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DNA nanotechnology is the design and manufacture of artificial nucleic acid structures for technological uses. In this field, nucleic acids are used as non-biological engineering materials for nanotechnology rather than as the carriers of genetic information in living cells.
This list of DNA nanotechnology research groups gives a partial overview of academic research organisations in the field of DNA nanotechnology, sorted geographically.Any sufficiently notable research group (which in general can be considered as any group having published in well regarded, high impact factor journals) should be listed here, along with a brief description of their research.
DNA nanotechnology is an area of current research that uses the bottom-up, self-assembly approach for nanotechnological goals. DNA nanotechnology uses the unique molecular recognition properties of DNA and other nucleic acids to create self-assembling branched DNA complexes with useful properties. [ 18 ]
Graphical representation of a rotaxane, useful as a molecular switch This DNA tetrahedron [33] is an artificially designed nanostructure of the type made in the field of DNA nanotechnology. Each edge of the tetrahedron is a 20 base pair DNA double helix, and each vertex is a three-arm junction.
DNA nanotechnology is one important example of bionanotechnology. [51] The utilization of the inherent properties of nucleic acids like DNA to create useful materials or devices – such as biosensors [52] – is a promising area of modern research.
DNA computing is an emerging branch of unconventional computing which uses DNA, ... DNA nanotechnology has been applied to the related field of DNA computing.
SomaLogic Inc (NASDAQ: SLGC) has agreed to acquire Palamedrix Inc for $14 million in cash and $21 million in SomaLogic common stock. Up to an additional $17.5 million may be paid in connection ...
Workflow for DNA nanoball sequencing [1] DNA nanoball sequencing is a high throughput sequencing technology that is used to determine the entire genomic sequence of an organism. The method uses rolling circle replication to amplify small fragments of genomic DNA into DNA nanoballs. Fluorescent nucleotides bind to complementary nucleotides and ...