IGEM:Harvard/2006/DNA nanostructures/Designing DNA nanostructures: Difference between revisions
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*[[Media:060620_WS_honeycomb_v1.zip]] | *[[Media:060620_WS_honeycomb_v1.zip]] | ||
**Currently the program only works with parity matching between strands and nodes. --[[User:Wmshih|Wmshih]] 10:45, 21 June 2006 (EDT) | |||
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*[[Media:060621_WS_honeycomb_worksheet_v2.pdf]] | |||
**The honeycomb lattice was rotated by 30 degrees relative to the first worksheet for compatibility with the ASCII representation of the honeycomb lattice. The position guides were rotated by 30 + 120 degrees. The extra 120 degrees can be considered an arbitrary addition (a generic honeycomb lattice has three-fold rotational symmetry, although your final objects using this paradigm will not be symmetric at all without using multimerization.) --[[User:Wmshih|Wmshih]] 10:45, 21 June 2006 (EDT) | |||
Latest revision as of 09:11, 21 June 2006
- Media:060620_WS_honeycomb_v1.zip
- Currently the program only works with parity matching between strands and nodes. --Wmshih 10:45, 21 June 2006 (EDT)
- Media:060621_WS_honeycomb_worksheet_v2.pdf
- The honeycomb lattice was rotated by 30 degrees relative to the first worksheet for compatibility with the ASCII representation of the honeycomb lattice. The position guides were rotated by 30 + 120 degrees. The extra 120 degrees can be considered an arbitrary addition (a generic honeycomb lattice has three-fold rotational symmetry, although your final objects using this paradigm will not be symmetric at all without using multimerization.) --Wmshih 10:45, 21 June 2006 (EDT)
