Add to ORKGInformation processing applications driven by self-assembly and conformation dynamics of nucleic acids are possible. These underlying paradigms (self-assembly and conformation dynamics) are essential for natural information processors as illustrated by proteins. A key advantage in utilising nucleic acids as information processors is the availability of computational tools to support the design process. This provides us with a platform to develop an integrated environment in which an orchestration of molecular building blocks can be realised. Strict arbitrary control over the design of these computational nucleic acids is not feasible. The microphysical behaviour of these molecular materials must be taken into consideration during the design...
The secondary structure for nucleic acids provides a level of description that is both abstract enou...
In this feature article we provide a side-by-side introduction for two research fields quantum chemi...
<p>Interactions between nucleic acid substrates and the proteins and enzymes that bind and catalyze ...
Information processing applications driven by self-assembly and conformation dynamics of nucleic aci...
Despite an exponential increase in computing power over the past decades, present information techno...
Macromolecules are the predominant physical substrate sup-porting information processing in organism...
Despite an exponential increase in computing power over the past decades, present information techno...
Nucleic acids present great promise as building blocks for nanoscale devices. To achieve this poten...
Motivated by a growing field of research focused on programming function into biomolecules, we seek ...
The idea to use nucleic acid as a substrate for design of programmable biomolecular circuits was fir...
Nucleic acids provide a powerful platform for programming at the molecular level. This is possible b...
Functional nucleic acids are an attractive substrate for molecular computing. A nucleic acid molecul...
A central goal of biomolecular engineering is the construction of tools to manipulate nanoscale proc...
AbstractRNA molecules are crucial in different levels of cellular function, ranging from translation...
The design of synthetic circuits for controlling molecular-scale processes is an important goal of s...
The secondary structure for nucleic acids provides a level of description that is both abstract enou...
In this feature article we provide a side-by-side introduction for two research fields quantum chemi...
<p>Interactions between nucleic acid substrates and the proteins and enzymes that bind and catalyze ...
Information processing applications driven by self-assembly and conformation dynamics of nucleic aci...
Despite an exponential increase in computing power over the past decades, present information techno...
Macromolecules are the predominant physical substrate sup-porting information processing in organism...
Despite an exponential increase in computing power over the past decades, present information techno...
Nucleic acids present great promise as building blocks for nanoscale devices. To achieve this poten...
Motivated by a growing field of research focused on programming function into biomolecules, we seek ...
The idea to use nucleic acid as a substrate for design of programmable biomolecular circuits was fir...
Nucleic acids provide a powerful platform for programming at the molecular level. This is possible b...
Functional nucleic acids are an attractive substrate for molecular computing. A nucleic acid molecul...
A central goal of biomolecular engineering is the construction of tools to manipulate nanoscale proc...
AbstractRNA molecules are crucial in different levels of cellular function, ranging from translation...
The design of synthetic circuits for controlling molecular-scale processes is an important goal of s...
The secondary structure for nucleic acids provides a level of description that is both abstract enou...
In this feature article we provide a side-by-side introduction for two research fields quantum chemi...
<p>Interactions between nucleic acid substrates and the proteins and enzymes that bind and catalyze ...