Journal
MOLECULAR CELL
Volume 65, Issue 1, Pages 142-153Publisher
CELL PRESS
DOI: 10.1016/j.molcel.2016.11.007
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Funding
- Azrieli Foundation
- Louis and Beatrice Laufer Center
- NIH [R01 HG008354, U01 HL127522]
- Minerva Foundation
- Minerva grant
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Gene expression burdens cells by consuming resources and energy. While numerous studies have investigated regulation of expression level, little is known about gene design elements that govern expression costs. Here, we ask how cells minimize production costs while maintaining a given protein expression level and whether there are gene architectures that optimize this process. We measured fitness of similar to 14,000 E. coli strains, each expressing a reporter gene with a unique 5' architecture. By comparing cost-effective and ineffective architectures, we found that cost per protein molecule could be minimized by lowering transcription levels, regulating translation speeds, and utilizing amino acids that are cheap to synthesize and that are less hydrophobic. We then examined natural E. coli genes and found that highly expressed genes have evolved more forcefully to minimize costs associated with their expression. Our study thus elucidates gene design elements that improve the economy of protein expression in natural and heterologous systems.
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