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Nature's Antibiotic Factory

Posted by michael on from the no-paid-overtime dept.

Vancouverite writes "The genome of Streptomyces coelicolor is unveiled and published in Nature. It and its relatives produce two-thirds of the natural antibiotics in use, including tetracycline and erythromycin, plus other pharmaceuticals such as anticancer agents and immunosuppresssants."

13 comments

  1. Hooray for Genome Research! by roberto0 · · Score: 2, Interesting

    This is a wonderful announcement, but as I can see from the lack of comments in this discussion, not an exciting one.

    About 5 years ago, the unveiling of a newly sequenced bacterial genome was cause for great celebration. Today, there are over 40 species of bacteria whose genome has been completely sequenced. While the addition of one more "bug" might not be that exciting nowadays, one must realize that the compilation of this kind of information has far-reaching effects in the fields of medicine and biology.

    For more info, check out The Institute for Genomic Research

    --
    Those who can, do. Those who can't, simulate.
  2. Antiboitics by Medevo · · Score: 1

    Hopefully with the discovery of this DNA code, we will be able to manipulate it and create new antibiotics

    Medevo

    1. Re:Antiboitics by Cenam · · Score: 0

      wow..you stated the obvious and used a quote from thinkgeek.com, thats impressive

      --

      The Truth: There is no string:)
  3. well by Mordaphin · · Score: 1

    well, this sounds like a good thing indeed. Hopefully it will save many lives, but only the superior beings.. Humans in general need to be destroyed.

    --
    I am the Alpha and the Omega.
  4. It certainly is an exciting one by leonbrooks · · Score: 2
    I can see from the lack of comments in this discussion, not an exciting one.
    Sorry, did I just see you trust the judgement of SlashDot readers? Dear me! (-:

    This particular sequence is of great historical interest, and will make available a well-known sequence for students to compare with DNA fragments of their own copies of the beast. I think that makes it exciting.

    It's kinda telling that (1) nobody seems to have noticed or mentioned here that DNA is not the only way of inheriting cellular information and (2) we are still borrowing microbes to do the actual manufacturing, rather than doing it mechanically ourselves.
    --
    Got time? Spend some of it coding or testing
    1. Re:It certainly is an exciting one by diaphanous · · Score: 3, Interesting
      (1) nobody seems to have noticed or mentioned here that DNA is not the only way of inheriting cellular information

      This seems like a trivial statement, though underemphasized in the popular media. Any organelle or chemical that is passed from parent to progeny is "cellular information"

      (2) we are still borrowing microbes to do the actual manufacturing, rather than doing it mechanically ourselves.

      Microbes have had billions of years more than homo sapiens to "discover" and test new anti biotics, it would be remarkable if we had surpassed them in cleverness in the few centuries we've studied them. We have gotten better at somethings though; 16 years ago if you wanted to clone a gene, the typical way to do it was to insert it into the E. coli genome, wait for the bacteria to divide several times and harvest the dna. Now its often done using polymerase chain reaction (though this does still require using a DNA polymerase from a thermophile, so we can't quite declare independence from the rest of nature.)

      --phillip
  5. Re:Antiboitics (sic) by lohen · · Score: 2

    You're overlooking the magnificent typo in the title ;)

    --
    "What is freedom of expression? Without the freedom to offend, it ceases to exist." Salman Rushdie
  6. messing around with drug resistant bugs by hij · · Score: 3, Insightful

    From the article it sounds like this bug produces toxins that kill other bugs so that it has an advantage. This implies that this bug is itself resistant to many of the anti-biotics derived from it. I certainly think that good things could come out of this, but it does sound a bit precarious to mess around with a bug that could easily be resistant to some of our most effective drug treatments.

    --
    Believe nothing -- Buddha
    1. Re:messing around with drug resistant bugs by SuperAbe · · Score: 2, Informative

      Streptomycetes are a part of a larger 'family' of bacteria - the Actinomycetes - and a group that is responsible for about 60% of the ~11,000 extant antibiotics. Erythromycin, neomycin, streptomycin, tetracycline - all are isolated from members of the Streptomyces genus.

      In addition, while organisms are resistant to the deleterious effects of the chemicals they produce, the remain sensitive to other antibiotcs (i.e. bacteria that produce erythromycin are still tetracycline sensitive).

      Check out the following page for more background info on S. coelicolor.

    2. Re:messing around with drug resistant bugs by skilef · · Score: 2, Insightful

      but it does sound a bit precarious to mess around with a bug that could easily be resistant to some of our most effective drug treatments

      This bug is not the only one resistant to these antibiotics: most antibiotics are far more effective on one specific subclass of bacteria and leave other bacterial cells intact. The subclass depends in almost all cases on morphological differences that can be seen by staining or directly with a microscope. Penicillin for example is far more effective to Gram-positive bacteria than Gram-negative bacteria. The difference between those two is that Gram-positive bacteria have far more peptidoglycan (the substance Penicillin reacts with) in its membrane than Gram-negative. Therefore only classes of bacteria with a threedimensional network of peptidoglycan in their membrane are targeted with penicillin.. It's not like this bug described above is more dangerous because it's not affected by its own secreted antibiotic.

      --

      You do not exist. Go away.
  7. Extranucleic genetic information by leonbrooks · · Score: 2

    Possibly, I've just invented that word. If so, I hope it's appropriate. (-:

    It's not as trivial as many geneticists would like to hope. Information passed along in this manner can impact how DNA is expressed.

    What this means in real terms is that there's suddenly a whole pack of other possible information sources to consider besides DNA, when predicting what will happen in the final organism, as if it wasn't already far too complicated for comfort.

    Decoding of the general implications of a genome may be significantly altered (or not) by an `environmental' factor from these sources toggling expression of a gene within that, er, nome. Grandson Arnold, 39, would probably agree.

    Presumably-modified DNA inserted into a host cell may develop in unexpected ways due to `interference' from information inherent to the host cell.

    It would be remarkable if we had not surpassed a bacterium in cleverness, but that's irrelevant to evolutionary processes. Natural selection is at best extremely loosely coupled to cleverness. In fact, in many classes and workplaces I've been in, being a smartass is a definite non-survival trait. However, either bacteria need to have ways of rapdily generating and trialling random genetic combinations that we know nothing about, or our universe is quite some orders of magnitude too young. That accelerated generation-and-trial mechanism could count as a type of cleverness, depending on your rating system. Plasmids don't cut it since they're a method of data exchange, not a method of invention.

    --
    Got time? Spend some of it coding or testing