Scholars@Duke publication: DNA Origami Transformers

DNA- and RNA-Based Computing Systems

DNA Origami Transformers

Publication , Chapter

Mokhtar, R; Song, T; Fu, D; Shah, S; Song, X; Yang, M; Reif, J

January 1, 2021

DNA origami is a DNA nanostructure self-assembled from a long scaffold DNA strand with the use of many additional short staple DNA strands that stitch the nanostructure together. The chapter presents DNA origami transformers, which are novel technique for dynamically transforming DNA origami nanostructures into distinct modified DNA origami nanostructures. The DNA origami transformers make use of two primitives, zip and unzip, for conducting the transformations.

Duke Scholars

Author John H. Reif Computer Science

DOI

10.1002/9783527825424.ch16

Publication Date

January 1, 2021

Start / End Page

307 / 326

Citation

APA

Chicago

ICMJE

MLA

NLM

Mokhtar, R., Song, T., Fu, D., Shah, S., Song, X., Yang, M., & Reif, J. (2021). DNA Origami Transformers. In DNA- and RNA-Based Computing Systems (pp. 307–326). https://doi.org/10.1002/9783527825424.ch16

Mokhtar, R., T. Song, D. Fu, S. Shah, X. Song, M. Yang, and J. Reif. “DNA Origami Transformers.” In DNA- and RNA-Based Computing Systems, 307–26, 2021. https://doi.org/10.1002/9783527825424.ch16.

Mokhtar R, Song T, Fu D, Shah S, Song X, Yang M, et al. DNA Origami Transformers. In: DNA- and RNA-Based Computing Systems. 2021. p. 307–26.

Mokhtar, R., et al. “DNA Origami Transformers.” DNA- and RNA-Based Computing Systems, 2021, pp. 307–26. Scopus, doi:10.1002/9783527825424.ch16.

Mokhtar R, Song T, Fu D, Shah S, Song X, Yang M, Reif J. DNA Origami Transformers. DNA- and RNA-Based Computing Systems. 2021. p. 307–326.

DOI

10.1002/9783527825424.ch16

Publication Date

January 1, 2021

Start / End Page

307 / 326