Biomod/2011/Caltech/DeoxyriboNucleicAwesome/Progress/System Design
Monday, June 17, 2024
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System DesignDomain Level DesignOverall domain level design is illustrated in figure 1. Following abbreviation will be frequently used: walker [W], walker inhibitor [WI], track 1 [TR1], probe for track 1 [PTR1], track 2 [TR2], probe for track 2 [PTR2], cargo 1 [C1], cargo attacher [CA], probe for cargo attacher [PCA], cargo goal inhibitor [CGI], cargo goal 1 [CG1], probe for cargo goal [PCG], walker goal [WG], and probe for walker goal [PWG].
Sequence Level Design
With our overall design in mind, we must design DNA sequences, down to the base level, which undergo the interactions that we desire, without forming secondary structures and binding in unintended ways. We approach this through a combination of pre-generated noninteracting sequences, and trial-and-error design using NUPACK simulation software.
Origami LayoutRandom walking playground and cargo sorting playground were designed using a rectangular orgiami.
Experimental DesignVerification of Mechanisms through Gel Experiments
Before constructing our origami and observing how it behaves, we run a large number of experiments observable through Gel Electrophoresis to verify that many of our mechanisms behave as we expect them to.
Verification of Mechanisms through Fluorescent Spectroscopy
Various DNA strands were tagged with fluorophores and quenchers in order to investigate different mechanisms more directly, both in solution and on origami.
Verification of Mechanisms through Atomic Force Microscopy
Walkers tagged with biotins were planted onto DNA origami, attempts were made to observe random walking on the origami directly under AFM.
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