Add to ORKGThe group II intron and the spliceosome share a common active site architecture and are thought to be evolutionarily related. Here we report the 3.7 Å crystal structure of a eukaryotic group II intron in the lariat-3′ exon form, immediately preceding the second step of splicing, analogous to the spliceosomal P complex. This structure reveals the location of the intact 3′ splice site within the catalytic core of the group II intron. The 3′-OH of the 5′ exon is positioned in close proximity to the 3′ splice site for nucleophilic attack and exon ligation. The active site undergoes conformational rearrangements with the catalytic triplex having dif- ferent configurations before and after the second step of splicing. We describe a complete model...
Group II introns are ribozymes that self-splice from pre-mRNA transcripts, concurrently ligating the...
AbstractSince the discovery of self-splicing RNAs, it has been suspected that the snRNAs are the cat...
Spliceosomes are large, dynamic ribonucleoprotein complexes that catalyse the removal of introns fro...
The group II intron and the spliceosome share a common active site architecture and are thought to b...
SummaryGroup II introns are self-splicing ribozymes that share a reaction mechanism and a common anc...
Group II introns are a class of ribozymes capable of self-excision from a nascent pre-mRNA sequence ...
RNA splicing, the removal of introns and ligation of exons, is a crucial process during mRNA maturat...
Eukaryotic genes contain non-coding introns, removal of which during gene expression is a pre-requis...
The formation of branched lariat RNA is an evolutionarily conserved feature of RNA splicing reaction...
SummaryGroup II introns are mobile genetic elements that have been implicated as agents of genetic d...
Group II introns are DNA sequences that are interspersed throughout the genomes of organisms from al...
AbstractA model for selection of 3′-splice sites in splicing of RNA precursors containing group I in...
Group II self-splicing introns catalyze autoexcision from precursor RNA tran-scripts by a mechanism ...
The spliceosome, an assembly of snRNAs and proteins, catalyzes the removal of introns from premessen...
International audienceThe 2'-5' branch of nuclear premessenger introns is believed to have been inhe...
Group II introns are ribozymes that self-splice from pre-mRNA transcripts, concurrently ligating the...
AbstractSince the discovery of self-splicing RNAs, it has been suspected that the snRNAs are the cat...
Spliceosomes are large, dynamic ribonucleoprotein complexes that catalyse the removal of introns fro...
The group II intron and the spliceosome share a common active site architecture and are thought to b...
SummaryGroup II introns are self-splicing ribozymes that share a reaction mechanism and a common anc...
Group II introns are a class of ribozymes capable of self-excision from a nascent pre-mRNA sequence ...
RNA splicing, the removal of introns and ligation of exons, is a crucial process during mRNA maturat...
Eukaryotic genes contain non-coding introns, removal of which during gene expression is a pre-requis...
The formation of branched lariat RNA is an evolutionarily conserved feature of RNA splicing reaction...
SummaryGroup II introns are mobile genetic elements that have been implicated as agents of genetic d...
Group II introns are DNA sequences that are interspersed throughout the genomes of organisms from al...
AbstractA model for selection of 3′-splice sites in splicing of RNA precursors containing group I in...
Group II self-splicing introns catalyze autoexcision from precursor RNA tran-scripts by a mechanism ...
The spliceosome, an assembly of snRNAs and proteins, catalyzes the removal of introns from premessen...
International audienceThe 2'-5' branch of nuclear premessenger introns is believed to have been inhe...
Group II introns are ribozymes that self-splice from pre-mRNA transcripts, concurrently ligating the...
AbstractSince the discovery of self-splicing RNAs, it has been suspected that the snRNAs are the cat...
Spliceosomes are large, dynamic ribonucleoprotein complexes that catalyse the removal of introns fro...