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Post by skyship on Oct 15, 2009 15:28:16 GMT -5
Have any of you seen this? notice the correspondence between author and Frietas. and link to Carnicom's research. morgellons1.wordpress.com/......My methodology has been very simple. I take dried lesion particles from the inside of the skin and place them directly into the Petri Dish, no blood is involved, I used nutrient agar as my culture medium and photographed directly into the Petri Dish using 100x in most cases, with a fairly inexpensive microscope. At this time, no other researcher has come to the exact same conclusions that I have nor have any used the same methodology either, Carnicom is showing some of the same images that I am, but he is using different terminology.........My background is not in the biology sciences, it is in Computer Science, naturally, I am trained to use logic and flowcharting skills in problem solving. Morgellons is a complicated disease, and of course, I’ve made some mistakes in identifying some of these cellular entities along the way. When I first started microscopically viewing the Morgellons samples, it was like viewing a ‘three-ringed circus’. Here’s my first YouTube of my cultured lesion debris showing this very complicated world, I ask for microbiology help here, this is March 2009, the main pathogen was mis-identified as ‘Crypto’ here: ==================== I do believe that between Bechamp and fullerenes we will find this. skyship
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Post by skyship on Oct 15, 2009 17:18:08 GMT -5
DNA buckyball: Luo and Ph.D. graduate students Soong Ho Um, Sang Yeon Kwon and Jong Bum Lee described DNA buckyballs in an invited talk titled "Self-assembly of nanobuckyballs from dendrimer-like-DNA-polystyrene amphiphiles" Sunday, Aug. 28, at the 2005 annual meeting of the American Chemical Society in Washington, D.C. They reminded the audience that although the geometry of solid truncated icosahedrons was first described by Archimedes on paper more than 2,000 years ago, the skeletal, hollow-faced version of buckyballs had not been envisioned until Leonardo da Vinci's illustrations in 1494. Luo added that DNA buckyballs may turn out to have unusual electronic, photonic and mechanical properties, and that because DNA is easily labeled and manipulated, his research group's work offers a way to study in detail the self-assembly process -- a process very important to the future development of nanotechnology. ...... www.news.cornell.edu/stories/Aug05/DNABuckyballs.ws.htmlskyship
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