was taught to a generation of students.

        Of course, this completely misses two of the biggest results in the last few years: the acknowledgment of alternative splicing as a common phenomenon (10 years ago, people thought it happened in 5% of human genes, now we know it's more like 50%) and the identification of miRNAs as regulators of gene function.

        But it's so hard to argue with dogma...

        • Re:I thought so. (Score:2, Insightful)

          by danudwary ( 201586 )
          The brightest minds of biology did, over 10 years ago... and so the central dogma of biology ("one gene => one protein => one function") was taught to a generation of students.


          Sorry. The "Central Dogma" is DNA->RNA->protein. Still true. Only the ignorant have misinterpreted it that way.


          (It's also been added to. For example we now know that occasionally RNA->DNA and once in a great while DNA->protein.)

        • Re:I thought so. (Score:3, Insightful)

          by Rutulian ( 171771 )
          The brightest minds of biology did, over 10 years ago... and so the central dogma of biology ("one gene => one protein => one function") was taught to a generation of students.

          Actually that is not the central dogma of biology. The central dogma is DNA -> RNA -> Polypeptide (Ref: Russell, Genetics, 1998). The one-gene one-enzyme hypothesis was proposed a long time ago, and yes it did earn a Nobel Prize, but it has since been altered to the one-gene one-polypeptide hypothesis. Gene expression h
      • Re:I thought so. (Score:3, Insightful)

        by skywire ( 469351 )
        Of course race has a genetic basis. It is inherited, after all. Black people have black children.

        If you were talking about skin colour, then this would make sense. But you are speaking about 'race', which is a word that is used to refer to a fuzzy concept that has no clear scientific definition. You might as well have said "Of course phlogiston flows. Things do change temperature, after all."
      • HAHAHA (Score:3, Funny)

        by geekoid ( 135745 )
        Mobo finds you puny earthling, with your 40,000 genes, quite humorous, and worthy of being devoured.
      • Re:I thought so. (Score:5, Insightful)

        by gilroy ( 155262 ) on Sunday April 13, 2003 @10:15PM (#5725045) Homepage Journal
        Blockquoth the poster:

        I don't see why they should. More genes == more superiority? Who made up that rule? How about "better genes == more superiority"?

        What the heck does "better genes" mean? For that matter, what does "more superiority"? Despite what everyone seems to want, evolution is not a moralistic process! There is no "superior" or "inferior". At best, there is "more fit" and "less fit" -- and even that is strongly location-dependent and time-evolving. In terms of survival fitness, it can be argued that, say, bacteria -- or insects -- way outperform humans. Sure, they don't build cathedrals or rocket ships, but what the heck does evolution care?
        • "Better" is a subjective word. I'm not here to argue the philosophy of "better" with you. IMHO philosophy is a mostly pointless exercise in intellectual masturbation. Philosophers who would be disturbed by the fact that humans don't have more genes than animals obviously do have some standard of "better" or "worse" in mind, so my argument would make sense to them. Feel free to ignore it.
        • they don't build cathedrals or rocket ships, but what the heck does evolution care?

          It cares quite a bit, as these tools help us get the basics of life, like food watter and sex.
          • Blockquoth the poster:

            It cares quite a bit, as these tools help us get the basics of life, like food watter and sex.

            But evolution doesn't care that we build rocket ships; it cares only about the food, water, and sex -- and really, not so much about the food and water. We get no special bonus points for achieving art, from an evolutionary standpoint; evolution has no use for art as art but only as reproductive-success enhancer.

            Of course this is just one reason why it's silly to use evolution as a groun

      • Its actually more complicated than that. Depending on the environment in which an organism resides, the number of genes (and the size of the genome) required to survive does vary. The article mentions ~27000 to ~40000 Genes in the human genome. Another well studied organism, the Hordeum Vulgare, has about 5 times the size of our genome. Would you say its more complex than you are? The ability to move makes us need far less genes than the H. Vulgare and many of its fellows. Its stuck in the ground, and have
        • Hum, never post lying in your bed being all sleepy.


