Synthetic Chemical Inducers and Genetic Decoupling Enable Orthogonal Control of the rhaBAD Promoter

Ciaran Kelly, Zilei Liu, Akihide Yoshihara, Sarah Jenkinson, Mark Wormald, Jose Otero, Amalia Estévez, Atsushi Kato, Mikkel Marqvorsen, George Fleet, Ramón Estévez, Ken Izumori, John Heap

Research output: Contribution to journalArticlepeer-review

22 Citations (Scopus)
5 Downloads (Pure)

Abstract

External control of gene expression is crucial in synthetic biology and biotechnology research and applications, and is commonly achieved using inducible promoter systems. The E. coli rhamnose-inducible rhaBAD promoter has properties superior to more commonly used inducible expression systems, but is marred by transient expression caused by degradation of the native inducer, l-rhamnose. To address this problem, 35 analogues of l-rhamnose were screened for induction of the rhaBAD promoter, but no strong inducers were identified. In the native configuration, an inducer must bind and activate two transcriptional activators, RhaR and RhaS. Therefore, the expression system was reconfigured to decouple the rhaBAD promoter from the native rhaSR regulatory cascade so that candidate inducers need only activate the terminal transcription factor RhaS. Rescreening the 35 compounds using the modified rhaBAD expression system revealed several promising inducers. These were characterized further to determine the strength, kinetics, and concentration-dependence of induction; whether the inducer was used as a carbon source by E. coli; and the modality (distribution) of induction among populations of cells. l-Mannose was found to be the most useful orthogonal inducer, providing an even greater range of induction than the native inducer l-rhamnose, and crucially, allowing sustained induction instead of transient induction. These findings address the key limitation of the rhaBAD expression system and suggest it may now be the most suitable system for many applications.
Original languageEnglish
Pages (from-to)1136-1145
JournalACS Synthetic Biology
Volume5
Issue number10
Early online date21 Jun 2016
DOIs
Publication statusPublished - 21 Oct 2016
Externally publishedYes

Fingerprint

Dive into the research topics of 'Synthetic Chemical Inducers and Genetic Decoupling Enable Orthogonal Control of the rhaBAD Promoter'. Together they form a unique fingerprint.

Cite this