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Post by skytroll on Sept 24, 2007 1:31:19 GMT -5
Are you one with your computer, inerting and deleting proteases and exchanging data yet? Protein folding is about folding .....inserting proteins.....exciting them........If a lot of protein folding has to go on because the prion that works with the nacre from the diatom, and the electrical conduits in the Sup 35 can tap and pull the cylindrotheca fusarium into our nano devices, and can move that neuroworm around and by the freq of the near infrared and the wireless technology from the nacre that keeps building that glass nanotube inside the the other one that sends a signal back out, guess we won't have to plug anything in anymore. Probably won't even need to eat because the nano in the computer proteases will keep making more proteins for us. WOW......I am so excited already! www.biochem.ucl.ac.uk/bsm/ligplot/manual/8gch.gifThis give you an idea. skytroll
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Post by skytroll on Sept 24, 2007 2:20:26 GMT -5
TRP 252 (C) lets look at that. www.biochem.ucl.ac.uk/bsm/ligplot/manual/man1.html Now this LigPlot is a schematic model, but, will this model be able to interact at some point, I think so. Can design the drug.....as they view the molecules with a molecular microscope or as they view you in front of a computer.........at the docts office, he can see the molecular structure, and then just grab some proteins, enzymes, or genes out of the cupboard and put the drug together right in front of you. Okay.....then....... www.pharmainfo.net/pharma_student_magazine/student_articles/bio-computing_and_computer_aided_drug_designing/But, the real aim is connected to the supercomputer.......mmmmmmmmmm Which will most likely use the Thermal Imaging satellites.......to see right into you. Oh, wait that would be the Atomic microscope that can look at the very molecular atoms. Okay, we ready for the convergence? the singularity? .........ooooooohhhhhhhhhaaaaaaa! Abstract The use of self-assembled materials as templates and structure-control agents in materials synthesis is both common and a rapidly growing area. However, the subset of work that focuses on cylindrical, rodlike and wormlike self-assembled micelles is under-utilized given the potential of these materials for synthesizing anisotropic materials. In recent years, there has been progress in polymerization of wormlike micelle systems at different length-scales and in the use of wormlike micelles as templates to control the morphology of materials grown in or around the aggregates. Keywords: Templating; Wormlike micelles; Surfmer; Block copolymer; Nanoparticles; Polymerization tinyurl.com/2bqxmyAbstract Over the past 2 years, various symmetrical and unsymmetrical bipolar amphiphiles (bolaamphiphiles) have been synthesized to study their self-organizing and packing properties alone as well as in mixtures with conventional amphiphiles. This review focuses on the lyotropic properties of these bolaamphiphiles and describes their in some cases quite unusual supramolecular self-assembling properties in aqueous media and at the air–water and liquid–solid interface. Keywords: Bolaamphiphiles; Bipolar lipids; Monolayers; Self-assembly; Hydrogels tinyurl.com/2zzsp3Bipolar lipids, bolaamphiphiles? ceramic is the nacre? Notice the home page UNESCO is involved with this! 64.233.167.104/search?q=cache:whaqhsT2uAwJ:academic.sun.ac.za/unesco/PolymerED2002/Contributions/Naidoo%2520A.pdf+&hl=en&ct=clnk&cd=6&gl=ustinyurl.com/2ryqcqUNESCO: note the matrix imaging? portal.unesco.org/ci/en/ev.php-URL_ID=1657&URL_DO=DO_TOPIC&URL_SECTION=201.htmlen.wikipedia.org/wiki/UNESCOendocytosis: www.endocytosis.org/Dynamin/GTPbinding-residues.htmlskytroll
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Post by skytroll on Sept 24, 2007 2:25:39 GMT -5
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Post by lilsissy on Sept 24, 2007 9:23:16 GMT -5
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