          H. Vulgare is "barley", while Triticum Aestivum is "bread wheat".
          Sorry about that.

      • "The low number of genes [means] that there is no genetic basis for race."

        Totally not true. Of course race has a genetic basis. It is inherited, after all. Black people have black children. It just means that the number of genes necessary to determine race is smaller than we thought.

        There are studies (none of which I have a reference to at hand, sadly, so you'll have to take this as a hypothesis and do the research for my lazy ass this morning), that suggest race is an evolutionary adaptation to climate

  • Beware (Score:4, Interesting)

    by Anonymous Coward on Sunday April 13, 2003 @08:06PM (#5724280)
    This does not equal _gene expression_, or does not explain epigenetic effects.

    This kind of news always makes me wary. Did the reporters mean what the author had in mind? Yes, when it comes to genetics I am more suspicious, after all, as a political tool it is too powerful for lunatics to be based on empty air; if you see what I mean.

  • by Pettifogger ( 651170 ) on Sunday April 13, 2003 @08:08PM (#5724291)
    Does this mean that we're all inbred? I think I'm going to log off and go play my banjo with uncle grandpa for awhile.
  • by zach_smith ( 159760 ) on Sunday April 13, 2003 @08:09PM (#5724303)
    Along with the news... comes a suprising observation about the genome: We have substantially fewer genes than expected

    This observation was already made a couple of years back when the first draft was published. Note the date on the second link.
  • ... how many MB does a full install of a recent version of Office use, anyway? ;)

    Kidding aside, a lot of the purported "implications" of the finding aren't exactly new. From the article:

    The low number of genes discovered raises intriguing issues. One is that there is no genetic basis for race. All humans share 99.99 per cent of their genetic information and there is more variation within racial groups than between them.

    That's nothing new, though - scientists have known a long time there's no scientif

    • by Pharmboy ( 216950 ) on Sunday April 13, 2003 @08:25PM (#5724401) Journal
      That's nothing new, though - scientists have known a long time there's no scientific basis for the concept of "race" as applied to humans. It's a cultural construct.

      Not to argue with your basic idea there, but how does culture determine the similarities then? The fact that most native Africans have dark skin, most Northern Europeans are relatively fair skinned, and most Asians are notably shorter than Native Americans? There has to be some genes doing something. Or some other mechanism we have yet to discover.

      Our perception of 'race' is surely more exaggerated than the actual genetic differences alone justify, but race is more than genes. For instance: dictionary.com defines race as:

      * A local geographic or global human population distinguished as a more or less distinct group by genetically transmitted physical characteristics.

      * A group of people united or classified together on the basis of common history, nationality, or geographic distribution: the German race.

      * A genealogical line; a lineage.

      * Humans considered as a group.

      So race is neither purely genetic, nor purely cultural. We forget that sometimes.
      • by dspeyer ( 531333 ) <dspeyer&wam,umd,edu> on Sunday April 13, 2003 @09:55PM (#5724937) Homepage Journal
        Not to argue with your basic idea there, but how does culture determine the similarities then? The fact that most native Africans have dark skin, most Northern Europeans are relatively fair skinned, and most Asians are notably shorter than Native Americans? There has to be some genes doing something. Or some other mechanism we have yet to discover.

        Dark-skinned is not a race. "Black" is a race -- and very few black people have actual black skin (much less black teeth!). Races are cultural constructs that may include genetic/physical characteristics in their definitions. Some physical characteristics are often considered (e.g. skin color) and some (earlobe attatchment, blood type) are generally ignored. Furthermore:

        • USA custom dictates that an individual with one great-great-grandfather from Nigeria and the rest from England is black, completely irrespective of any alleles the individual may actually express or carry.
        • USA custom acknowledges "Hispanic" as a race, even though it carries no genetic correlation. It is roughly defined as an individual who's native language is an American dialect of Spanish, or the decendant of such a person to the fourth generation. Except Jamacans, who might be black. And including Haitians and Brazilians, or something like that.
        • Mexican custom dictates that an individual with one nigerian parent and one Castillian is black, mulatto, or white depending on the individual's net income. (Disclaimer: I haven't been to Mexico -- this is the finding of some random ethnographer.)

