textMultiple lines of evidence suggest that RNA performed all of the biological functions in the first life forms on earth. These functions included cleavage, ligation, polymerization, recognition, binding, and replication. In order to perform these functions, populations of RNA molecules with unevolved sequences must have been able to fold into compact three dimensional shapes, in unregulated environments, and without the help of proteins. Folding into compact tertiary structures is difficult because of the high charge density of RNA. Consequently, the ranges of temperature, salinity, pH, and pressure that allow RNA to fold into functional shapes is very restricted. We use thermodynamic arguments and Brownian dynamics simulations to co...
The kinetics of folding is crucial for the function of many regulatory RNAs including RNA G-quadrupl...
Abstract The rugged nature of the RNA folding landscape is determined by a number of conflicting int...
The folding of linear polymers into discrete three-dimensional structures is often required for biol...
textMultiple lines of evidence suggest that RNA performed all of the biological functions in the fir...
Opinion is strongly divided on whether life arose on earth under hot or cold conditions, the hot-sta...
Outstanding questions about the RNA world hypothesis for the emergence of life on Earth concern the ...
The RNA World hypothesis proposes that primitive forms of life used polymers resembling RNA both as ...
International audienceThe RNA World hypothesis states that the present-day life, which is based on D...
AbstractThe stability of a compact RNA tertiary structure is exquisitely sensitive to the concentrat...
The origin of life on Earth involves the early appearance of an information-containing molecule such...
Abstract: We analyze the thermodynamic properties of a simplified model for folded RNA molecules rec...
We hypothesized that the stringency by which RNA folds (summarized in our analysis by the predicted ...
The RNA World hypothesis, which assumes that an RNA World preceded our contemporary DNA/RNA/protein ...
The landscape concept is an old metaphor used by Sewall Wright to illustrate the evolution of specie...
Atomically detailed simulations of RNA folding have proven very challenging in view of the difficult...
The kinetics of folding is crucial for the function of many regulatory RNAs including RNA G-quadrupl...
Abstract The rugged nature of the RNA folding landscape is determined by a number of conflicting int...
The folding of linear polymers into discrete three-dimensional structures is often required for biol...
textMultiple lines of evidence suggest that RNA performed all of the biological functions in the fir...
Opinion is strongly divided on whether life arose on earth under hot or cold conditions, the hot-sta...
Outstanding questions about the RNA world hypothesis for the emergence of life on Earth concern the ...
The RNA World hypothesis proposes that primitive forms of life used polymers resembling RNA both as ...
International audienceThe RNA World hypothesis states that the present-day life, which is based on D...
AbstractThe stability of a compact RNA tertiary structure is exquisitely sensitive to the concentrat...
The origin of life on Earth involves the early appearance of an information-containing molecule such...
Abstract: We analyze the thermodynamic properties of a simplified model for folded RNA molecules rec...
We hypothesized that the stringency by which RNA folds (summarized in our analysis by the predicted ...
The RNA World hypothesis, which assumes that an RNA World preceded our contemporary DNA/RNA/protein ...
The landscape concept is an old metaphor used by Sewall Wright to illustrate the evolution of specie...
Atomically detailed simulations of RNA folding have proven very challenging in view of the difficult...
The kinetics of folding is crucial for the function of many regulatory RNAs including RNA G-quadrupl...
Abstract The rugged nature of the RNA folding landscape is determined by a number of conflicting int...
The folding of linear polymers into discrete three-dimensional structures is often required for biol...