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Design of synthetic yeast promoters via tuning of nucleosome architecture.

ABSTRACT: Model-based design of biological parts is a critical goal of synthetic biology, especially for eukaryotes. Here we demonstrate that nucleosome architecture can have a role in defining yeast promoter activity and utilize a computationally-guided approach that can enable both the redesign of endogenous promoter sequences and the de novo design of synthetic promoters. Initially, we use our approach to reprogram native promoters for increased expression and evaluate their performance in various genetic contexts. Increases in expression ranging from 1.5- to nearly 6-fold in a plasmid-based system and up to 16-fold in a genomic context were obtained. Next, we demonstrate that, in a single design cycle, it is possible to create functional, purely synthetic yeast promoters that achieve substantial expression levels (within the top sixth percentile among native yeast promoters). In doing so, this work establishes a unique DNA-level specification of promoter activity and demonstrates predictive design of synthetic parts.

SUBMITTER: Curran KA 

PROVIDER: S-EPMC4064463 | biostudies-literature | 2014 May

REPOSITORIES: biostudies-literature

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Design of synthetic yeast promoters via tuning of nucleosome architecture.

Curran Kathleen A KA   Crook Nathan C NC   Karim Ashty S AS   Gupta Akash A   Wagman Allison M AM   Alper Hal S HS  

Nature communications 20140527

Model-based design of biological parts is a critical goal of synthetic biology, especially for eukaryotes. Here we demonstrate that nucleosome architecture can have a role in defining yeast promoter activity and utilize a computationally-guided approach that can enable both the redesign of endogenous promoter sequences and the de novo design of synthetic promoters. Initially, we use our approach to reprogram native promoters for increased expression and evaluate their performance in various gene  ...[more]

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