        What's probably most significant, though, is that the races which do correspond to genetic traits make no sense as biological characterizations. They don't match actual genetic difference groups at all. This is what is meant by the statement that races are purely cultural.

      • I think you didn't understand what that sentence meant. A "social construct" does not means that people's races are determined by culture; it means that societies (cultures) determine what consitutes "a race". In other words, "races" are just a simplified (and not necessarily accurate) way to define large sets of characteristics.

        But in fact culture does shape races, up to a point. For example, if you have a tribe (or country, or religion, etc.) where green-eyed women are considered "better", they will have
    • That may be, but race is still interesting.

      Race is not much more than a way of classifying people based on appearance. It might also hint at a shared cultural background, but not always. But it is still potentially useful.

      Nobody would say that the colour of a car should have anything to do with its handling. It's just paint, and has nothing to do with the insides. On the other hand, there are far more red sportscars than there are powder-blue ones.

      If people are willing to accept that, maybe th

      • Nobody would say that the colour of a car should have anything to do with its handling. It's just paint, and has nothing to do with the insides. On the other hand, there are far more red sportscars than there are powder-blue ones.

        That's because people can chose the color of their car. People cannot chose the color of their skin.

        Also, my car is light blue and it could kick your cars ass.
    • I don't get it, is this to say that if a black baby is raised by white parents, it will turn white? Huh? Did I miss something? If race isn't genetic, then what the hell is it? Is there something OTHER than genes that makes people white or black etc? If so then we know A LOT LESS about human biology than we think we do.
  • by Duckie01 ( 10586 ) on Sunday April 13, 2003 @08:11PM (#5724315)
    Along with the news that the polished and (more nearly) complete human genome being published Monday, comes a suprising observation about the genome: We have substantially fewer genes than expected; between 27,000 and 40,000 as compared to an original estimate of 140,000."

    I dunno about your perception of time, but how does an 12 February 01 observation come along with an 14 April 03 article?
    • Remember when they said that subscribers would be getting some stories before the rest of the /. populace?

      I think we're really starting to see it...
  • by rowanxmas ( 569908 ) on Sunday April 13, 2003 @08:16PM (#5724338)
    Being a biologist and one who worked on the Human Genome Project, the estimate of 27,000 - 40,000 refers to the actual number of transcripts produced by the cell ( that is RNA ) from the DNA.<BR><BR>
    DNA->RNA->Protein<BR><BR>
    rememberi ng this, and also remembering that each step increases the complexity, that is one strand of DNA can produce many different strands of RNA and each RNA can be spliced to produce many different kinds of proteins, and proteins can be bound together in differnt ways adding still more complexity.<BR>
    So yes, there are only 40,000 "genes" but closer to 140,000 gene products.
  • by chesapeake ( 264414 ) <(ten.wocehtraef) (ta) (trebor)> on Sunday April 13, 2003 @08:17PM (#5724347) Homepage
    We've known for probably close to two years now that we have ~30,000 genes, so this is really old news.

    From what I'm told, anyway, these aren't genes as such, just ORFs. We don't know what they all do, and we won't for a very long time.

    What is news is that we're so very close to completing it.

    Also in other news, the SARS virus has been sequenced. (Which should give you an idea of the difference in complexity).

    See here: http://www.smh.com.au/articles/2003/04/13/10501724 76291.html [smh.com.au]
  • paraquote: ...this gives us about twice as many genes as a fruit fly.

    quite an interesting comparison considering that the fruit fly is probably THE most genetically experimented on entity. this puts us (hu-mans) only a little further down the road, I can't wait. Where do I sign up for my bigger, faster, stronger, leaner, money making whatevers?
    • Re:NIce!!! (Score:2, Insightful)

      by Anonymous Coward
      full quote :

      "The low number of genes means humans have as few as 300 more genes than a mouse and only twice the genes of the fruit fly. "A lot of people will find that philosophically disturbing," says theoretical biologist Jean-Michel Claverie of France's national research centre in Marseille."

