Add to ORKGVarious self-cleaving ribozymes appearing in nature catalyze the sequence-specific intramolecular cleavage of RNA and can be engineered to catalyze cleavage of appropriate substrates in an intermolecular fashion, thus acting as true catalysts. The mechanisms of the small, self-cleaving ribozymes have been extensively studied and reviewed previously. Self-cleaving ribozymes can possess high catalytic activity and high substrate specificity; however, substrate specificity is also engineerable within the constraints of the ribozyme structure. While these ribozymes share a common fundamental catalytic mechanism, each ribozyme family has a unique overall architecture and active site organization, indicating that several distinct structures yield...
Endonucleolytic ribozymes, non-coding RNA molecules capable of self-scission, have been studied for ...
AbstractBackground: Group II introns are self-splicing RNAs that have mechanistic similarity to the ...
Through evolution, enzymes have developed subtle modes of activation in order to ensure the sufficie...
Ribozymes are RNAs that can perform catalytic functions. The discovery of ribozymes was an important...
The hammerhead, hairpin, hepatitis delta virus (HDV), Varkud Satellite (VS), and glmS ribozymes cata...
Fourteen well-defined ribozyme classes have been identified to date, among which nine are site-speci...
RNA molecules are important for many biological processes. They are a component of ribosomes, and ar...
The discovery of catalytic RNA (ribozymes) more than 30 years ago significantly widened the horizon ...
Catalytic RNA or ribozymes present excellent systems to study the foundational principles of biologi...
Ribozymes are catalytic RNA molecules capable of performing functions normally attributed to protein...
Ribozymes are widespread, and catalyze some extremely important reactions in the cell. Mechanistical...
Ribozymes are RNA molecules that act as chemical catalysts. In contemporary cells, most known ribozy...
Over the past five decades, new discoveries on RNA molecules have expanded the scope of their functi...
It is generally thought that prior to the origin of protein synthesis, life on earth was based on se...
RNA plays diverse biological roles, including in regulation and catalysis. Transcriptome analysis re...
Endonucleolytic ribozymes, non-coding RNA molecules capable of self-scission, have been studied for ...
AbstractBackground: Group II introns are self-splicing RNAs that have mechanistic similarity to the ...
Through evolution, enzymes have developed subtle modes of activation in order to ensure the sufficie...
Ribozymes are RNAs that can perform catalytic functions. The discovery of ribozymes was an important...
The hammerhead, hairpin, hepatitis delta virus (HDV), Varkud Satellite (VS), and glmS ribozymes cata...
Fourteen well-defined ribozyme classes have been identified to date, among which nine are site-speci...
RNA molecules are important for many biological processes. They are a component of ribosomes, and ar...
The discovery of catalytic RNA (ribozymes) more than 30 years ago significantly widened the horizon ...
Catalytic RNA or ribozymes present excellent systems to study the foundational principles of biologi...
Ribozymes are catalytic RNA molecules capable of performing functions normally attributed to protein...
Ribozymes are widespread, and catalyze some extremely important reactions in the cell. Mechanistical...
Ribozymes are RNA molecules that act as chemical catalysts. In contemporary cells, most known ribozy...
Over the past five decades, new discoveries on RNA molecules have expanded the scope of their functi...
It is generally thought that prior to the origin of protein synthesis, life on earth was based on se...
RNA plays diverse biological roles, including in regulation and catalysis. Transcriptome analysis re...
Endonucleolytic ribozymes, non-coding RNA molecules capable of self-scission, have been studied for ...
AbstractBackground: Group II introns are self-splicing RNAs that have mechanistic similarity to the ...
Through evolution, enzymes have developed subtle modes of activation in order to ensure the sufficie...