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Biotech Science

Double Helix: 50 Years of DNA 33

Dr from the Source writes "Despite previous posts, tomorrow (April 25, 2003) is the real 50th anniversary of the publication of the famous paper by J. D. Watson and F. Crick in the Nature journal. Readers can download such paper, along with a few other classic ones from Nature's archive."
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Double Helix: 50 Years of DNA

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  • Nova [pbs.org] had a really great program this week about Rosalind Franklin who did all the crystallography work. Apparently Watson and Crick stole her data and that's what enabled them to come up with the double helix model.
  • Rosalind Franklin (Score:4, Informative)

    by Hard_Code ( 49548 ) on Wednesday April 23, 2003 @09:43PM (#5796159)
    For those who didn't catch the Nova episode.

    Rosalind Franklin [accessexcellence.org]

    Rosalind Franklin was a brilliant [female] scientist specializing in x-ray crystalography. It was Rosalind Franklin that identified two forms of DNA, and correlated their diffraction images with the helix shape. Watson and Crick were secretly, and intentionally passed Franklin's in-depth research (some would say "stole"). If Franklin had not died of cancer (probably due to working so much with radiation) at such a young age she would have undoubtedly presented the discovery of the helix nature of DNA (she was far ahead of Watson and Crick, while they were still fscking around with broken models). Watson went on to write The Double Helix, which slandered Franklin, to which even Crick objected. Franklin's paper on DNA was published in the same journal as two other papers (one of which was Watson/Crick's), AFTER the other two, and EDITED without her knowledge to imply that her research merely confirmed rather than provided the foundation for Watson's and Crick's work. After being made so miserable working at the same lab with Watson and Crick, she went on to other things briefly virus research, in which her partner, surprise again, also won a Nobel prize.

    Personally I think it is a damned shame. We should be celebrating Rosalind Franklin. Or at the VERY LEAST we should have (and should still) heard her name. Crick and Watson really come off as clueless chauvanistic assholes. Granted, a Nova episode is one data point, but usually their programs are really good, and I'd like to hear other opinions if other people know more about this issue.
    • Re:Rosalind Franklin (Score:2, Interesting)

      by Vellmont ( 569020 )
      I saw the Nova special, and found it to be extremely biased.

      If Franklin had not died of cancer (probably due to working so much with radiation) at such a young age she would have undoubtedly presented the discovery of the helix nature of DNA

      Franklin died 4 or 5 years after the publication of the Nature article, so she had plenty of time to publish anything related to her DNA work.

      Watson went on to write The Double Helix, which slandered Franklin, to which even Crick objected.

      Crick objected to

      • i also found that program to be surprisingly biased, i had expected nova to be much more objective in its approach to these things.

        i _do_ think that franklin was screwed, but by all accounts, she was a bit of a snob herself, and made it very difficult to work with her at an equal level. the program seemed to simply dismiss this as a woman struggling in a mans world, but that doesn't change the facts.

        one thing struck me as very interesting. this photo 51 that they talked about, apparently, franklin had h
  • by airuck ( 300354 ) on Wednesday April 23, 2003 @10:11PM (#5796300)
    Then:
    I believe Watson and Crick's solution to DNA structure was a fabulous achievement, but press should also be given to Hershey and Chase's 1952 experiment [mit.edu] proving DNA as the genetic material. Of course, they too rested on the shoulders of giants in chemistry and biology, but their work has equal claim to initiating an era of reverse engineering hereditary mechanisms [accessexcellence.org].

    Now:
    Biology has come a long way reverse engineering life, but still has a long way to go. Unlike systems composed of similar components interacting to create a complex and often unpredictable outcome, life is composed of a huge variety of components which can interact to create stable outcomes (homeostasis). As we identify the individual components and subsystems, a new field is emerging. This field, called systems biology [stanford.edu], is about modeling this complexity.

    Now/Next:
    Perhaps most exciting, there now exists enough information to begin forward engineering life. In living systems we have the ultimate collection of both components and subsumption architectures for making complex systems. Rodney Brooks [umich.edu] was brilliant for modeling his robots after living systems, but a living system can be the starting point for further engineering. This work has begun, but consists mostly as limited applied science with pharmaceutical, agricultural, or industrial enzyme goals. Is anyone (else) engineering life for the sake of engineering?
    • Y'know, given how difficult it is for us and all of our technology to even consider forward-engineering from borrowed parts, one has to wonder how life as we know it came together in the first place. The complexity involved is well over the top of anything which can be produced by randomising and selecting - without a plan for making those selections - in any finite time.
  • Rosalind Franklin (Score:2, Informative)

    by dasunt ( 249686 )

    For the curious, googling for "Rosalind Franklin" is rather informative.

    And no, this isn't offtopic.

  • Not enough data (Score:4, Interesting)

    by roberto0 ( 242247 ) <roberto0@gm[ ].com ['ail' in gap]> on Thursday April 24, 2003 @01:45PM (#5801690) Journal
    The actual article is funny because they never would have gotten it published if they didn't propose the mechanism for DNA replication in the same breath.

    At the time, crystallography was something geologists did in order to study the composition of rocks. The idea of using xrays to study the crystal patterns of biological molecules was really new at the time. Franklin deserves credit for being innovative in that regard. The real credit that Watson and Crick deserve was that once Crick saw that the structure was a double helix, they were able to put together a decent model for DNA replication. Something people had only guessed about before. Their model wasa still a guess, at best, but they turned out to be right!

    The funny part about the whole thing is that the diffraction pattern that they analyzed was no bigger than your fingernail. The picture in the Nature article has actually been blown up from its original size, if you can believe that. Kind of scary how something so important could have been determined by studying something so blurry and small...

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