A limiting factor in synthetic gene circuit design is the number of independent control elements that can be combined together in a single system. Here, we present RiboTALEs, a new class of inducible repressors that combine the specificity of TALEs with the ability of riboswitches to recognize exogenous signals and differentially control protein abundance. We demonstrate the capacity of RiboTALEs, constructed through different combinations of TALE proteins and riboswitches, to rapidly and reproducibly control the expression of downstream targets with a dynamic range of 243.7 ± 17.6-fold, which is adequate for many biotechnological applications
[EN] Organisms have different circuitries that allow converting signal molecule levels to changes in...
The ability of biological components to function reliably in different genetic contexts is one of th...
Recent studies have demonstrated the importance of noncoding RNA elements in regulating gene express...
A limiting factor in synthetic gene circuit design is the number of independent control elements tha...
SummaryRiboswitches are RNA-based genetic control elements that regulate gene expression in a ligand...
RNA utilizes many different mechanisms to control gene expression. Among the regulatory elements tha...
Several techniques originating from synthetic biology have a big impact on the field of metabolic en...
The ability to induce gene expression in a small molecule dependent manner has led to many applicati...
<div><p>Riboswitches are RNA-based regulators of gene expression composed of a ligand-sensing aptame...
Riboswitches are cis-acting RNA devices in mRNAs that control gene expression in response to chemica...
Engineered biological systems hold promise in addressing pressing human needs in chemical processing...
The ability of biological components to function reliably in different genetic contexts is one of th...
Inducible gene expression systems commonly employed in microbial hosts are mostly composed of molecu...
Riboswitches are natural RNA-based genetic switches that sense small-molecule metabolites and regula...
During the last years the great importance of RNA for regulating gene expression in all organisms ha...
[EN] Organisms have different circuitries that allow converting signal molecule levels to changes in...
The ability of biological components to function reliably in different genetic contexts is one of th...
Recent studies have demonstrated the importance of noncoding RNA elements in regulating gene express...
A limiting factor in synthetic gene circuit design is the number of independent control elements tha...
SummaryRiboswitches are RNA-based genetic control elements that regulate gene expression in a ligand...
RNA utilizes many different mechanisms to control gene expression. Among the regulatory elements tha...
Several techniques originating from synthetic biology have a big impact on the field of metabolic en...
The ability to induce gene expression in a small molecule dependent manner has led to many applicati...
<div><p>Riboswitches are RNA-based regulators of gene expression composed of a ligand-sensing aptame...
Riboswitches are cis-acting RNA devices in mRNAs that control gene expression in response to chemica...
Engineered biological systems hold promise in addressing pressing human needs in chemical processing...
The ability of biological components to function reliably in different genetic contexts is one of th...
Inducible gene expression systems commonly employed in microbial hosts are mostly composed of molecu...
Riboswitches are natural RNA-based genetic switches that sense small-molecule metabolites and regula...
During the last years the great importance of RNA for regulating gene expression in all organisms ha...
[EN] Organisms have different circuitries that allow converting signal molecule levels to changes in...
The ability of biological components to function reliably in different genetic contexts is one of th...
Recent studies have demonstrated the importance of noncoding RNA elements in regulating gene express...