Making faultless complex objects from potentially faulty building blocks is a fundamental challenge in computer engineering, nanotechnology, and synthetic biology. We developed an error-correcting recursive construction procedure that attempts to address this challenge. Making DNA molecules from synthetic oligonucleotides using the procedure described here surpasses existing methods for de novo DNA synthesis in speed, precision, and amenability to automation. It provides for the first time a unified DNA construction platform for combining synthetic and natural DNA fragments, for constructing designer DNA libraries, and for making the faultless long synthetic DNA building blocks needed for de novo genome construction.
Book chapter
Recursive construction of perfect DNA molecules and libraries from imperfect oligonucleotides
Gene Synthesis:Methods and Protocols, pp.151-163
11/Jan/2012
PMID: 22328432
Abstract
Details
- Title
- Recursive construction of perfect DNA molecules and libraries from imperfect oligonucleotides
- Creators
- Gregory Linshiz (null) - The Weizmann Institute of ScienceTuval Ben Yehezkel (null) - The Weizmann Institute of ScienceEhud Shapiro (Corresponding Author) - 972WIS_INST___83
- Resource Type
- Book chapter
- Publication Details
- Gene Synthesis:Methods and Protocols, pp.151-163
- Number of pages
- 13
- Book Editors
- Peccoud, Jean
- Series
- Methods in Molecular Biology
- Publisher
- Humana Press
- Language
- English
- DOI
- https://doi.org/10.1007/978-1-61779-564-0_12
- PMID
- 22328432
- ISBN
- 9781617795633
- Record Identifier
- 993265692403596
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