[EN] Organisms have different circuitries that allow converting signal molecule levels to changes in gene expression. An important challenge in synthetic biology involves the de novo design of RNA modules enabling dynamic signal processing in live cells. This requires a scalable methodology for sensing, transmission, and actuation, which could be assembled into larger signaling networks. Here, we present a biochemical strategy to design RNA-mediated signal transduction cascades able to sense small molecules and small RNAs. We design switchable functional RNA domains by using strand-displacement techniques. We experimentally characterize the molecular mechanism underlying our synthetic RNA signaling cascades, show the ability to regulate gen...
RNA devices provide synthetic biologists with tools for manipulating post-transcriptional regulation...
The ability of biological components to function reliably in different genetic contexts is one of th...
An important requirement for achieving many goals of synthetic biology is the availability of a larg...
Organisms have different circuitries that allow con-verting signal molecule levels to changes in gen...
Engineered biological systems hold promise in addressing pressing human needs in chemical processing...
Our ability to efficiently and predictably program cells is central to the fields of bioengineering ...
Non-coding RNAs (ncRNAs) are versatile regulators in cellular networks. While most trans-acting ncRN...
An important requirement for achieving many goals of synthetic biology is the availability of a larg...
Living systems rely on the precise control of gene expression to affect appropriate phenotypic respo...
Since our ability to engineer biological systems is directly related to our ability to control gene ...
<div><p>Synthetic biology aims at (re-)programming living cells like computers to perform new functi...
Non-coding RNAs (ncRNAs) are versatile regulators in cellular networks. While most trans-acting ncRN...
Non-coding RNAs (ncRNAs) are versatile regulators in cellular networks. While most trans-acting ncRN...
Synthetic biology aims to develop engineering-driven approaches to the programming of cellular funct...
RNA molecules lie at the heart of living organisms where they are associated with most of the cellul...
RNA devices provide synthetic biologists with tools for manipulating post-transcriptional regulation...
The ability of biological components to function reliably in different genetic contexts is one of th...
An important requirement for achieving many goals of synthetic biology is the availability of a larg...
Organisms have different circuitries that allow con-verting signal molecule levels to changes in gen...
Engineered biological systems hold promise in addressing pressing human needs in chemical processing...
Our ability to efficiently and predictably program cells is central to the fields of bioengineering ...
Non-coding RNAs (ncRNAs) are versatile regulators in cellular networks. While most trans-acting ncRN...
An important requirement for achieving many goals of synthetic biology is the availability of a larg...
Living systems rely on the precise control of gene expression to affect appropriate phenotypic respo...
Since our ability to engineer biological systems is directly related to our ability to control gene ...
<div><p>Synthetic biology aims at (re-)programming living cells like computers to perform new functi...
Non-coding RNAs (ncRNAs) are versatile regulators in cellular networks. While most trans-acting ncRN...
Non-coding RNAs (ncRNAs) are versatile regulators in cellular networks. While most trans-acting ncRN...
Synthetic biology aims to develop engineering-driven approaches to the programming of cellular funct...
RNA molecules lie at the heart of living organisms where they are associated with most of the cellul...
RNA devices provide synthetic biologists with tools for manipulating post-transcriptional regulation...
The ability of biological components to function reliably in different genetic contexts is one of th...
An important requirement for achieving many goals of synthetic biology is the availability of a larg...