"The trick to the technique was in acquiring a discrete strand of DNA that could be stretched out and ready to view with an electron microscope. Di Fabrizio managed this by creating a pattern of pillars that repelled water, which resulted in quick moisture evaporation and a residual strand of DNA all ready to go. Then, in order to create a high-resolution image, Di Fabrizio drilled tiny holes in the base of the nanopillar bed and shone beams of electrons". This technique will also be a breakthrough in observing DNA in greater detail along with being able to see how it interacts with RNA and proteins.
This is a great breakthrough in science, and one that I did not even realize that had not happened yet. I was under the assumption that an image of DNA had already been created. With the ability to take images of DNA at this resolution, and hopefully being able to observe its interactions with RNA and proteins, I'm interested to see where this will all lead.
This is really incredible. I had no idea that this hadn't been done either. Who knows how long it will take to get a clear picture like the drawings in textbooks and such.
ReplyDeleteLooking at this picture, makes what we learn in class, make sense. I've never seen a clear picture like this before, and i agree with warren, and soon there will be a clear picture before we know it.
ReplyDeleteThis is a very cool picture to see. Rosalind Franklin would be proud of how far our technology has come in the ways of genetics. I also hope that I am around to see a clearer picture of the DNA double helix.
ReplyDeleteIt is truly amazing to actually be able to see the double helix we have been learning throughout the duration of our biological studies. I only wonder now what can be learned from a detailed photograph of DNA. Will it create new discoveries or will it just confirm what we already know? I guess only time will tell!
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