      Jean-Michel has obviously never heard of the idea of exponential complexity. The difference between (as a comparison) 2^15,000 and 2^30,000 is a real kicker.
  • This is news? (Score:4, Insightful)

    by the gnat ( 153162 ) on Sunday April 13, 2003 @08:18PM (#5724357)
    The small number of human genes was remarked about more than two years ago when the first "completion" was announced, and people who didn't know any better declared that it was "humbling" to find out that we had only twice as many genes as the fruit fly. (Actually, it's humbling that we still know so little about biology that the number of genes is a surprise.) The second article that's linked here is commenting on the intial publications, and is dated February 2001.

    By the way, I don't for a moment believe this "completion" crap - us poor bioinformaticists will still be digging errors out in ten years. And this doesn't take into account the many different polymorphisms that are as essential to understanding human genomics as the raw sequence is. That's just the way sequencing works, and it pisses me off to hear non-experts bloviate about the profound importance of the genome. It'll take years for it to become fully useful. I don't have a problem with this, because most scientific discoveries are like that, but the public seems to think that we can now cure cancer and tell how an embryo will develop. Right now it's just raw data, not results.

    One other thing that bugged me:

    But researchers will have to wait up to a year for the first analysis of it. "We're still discussing the timing on this," Collins says. A broad analysis could be published, or detailed chromosome-by-chromosome papers could be released.

    Um, I know of quite a few people doing analyses of the entire genome already. . .
    • Re:This is news? (Score:2, Insightful)

      by Punchcardz ( 598335 )
      [I]By the way, I don't for a moment believe this "completion" crap - us poor bioinformaticists will still be digging errors out in ten years[/I]

      Couple that with the fact that even though we have a blue print for "parts" we still don't have much of and idea as to what they do, how they work or how they interact together, and biologists will have their work cut out for them for quite some time.

      That will be the interesting part. Getting the genome down is a huge acomplishment and an increibly powerful tool.
  • by ekephart ( 256467 ) on Sunday April 13, 2003 @08:19PM (#5724365) Homepage
    Science: Genome Surprize
    Scientists still haven't found the gene for bad spelling...
  • by glwtta ( 532858 ) on Sunday April 13, 2003 @08:20PM (#5724369) Homepage
    I need to know how many genes we have in Libraries of Congress - these numbers just don't make any sense otherwise.
  • by jabber01 ( 225154 ) on Sunday April 13, 2003 @08:20PM (#5724370)
    It does mean that we have great low level instruction optimization, however. Built-in compression, at the hardware level.

    27k base pairs you say? Each one being one of a possible four, making it representable with two bits? Faboo... You can store a complete human blueprint in under 14KB. Lets start encoding and launching our codes all over creation, as self-extracting executables, of course. Homo Sapiens cum Code Red. Digital panspermia.
    • by vondo ( 303621 ) on Sunday April 13, 2003 @08:52PM (#5724565)
      No, a gene is not a base pair, it is a string of base pairs. I don't know how many, on average, but the relevant parts of our DNA (some 3 billion base pairs) occupy considerably more than 15K.
      • by Galvatron ( 115029 ) on Sunday April 13, 2003 @10:18PM (#5725065)
        Assuming 3 billion base pairs, that'd be 1.5 billion bytes, or just under 1.4 gigabytes. Since there are a small number of 3 base pair groupings that make up all of the amino acids (if I remember my high school biology, which I may not, feel free to correct me), this is probably heavily compressible. We should be able to wedge it onto a CD-ROM. Even uncompressed, your genome will fit on a DVD.

        You're right, it's a hell of a lot more than 15 K, but it's still pretty transportable.

