We show how a synthetic gene network can function, in an optimal window of noise, as a robust logic gate. Interestingly, noise enhances the reliability of the logic operation. Further, the noise level can also be used to switch logic functionality, for instance toggle between AND, OR and XOR gates. We also consider a two-dimensional model of a gene network, where we show how two complementary gate operations can be achieved simultaneously. This indicates the flexible parallel processing potential of this biological system
<div><p>Complex gene regulation requires responses that depend not only on the current levels of inp...
We present the design and analysis of a synthetic gene network that performs frequency multiplicatio...
Building biological devices to perform computational and signal processing tasks is one of the main ...
We show how a synthetic gene network can function, in an optimal window of noise, as a robust logic ...
Abstract — Computation underlies the genetic regulatory network activities. Previous studies have de...
The idea of Logical Stochastic Resonance is adapted and applied to an autoregulatory gene network in...
Recently, a number of synthetic biologic gates including AND, OR, NOR, NOT, XOR and NAND have been e...
We report the experimental verification of noise-enhanced logic behaviour in an electronic analog of...
We report the experimental verification of noise-enhanced logic behaviour in an electronic analog of...
Biomolecular systems that can process information are sought for computational applications, because...
Biomolecular systems that can process information are sought for computational applications, because...
Synthetic Biology aims to create biological systems from scratch that do not exist in nature. An imp...
A central aim of synthetic biology is to build organisms that can perform useful activities in respo...
Thesis (Ph.D.)--Boston UniversitySynthetic biology is a field that is tending towards maturity. Synt...
Biological computation is a major area of focus in synthetic biology because it has the potential to...
<div><p>Complex gene regulation requires responses that depend not only on the current levels of inp...
We present the design and analysis of a synthetic gene network that performs frequency multiplicatio...
Building biological devices to perform computational and signal processing tasks is one of the main ...
We show how a synthetic gene network can function, in an optimal window of noise, as a robust logic ...
Abstract — Computation underlies the genetic regulatory network activities. Previous studies have de...
The idea of Logical Stochastic Resonance is adapted and applied to an autoregulatory gene network in...
Recently, a number of synthetic biologic gates including AND, OR, NOR, NOT, XOR and NAND have been e...
We report the experimental verification of noise-enhanced logic behaviour in an electronic analog of...
We report the experimental verification of noise-enhanced logic behaviour in an electronic analog of...
Biomolecular systems that can process information are sought for computational applications, because...
Biomolecular systems that can process information are sought for computational applications, because...
Synthetic Biology aims to create biological systems from scratch that do not exist in nature. An imp...
A central aim of synthetic biology is to build organisms that can perform useful activities in respo...
Thesis (Ph.D.)--Boston UniversitySynthetic biology is a field that is tending towards maturity. Synt...
Biological computation is a major area of focus in synthetic biology because it has the potential to...
<div><p>Complex gene regulation requires responses that depend not only on the current levels of inp...
We present the design and analysis of a synthetic gene network that performs frequency multiplicatio...
Building biological devices to perform computational and signal processing tasks is one of the main ...