Abstract
BackgroundChemically inducible systems that provide both spatial and temporal control of gene expression are essential tools, with many applications in plant biology, yet they have not been extensively tested in monocotyledonous species.ResultsUsing Golden Gate modular cloning, we have created a monocot-optimized dexamethasone (DEX)-inducible pOp6/LhGR system and tested its efficacy in rice using the reporter enzyme β-glucuronidase (GUS). The system is tightly regulated and highly sensitive to DEX application, with 6 h of induction sufficient to induce high levels of GUS activity in transgenic callus. In seedlings, GUS activity was detectable in the root after in vitro application of just 0.01 μM DEX. However, transgenic plants manifested severe developmental perturbations when grown on higher concentrations of DEX. The direct cause of these growth defects is not known, but the rice genome contains sequences with high similarity to the LhGR target sequence lacO, suggesting non-specific activation of endogenous genes by DEX induction. These off-target effects can be minimized by quenching with isopropyl β-D-1-thiogalactopyranoside (IPTG).ConclusionsOur results demonstrate that the system is suitable for general use in rice, when the method of DEX application and relevant controls are tailored appropriately for each specific application.
Highlights
Inducible systems that provide both spatial and temporal control of gene expression are essential tools, with many applications in plant biology, yet they have not been extensively tested in monocotyledonous species
To create a versatile inducible system for transgene expression in monocots, we developed a version of pOp6/Chimeric transcription factor (LhGR) using the Golden Gate modular cloning system [17]
LhGR was codon optimized for use in rice and further ‘domesticated’ to remove all recognition sites for type II restriction enzymes used in Golden Gate cloning: BsaI, BpiI, Esp3I and DraIII (Additional file 1)
Summary
Inducible systems that provide both spatial and temporal control of gene expression are essential tools, with many applications in plant biology, yet they have not been extensively tested in monocotyledonous species. To enable functional analysis in such cases, several chemically inducible systems have been established to control transgene expression (for reviews see [1,2,3,4]). The pOp6 promoter contains a concatemerized binding site comprised of six direct repeats of the 18 base pair lac operator (lacO) sequence [5]. This site is bound by the Chemically inducible gene expression systems have been predominantly tested in dicotyledonous species [1,2,3,4].
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