        • Yeah, but as I understand it, the vast majority of those 3 billion are just filler and don't belong to any gene, so it's even smaller than what would fit on a CD, I'd guess.
          • We assume that is useless DNA, but if we took it out, I have a feeling we'd have problems.

            Nature tries to optimize to remove unnecessary baggage. I'd assume that at least some of that "useless" DNA has some sort of purpose, probably working in some way we haven't discovered yet.
  • Suddenly (Score:5, Funny)

    by cyril3 ( 522783 ) on Sunday April 13, 2003 @08:25PM (#5724400)
    I'm only half the man I used to be.

    Damn you scientists.

  • Background Info (Score:5, Informative)

    by Acidic_Diarrhea ( 641390 ) on Sunday April 13, 2003 @08:26PM (#5724408) Homepage Journal
    Want To Know What The Human Genome Project Is?

    Begun formally in 1990, the U.S. Human Genome Project is a 13-year effort coordinated by the U.S. Department of Energy and the National Institutes of Health. The project originally was planned to last 15 years, but rapid technological advances have accelerated the expected completion date to 2003. Project goals [ornl.gov] are to

    • identify all the approximate 30,000 genes in human DNA,
    • determine the sequences of the 3 billion chemical base pairs that make up human DNA,
    • store this information in databases,
    • improve tools for data analysis,
    • transfer related technologies to the private sector, and
    • address the ethical, legal, and social issues (ELSI) that may arise from the project.
    To help achieve these goals, researchers also are studying the genetic makeup of several nonhuman organisms. These include the common human gut bacterium Escherichia coli, the fruit fly, and the laboratory mouse.

    A unique aspect of the U.S. Human Genome Project is that it is the first large scientific undertaking to address the ELSI implications that may arise from the project.

    Another important feature of the project is the federal government's long-standing dedication to the transfer of technology to the private sector. By licensing technologies to private companies and awarding grants for innovative research, the project is catalyzing the multibillion-dollar U.S. biotechnology industry and fostering the development of new medical applications [ornl.gov].

    Sequence and Analysis of the human genome working draft was published in February, 2001, in Nature and Science. See an index of these papers [ornl.gov] and learn more about the insights gained from them [ornl.gov].

    For more background information on the U.S. Human Genome Project, see the following

    What's a genome? And why is it important?

    • A genome is all the DNA in an organism, including its genes. Genes carry information for making all the proteins required by all organisms. These proteins determine, among other things, how the organism looks, how well its body metabolizes food or fights infection, and sometimes even how it behaves.
    • DNA is made up of four similar chemicals (called bases and abbreviated A, T, C, and G) that are repeated millions or billions of times throughout a genome. The human genome, for example, has 3 billion pairs of bases.
    • The particular order of As, Ts, Cs, and Gs is extremely important. The order underlies all of life's diversity, even dictating whether an organism is human or another species such as yeast, rice, or fruit fly, all of which have their own genomes and are themselves the focus of genome projects. Because all organisms are related through similarities in DNA sequences, insights gained from nonhuman genomes often lead to new knowledge about human biology.

      To understand more read

  • by boatboy ( 549643 ) on Sunday April 13, 2003 @08:26PM (#5724411) Homepage
    scientist 1: Hey have you seen gene #40,001?
    scientist 2: It was just here with the others next to my sandwich...Oh.
    scientist 1: Great, you ate 40,001 through 140,000! Forget this.
    scientist 2: But what'll I tell the press???

