1. Compiler-aided systematic construction of large-scale DNA strand displacement circuits using unpurified components
- Author
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Lulu Qian, Joseph Berleant, Kevin M. Cherry, Robert F. Johnson, Diana A. Ardelean, Chris Thachuk, and Anupama J. Thubagere
- Subjects
0301 basic medicine ,Logic ,Circuit design ,Science ,General Physics and Astronomy ,Nanotechnology ,010402 general chemistry ,computer.software_genre ,01 natural sciences ,General Biochemistry, Genetics and Molecular Biology ,Article ,03 medical and health sciences ,Software ,Computer Simulation ,Electronic circuit ,ComputingMethodologies_COMPUTERGRAPHICS ,Multidisciplinary ,business.industry ,Scale (chemistry) ,General Chemistry ,Construct (python library) ,DNA ,Models, Theoretical ,0104 chemical sciences ,030104 developmental biology ,Computer engineering ,Calibration ,Design process ,Embedding ,Compiler ,business ,computer - Abstract
Biochemical circuits made of rationally designed DNA molecules are proofs of concept for embedding control within complex molecular environments. They hold promise for transforming the current technologies in chemistry, biology, medicine and material science by introducing programmable and responsive behaviour to diverse molecular systems. As the transformative power of a technology depends on its accessibility, two main challenges are an automated design process and simple experimental procedures. Here we demonstrate the use of circuit design software, combined with the use of unpurified strands and simplified experimental procedures, for creating a complex DNA strand displacement circuit that consists of 78 distinct species. We develop a systematic procedure for overcoming the challenges involved in using unpurified DNA strands. We also develop a model that takes synthesis errors into consideration and semi-quantitatively reproduces the experimental data. Our methods now enable even novice researchers to successfully design and construct complex DNA strand displacement circuits., DNA circuits hold promise for advancing information-based molecular technologies, yet it is challenging to design and construct them in practice. Thubagere et al. build DNA strand displacement circuits using unpurified strands whose sequences are automatically generated from a user-friendly compiler.
- Published
- 2017