AbstractBackground: In vitro evolution has been used to obtain nucleic acid molecules with interesting functional properties. The evolution process usually is carried out in a stepwise manner, involving successive rounds of selection, amplification and mutation. Recently, a continuous in vitro evolution system was devised for RNAs that catalyze the ligation of oligonucleotide substrates, allowing the evolution of catalytic function to be studied in real time.Results: Continuous in vitro evolution of an RNA ligase ribozyme was carried out in the presence of a DNA enzyme that was capable of cleaving, and thereby inactivating, the ribozyme. The DNA concentration was increased steadily over 33.5 hours of evolution, reaching a final concentratio...
Molecular evolution can be conceptualized as a walk over a "fitness landscape", or the function of f...
Laboratory evolution has generated many biomolecules with desired properties, but a single round of ...
Understanding the evolution of functional RNA molecules is important for our molecular understanding...
AbstractBackground: In vitro evolution has been used to obtain nucleic acid molecules with interesti...
It is generally thought that prior to the origin of protein synthesis, life on earth was based on se...
Understanding molecular evolution can reveal a great deal about the past, present, and future of bio...
SummaryAn RNA ligase ribozyme was converted to a corresponding deoxyribozyme through in vitro evolut...
In an earlier study, an in vitro evolution procedure was applied to a large population of variants o...
All individuals in an evolving population compete for resources, and their performance is measured b...
All individuals in an evolving population compete for resources, and their performance is measured b...
Ribozyme (catalytic RNA) evolution by in vitro selection is one of the powerful evolutionary systems...
The biggest challenge for origin-of-life scientists is to account for the first self-replicating mol...
Molecular evolution can be conceptualized as a walk over a 'fitness landscape', or the function of f...
In order to explore the variety of possible responses available to a ribozyme population evolving a ...
AbstractA population of catalytic RNA molecules has been engineered to operate and evolve in vitro i...
Molecular evolution can be conceptualized as a walk over a "fitness landscape", or the function of f...
Laboratory evolution has generated many biomolecules with desired properties, but a single round of ...
Understanding the evolution of functional RNA molecules is important for our molecular understanding...
AbstractBackground: In vitro evolution has been used to obtain nucleic acid molecules with interesti...
It is generally thought that prior to the origin of protein synthesis, life on earth was based on se...
Understanding molecular evolution can reveal a great deal about the past, present, and future of bio...
SummaryAn RNA ligase ribozyme was converted to a corresponding deoxyribozyme through in vitro evolut...
In an earlier study, an in vitro evolution procedure was applied to a large population of variants o...
All individuals in an evolving population compete for resources, and their performance is measured b...
All individuals in an evolving population compete for resources, and their performance is measured b...
Ribozyme (catalytic RNA) evolution by in vitro selection is one of the powerful evolutionary systems...
The biggest challenge for origin-of-life scientists is to account for the first self-replicating mol...
Molecular evolution can be conceptualized as a walk over a 'fitness landscape', or the function of f...
In order to explore the variety of possible responses available to a ribozyme population evolving a ...
AbstractA population of catalytic RNA molecules has been engineered to operate and evolve in vitro i...
Molecular evolution can be conceptualized as a walk over a "fitness landscape", or the function of f...
Laboratory evolution has generated many biomolecules with desired properties, but a single round of ...
Understanding the evolution of functional RNA molecules is important for our molecular understanding...