Open AccessDesign and assembly of DNA molecules using multi-objective optimization
Author(s) -
Angelo Gaeta,
Valentin Zulkower,
Giovanni Stracquadanio
Publication year - 2021
Publication title -
synthetic biology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.769
H-Index - 8
ISSN - 2397-7000
DOI - 10.1093/synbio/ysab026
Subject(s) - synthetic biology , workflow , computer science , python (programming language) , rational design , engineering design process , dna computing , distributed computing , nanotechnology , algorithm , engineering , computational biology , programming language , biology , materials science , database , mechanical engineering , computation
Rapid engineering of biological systems is currently hindered by limited integration of manufacturing constraints into the design process, ultimately reducing the yield of many synthetic biology workflows. Here we tackle DNA engineering as a multi-objective optimization problem aiming at finding the best tradeoff between design requirements and manufacturing constraints. We developed a new open-source algorithm for DNA engineering, called Multi-Objective Optimisation algorithm for DNA Design and Assembly, available as a Python and Anaconda package, as well as a Docker image. Experimental results show that our method provides near-optimal constructs and scales linearly with design complexity, effectively paving the way to rational engineering of DNA molecules from genes to genomes.
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