    ***
    ...In other news scientists revealed today that we have substantially fewer genes than expected; between 27,000 and 40,000 as compared to an original estimate of 140,000. Experts say that this discovery means that chimpanzees are even more like humans than people are...
  • by eidechse ( 472174 ) on Sunday April 13, 2003 @08:27PM (#5724418)
    "What we've got now is what we'll have for all eternity"

    Perhaps in the future we'll get to see this next to:

    "Everything that can be invented has been invented." -Charles H. Duell

    "640k should be enough for anybody." - Bill Gates

    I grant that this particular case may seem less "philosophical" than the cases in the quotations above but a "stick a fork in it...it's done" mindset is not only arrogant but detrimental to science as well.
    • "Everything that can be invented has been invented." -Charles H. Duell

      Rest of the quote is that he, the director of the patent office, was requesting more funding, and that
      "Anyone that would deny my must think that everything that can be invented has been invented"

  • "People think genes are an absolute cause of traits. But the notion that the genome is the blueprint for humanity is a very bad metaphor," he says. If you think we're hard-wired and deterministic, there should indeed be a lot more genes."

    I admit he's much smarter than me, but couldn't it just mean that each gene carries so much information as to make it deterministic?

    • This topic is actually a focus of much research.

      Because the concentrations of many gene regulatory proteins are so dilute/low, there exists significant fluctuations in the number of molecules that actually regulate the gene's expression. These fluctuations vary from time to time and from cell to cell, producing non-deterministic levels of gene expression. The non-determinism (called stochasticity) can cause some very interesting behavior that leads to numerous potential 'states' of gene expression versus a
  • by gilesjuk ( 604902 ) <giles.jones@nospaM.zen.co.uk> on Sunday April 13, 2003 @08:32PM (#5724439)
    He'll sue citing the DMCA.
  • Simplistic thinking (Score:3, Informative)

    by dh003i ( 203189 ) <dh003i@@@gmail...com> on Sunday April 13, 2003 @08:45PM (#5724495) Homepage Journal
    The complexity of organisms is not solely determined by how many genes they have. There are many other factors. One of them is the expression level of different genes. Differentially expressed genes in different cells leads to different cell types, which form tissues, organs, and overall complicated organisms. There are also other ways of conveying information from one generation to the next other than genes. There is an entire epigenome out there -- non-bp modifications to the DNA (e.g., methylation of DNA) and DNA structure (e.g., methylation of Histone-3's at the Lys 4 and 9, v. acetylation at those sites, v. phosphorylation). This relates to imprinting. For interesting reading, do NCBI searches on the following expressions:

    Epigenetics
    Imprinting
    Histone Code
    Imprinting Histone Code

    Various epigenetic (that is, above the DNA-bp level) states are epigenetically inherited. They often determine chromatin structure, and are involved in a war between maternal and paternal genomes, genetic conflict. And, they contribute to creating a much more cmplicated organism than the number of genes alone would indicate.

    Also, it is important to notice that more complex eukaryotes tend to have more transcription factors, zinc-finger proteins, and so on and so forth. The number of regulatory proteins has mushroomed as organisms become more complicated. It is clear that one of the most important things in determining the complexity of organisms is the differential regulation of various genes.
  • Not to undermine the significance at mapping the genes, but they're the first step. The next is proteins, the building blocks of life described in DNA. They do everything, so naturaly they are being studied closely by biologists and drug companies.

    So what if there is fewer genes than expected? It means that the means of describing protiens is not linear. Protiens can fold four different ways, offering many different structural combinations.

    The highest level biological system we understand completely is a

    • They do everything, so naturaly they are being studied closely by biologists and drug companies.

      And have been for years. Studying proteins in parallel ("proteomics"), however, is a fairly recent innovation, just as genomics grew out of molecular genetics. It'll take a while before we can study proteins at the same scale as genomes. There are efforts now to scale up the process of structure determination through what's (rather inappropriately) called "structural genomics" - I've been working in this fie
  • Gene advances. (Score:2, Flamebait)

    by cliffy2000 ( 185461 )
    It's really not too hard to get a superior human race. Just don't let stupid or fat people procreate. Darwin didn't need any of them gene therapies to figure that one out.
    (Sorry, I must have offended most /. readers with that one. Don't worry... you'll be allowed to procreate!)
    • "Okay, Dilbert is polite, honest, employed, and educated. And he stays home. These are good traits, but they don't explain the incredible sex appeal. So what's the attraction? I think it's a Darwinian thing. We're attracted to the people who have the best ability to survive and thrive. In the old days, it was important to be able to run down an antelope and kill it with a single blow to the forehead. But that skill is becoming less important every year"
      -- Scott Adams, The Dilbert Future
    • As much as I'm against racism, this man is right. Our reproductive system is a product of thousands of years of evolution. I wholely believe that if the human condition had remained to be "Survival of the Fittest" as opposed to "Equal opportunity for everyone," the human race would be completely different right now. Our "super-athletes" would be dime-a-dozen and our supermodels would be of average attractiveness.

