GreA and GreB Enhance Expression of Escherichia coli RNA Polymerase Promoters in a Reconstituted Transcription–Translation System

Cell-free environments are becoming viable alternatives for implementing biological networks in synthetic biology. The reconstituted cell-free expression system (PURE) allows characterization of genetic networks under defined conditions but its applicability to native bacterial promoters and endogen...

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Bibliographic Details
Published in:ACS synthetic biology 2016-09, Vol.5 (9), p.929-935
Main Authors: Maddalena, Lea L. de, Niederholtmeyer, Henrike, Turtola, Matti, Swank, Zoe N, Belogurov, Georgiy A, Maerkl, Sebastian J
Format: Article
Language:English
Subjects:
DNA-Directed RNA Polymerases - genetics
Escherichia coli - genetics
Escherichia coli Proteins - genetics
Gene Expression Regulation, Bacterial - genetics
Gene Regulatory Networks - genetics
Promoter Regions, Genetic - genetics
Protein Biosynthesis - genetics
Transcription Factors - genetics
Transcription, Genetic - genetics
Transcriptional Elongation Factors - genetics
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Summary:Cell-free environments are becoming viable alternatives for implementing biological networks in synthetic biology. The reconstituted cell-free expression system (PURE) allows characterization of genetic networks under defined conditions but its applicability to native bacterial promoters and endogenous genetic networks is limited due to the poor transcription rate of Escherichia coli RNA polymerase in this minimal system. We found that addition of transcription elongation factors GreA and GreB to the PURE system increased transcription rates of E. coli RNA polymerase from sigma factor 70 promoters up to 6-fold and enhanced the performance of a genetic network. Furthermore, we reconstituted activation of natural E. coli promoters controlling flagella biosynthesis by the transcriptional activator FlhDC and sigma factor 28. Addition of GreA/GreB to the PURE system allows efficient expression from natural and synthetic E. coli promoters and characterization of their regulation in minimal and defined reaction conditions, making the PURE system more broadly applicable to study genetic networks and bottom-up synthetic biology.
ISSN:2161-5063
2161-5063
DOI:10.1021/acssynbio.6b00017