The beginning of structuring and formulating my genetic Disertation

Genetic nanotechnology combines non-standard polygenic modifications with self-structuring cohesion to build polyhedral objects, topological morphology, nano-mechanical constructs, and both crystalline and aperiodic arrays. The goal of genetic nanotechnology is modification of the structure of matter on the finest possible scale. Applications are expected to expected to impact the areas of X-ray crystallography, nano-electronics, nano-robotics, and DNA-based quantum computation. Nano-genetics and its close molecular relatives seem to be well crafted for these designs. This blog and the dissertation behind it covers the generation of new DNA motifs, abstract methods of design, and manufacture, (synthesis, hybridization, phosphorylation, ligation), as well as a multitude of methodologies for characterization of designs, creations, and matrices. Genetic nanotechnology as a tool in biochemistry, bio-medicines, theoretical and particle physics, nano-materials, nano-engineering, as well as genetic crypto-graphics.