Difference between revisions of "Reached milestones in foldamer R&D"
From apm
(just a very crude list for now) |
(→Related: added link to page: Incremental path) |
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| − | {{ | + | {{wikitodo|add technology dependency diagram}} |
| − | {{ | + | {{wikitodo|reference all the associated papers}} |
One can identify: | One can identify: | ||
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* abstraction over low base part symmetry (orthorhombic and hexagonal - slight twist deformation though) | * abstraction over low base part symmetry (orthorhombic and hexagonal - slight twist deformation though) | ||
* introduction of highly localized compliance (aka hinges) and sliding rails | * introduction of highly localized compliance (aka hinges) and sliding rails | ||
| − | * two stage hierarchical self assembly (reversible second stage via stiff shape complementarity & salt concentration) | + | * [[convergent self-assembly|two stage hierarchical self assembly]] (reversible second stage via stiff shape complementarity & salt concentration) |
* demonstration of subatomic positional precision (via a hinge mechanism) | * demonstration of subatomic positional precision (via a hinge mechanism) | ||
* multi micron scale atomically precise pegboard structures | * multi micron scale atomically precise pegboard structures | ||
| + | * demonstration of fast electrostatic actuation of structural DNA assemblies | ||
* .... | * .... | ||
Maybe less relevant: | Maybe less relevant: | ||
| − | * DNA walkers (unidirectional & bidirectional) -- {{ | + | * DNA walkers (unidirectional & bidirectional) -- {{wikitodo|link related online learning game}} |
| − | * spacial digital counting (still crude) -- {{ | + | * spacial digital counting (still crude) -- {{wikitodo|link related talk video}} |
| − | * stiff DNA triangle cages (note: | + | * stiff DNA triangle cages (note: deltahedrons are stiff polyhedrons) |
* DNA tensegrity | * DNA tensegrity | ||
| Line 43: | Line 44: | ||
* DNA oglionucleotide synthesis | * DNA oglionucleotide synthesis | ||
* Microfluidics (?) | * Microfluidics (?) | ||
| + | |||
| + | == Related == | ||
| + | |||
| + | * [[Foldamer R&D]] | ||
| + | * pending / outstanding milestone [[Mechanical demultiplexing]] | ||
| + | * [[Incremental path]] | ||
Latest revision as of 06:55, 26 August 2018
(wiki-TODO: add technology dependency diagram) (wiki-TODO: reference all the associated papers)
One can identify:
- progress in control of self assembly
- progress in means of actuation of the self assembled structures
Contents
Classified by foldamer type
DNA as building material
Highly relevant:
- ending reliance on viral DNA => fully abiotic process
- proof of atomic precision in DNA brick structures (via cryo-TEM-tomography)
- abstraction over low base part symmetry (orthorhombic and hexagonal - slight twist deformation though)
- introduction of highly localized compliance (aka hinges) and sliding rails
- two stage hierarchical self assembly (reversible second stage via stiff shape complementarity & salt concentration)
- demonstration of subatomic positional precision (via a hinge mechanism)
- multi micron scale atomically precise pegboard structures
- demonstration of fast electrostatic actuation of structural DNA assemblies
- ....
Maybe less relevant:
- DNA walkers (unidirectional & bidirectional) -- (wiki-TODO: link related online learning game)
- spacial digital counting (still crude) -- (wiki-TODO: link related talk video)
- stiff DNA triangle cages (note: deltahedrons are stiff polyhedrons)
- DNA tensegrity
de-novo proteins
- high symmetry de-novo protein sheets
- ...
Spiroligomers
- ... (TODO: investigate conducted research)
Makroscale base technologies
- DNA oglionucleotide synthesis
- Microfluidics (?)
Related
- Foldamer R&D
- pending / outstanding milestone Mechanical demultiplexing
- Incremental path