      Darwin was a very insightful man, we would do well to remember that.
      • if the human condition had remained to be "Survival of the Fittest" as opposed to "Equal opportunity for everyone," the human race would be completely different right now.

        This "equal opportunity" idea didn't have much impact till the 18th Century (French and American Revolutions). Even then, it had little impact on daily life till perhaps post WWII. So this process, if it exists at all, has had little chance to degrade the human race, and that in only a few First World countries.

        Look at some places much

  • by Mars Ultor ( 322458 ) on Sunday April 13, 2003 @09:20PM (#5724736) Homepage
    While I'm certainly not a learned expert, as a new graduate of an Honours Genetics program in Canada, I feel I must point out a few misconceptions found in the story intro.

    I let out an audible groan over the 'revelation' that the human genome contains at most 40,000 genes, compared to the original estimate of ~150,000. I was relieved when I noticed that the article linked to dated to 2001. This makes sense, since that discrepancy was first discussed during my courses over two years ago.

    The other grain of salt that needs to taken is the idea of a "completed" genome. The human genome is nearly sequenced, however it the annotation of the genome that matters most. To place this into context, the genome of the fruit fly, Drosophila melanogaster, is over 75% annotated. Currently only a small portion of the human genome is annotated, that is to say, the roads are mapped, and the streets (or in this case, genes) are identified and their function characterized. This is one of the most essential tasks still facing biologists today. Without knowing all the potential genes, as well as their function and expression patterns, the human genome is no better a guide than using a globe to navigate the streets of Toronto (or New York, take your pick).

    As it has been mentioned before, I won't delve too far into the fact that a given stretch of DNA can code for genes in two different directions, and in three different "frames" per direction. On top of this, the mRNA produced from the DNA can be spliced in numerous ways. A single expanse of DNA can produce countless different proteins - and its proteins, not genes, that carry out all the functions our body needs to survive.

    Humans are extremely complex, but as we go about our 'very' important lives, it's humbling to know that on the surface, we do not contain many more genes than some other 'lesser' forms of life on this planet.
  • Counting method (Score:2, Informative)

    by pdan ( 624244 )
    As far as I know, there is no easy method to distinguish a gene from other parts of DNA sequence. In order to get such an estimate heurictic algorithms that look for characteristic patterns in the sequence are used. Therefore it is hard to say about proofs. These are only estimates, which can be more or less justified. Searching methods are of course tested on other organisms which are better known (e.g. Drosophilia), but we are not really aware of differences and similarities in gene expression of mention
    • As far as I know, there is no easy method to distinguish a gene from other parts of DNA sequence. In order to get such an estimate heurictic algorithms that look for characteristic patterns in the sequence are used.

      "Easy", no, but the methods are better than you think. It's been a while since I've read on this in detail, but there are three techniques which may be used, and which are usually combined:

      1. De-novo gene finding. Genscan and its successor GenomeScan are good examples - they look for RNA sp
  • by Salis ( 52373 ) on Sunday April 13, 2003 @10:17PM (#5725060) Journal
    The assumption that each gene codes for one protein is usually false. But, regardless of that, there exists an additional "degree of freedom" that biological organisms can utilize in order to allow themselves to assume as many "states" of gene expression as possible.

    The topic of stochastic gene expression is becoming more interesting recently because of further advances in studying single-cell gene expression and the design of genetic regulatory networks.

