Add to ORKGThe catalytic core of Group I self-splicing introns has been proposed to consist of two structural domains, P4-P6 and P3-P9. Each contains helical segments and conserved unpaired nucleotides, and the isolated P4-P6 domain has been shown to have substantial native tertiary structure. The proposed tertiary structure domains of the Tetrahymena intron were synthesized separately and shown to self-assemble into a catalytically active complex. Surprisingly, the concentration dependence of these reactions revealed that the domains interact with nanomolar apparent dissociation constants, even though there is no known base pairing between P4-P6 and P3-P9. This suggests that the domains interact through multiple tertiary contacts, the nature of which...
The group II intron and the spliceosome share a common active site architecture and are thought to b...
AbstractA paper in a recent issue of Science describes the first high-resolution structure of part o...
The internal guiding sequence(IGS)is normally located at the 5\u27 end of trans-splicing ribozymes t...
AbstractBackground: Group I introns self-splice via two consecutive trans-esterification reactions i...
Group I introns are a class of catalytic RNAs that can perform a self-splicing reaction. This thesi...
AbstractThe role of P5abc domain of the Tetrahymena LSU self-splicing Group I intron is to enhance t...
Although the active site of group I introns is phylogenetically conserved, subclasses of introns hav...
International audienceWe have used chemical footprinting, kinetic dissection of reactions and compar...
AbstractBackground: The structure of P4-P6, a 160 nucleotide domain of the self-splicing Tetrahymena...
Despite its importance for group II intron catalytic activity, structural information on conserved d...
P5abc is an RNA structure within the self-splicing Tetrahymena group I intron that provides an activ...
Group II introns are a class of ribozymes capable of self-excision from a nascent pre-mRNA sequence ...
The self-splicing sunY intron from bacteriophage T4 has the smallest conserved core secondary struct...
textThe Neurospora crassa mitochondrial tyrosyl-tRNA synthetase, or CYT-18 protein, functions in sp...
Two adenosine residues, universally conserved among group I introns, are located in the L4 region of...
The group II intron and the spliceosome share a common active site architecture and are thought to b...
AbstractA paper in a recent issue of Science describes the first high-resolution structure of part o...
The internal guiding sequence(IGS)is normally located at the 5\u27 end of trans-splicing ribozymes t...
AbstractBackground: Group I introns self-splice via two consecutive trans-esterification reactions i...
Group I introns are a class of catalytic RNAs that can perform a self-splicing reaction. This thesi...
AbstractThe role of P5abc domain of the Tetrahymena LSU self-splicing Group I intron is to enhance t...
Although the active site of group I introns is phylogenetically conserved, subclasses of introns hav...
International audienceWe have used chemical footprinting, kinetic dissection of reactions and compar...
AbstractBackground: The structure of P4-P6, a 160 nucleotide domain of the self-splicing Tetrahymena...
Despite its importance for group II intron catalytic activity, structural information on conserved d...
P5abc is an RNA structure within the self-splicing Tetrahymena group I intron that provides an activ...
Group II introns are a class of ribozymes capable of self-excision from a nascent pre-mRNA sequence ...
The self-splicing sunY intron from bacteriophage T4 has the smallest conserved core secondary struct...
textThe Neurospora crassa mitochondrial tyrosyl-tRNA synthetase, or CYT-18 protein, functions in sp...
Two adenosine residues, universally conserved among group I introns, are located in the L4 region of...
The group II intron and the spliceosome share a common active site architecture and are thought to b...
AbstractA paper in a recent issue of Science describes the first high-resolution structure of part o...
The internal guiding sequence(IGS)is normally located at the 5\u27 end of trans-splicing ribozymes t...