    Because the concentrations of many gene regulatory proteins are so dilute/low, there exists significant fluctuations in the number of molecules that actually regulate the gene's expression. These fluctuations vary from time to time and from cell to cell, producing non-deterministic levels of gene expression. The non-determinism (called stochasticity) can cause some very interesting behavior that leads to numerous potential 'states' of gene expression versus a single, deterministic state.

    So, on a very real basis, probability has a lot to do with how certain genes are expressed. Successful biological systems, however, hate random chance unless it's advantageous. These certain genes that utilize the internal noise of a "small" biological system do so because it gives some sort of advantage to them..either coding for numerous possible states with the least number of genes or for allowing the cell to randomly pick between possible states in order to create a heterogeneous cell population.

    If you're interested in some scientific articles, try Adam Arkin's paper from 1998, detailing a stochastic simulation of a virus that attacks E. coli cells. The virus randomly selects whether it will replicate itself quickly and burst the cell open or integrate itself into the bacteria's genome and sit dormant. The probability of each event depends on the state of the bacteria at the time of infection. If the bacteria is starved, the virus goes dormant. If it's healthy, the virus goes into replication mode.

    Salis
  • by rabtech ( 223758 )
    Just wait until some drunken researcher runs the whole thing through un-zip and finds a hidden video from God.

    On a more serious note, is anyone shocked to learn that our genetic code is compressed? Seems more efficient to me.
  • by EngMedic ( 604629 ) on Sunday April 13, 2003 @10:30PM (#5725122) Homepage
    remember, folks.. just because we have a genetic sequence is about 10% of the story. Proteomics is the next big thing, and there are a lot more protiens than genes.
  • Well... Duh. (Score:2, Informative)

    by Aetrix ( 258562 )
    All of these observations of having 140,000 genes were made well before ANYTHING had been sequenced, worms, corn, or humans. That was way back in the ancient days of Genetics when geneticists didn't realize how much interaction and recombination there was between genes. Many of the gene estimates came from crude estimates involving antibodies in the early 80s. We knew that we had tens of thousands of antibodies and so they assumed we had oodles of genes to make antibodies. Geneticists realized later tha
  • by roffe ( 26714 ) <roffe@extern.uio.no> on Monday April 14, 2003 @01:21AM (#5725994) Homepage

    It's been a popular misconception in the popular media for a long time that traits that are learned are malleable, whereas traits that are innate or genetic are not. This is not the case. The malleability of a trait depends on how it is implemented in the body, not on whether it is inborn or learned.

    The simplistic view of the importance of genetic contribution probably stems from the way genetics is taught in school. Your eye color is genetically determined and eye color does not change. However, the reason why eye color does not change is not that it is inherited by genetic inheritance, but because eyes are constructed the way they are.

    This is one of the reasons why psychologists worry much less about heritability of traits than they used to. The malleability of any given trait remains an empirical question. Your genes don't know how heritable they are.

    For an interesting discussion of heritability and malleability, read Plomin et al's Behavioural Genetics - or the brief version here [iusb.edu].

  • Woo Hoo.... (Score:3, Interesting)

    by xA40D ( 180522 ) on Monday April 14, 2003 @02:22AM (#5726153) Homepage
    But so what? What's this mean? All the news programs tell me how this is going to bring an end to disease a longer life for all of us etc., etc. But nobody ever tells how. And everybody is supposed to have unique DNA, so whose DNA have they decoded? Not mine. So how does this help me?

    It seems to me there is an awful lot of hype surrounding the Human Genome Project.

    I can print my kernel on A4 as 1's and 0's - Does this mean an end to security vunerablilities an better use of memory?

  • Nah nah! You only have 39,999 genes! *I* have 40,001 genes! You SUCK! Hahahahaha!

    -
  • What? No download links?

    Grr.. guess I'll have to search guntella for "human genome".

The 11 is for people with the pride of a 10 and the pocketbook of an 8. -- R.B. Greenberg [referring to PDPs?]

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