Add to ORKGGroup I and group II introns are both large, multi-domain RNAs that are capable of self-splicing. Like most RNAs, these introns have to adopt a specific 3D architecture to be functional.1-12 In vitro, most members of these two classes of introns were foun
Group II introns are DNA sequences that are interspersed throughout the genomes of organisms from al...
supports the theory that spliceosomal snRNAs evolved from portions of group II introns.-splicing, s...
Introns represent almost half of the human genome, yet their vast majority is eliminated from eukary...
Group II introns are self-splicing catalytic RNAs that act as mobile retroelements. It is thought th...
Group I and group II introns are not only catalytic RNAs, but also mobile genetic elements. The succ...
Group I introns are a distinct class of RNA self-splicing introns with an ancient origin. All known ...
RNA splicing, the removal of introns and ligation of exons, is a crucial process during mRNA maturat...
Group II introns are self-splicing catalytic RNAs that are able to excise themselves from pre-mRNAs ...
AbstractRecent functional analysis of catalytic and exon-binding domains from group II autocatalytic...
AbstractBackground: Group I introns self-splice via two consecutive trans-esterification reactions i...
can site [26]. However, patterns of sequence similarity Review TRENDS in Biochemical Sciences Vol.31...
Group II introns are a class of ribozymes capable of self-excision from a nascent pre-mRNA sequence ...
Group II self-splicing introns catalyze autoexcision from precursor RNA tran-scripts by a mechanism ...
Group II introns are ancient ribozymes capable of self-excision and mobility into new genomic locati...
A decade has passed since the first description of RNA splicing and introns. In the interim, introns...
Group II introns are DNA sequences that are interspersed throughout the genomes of organisms from al...
supports the theory that spliceosomal snRNAs evolved from portions of group II introns.-splicing, s...
Introns represent almost half of the human genome, yet their vast majority is eliminated from eukary...
Group II introns are self-splicing catalytic RNAs that act as mobile retroelements. It is thought th...
Group I and group II introns are not only catalytic RNAs, but also mobile genetic elements. The succ...
Group I introns are a distinct class of RNA self-splicing introns with an ancient origin. All known ...
RNA splicing, the removal of introns and ligation of exons, is a crucial process during mRNA maturat...
Group II introns are self-splicing catalytic RNAs that are able to excise themselves from pre-mRNAs ...
AbstractRecent functional analysis of catalytic and exon-binding domains from group II autocatalytic...
AbstractBackground: Group I introns self-splice via two consecutive trans-esterification reactions i...
can site [26]. However, patterns of sequence similarity Review TRENDS in Biochemical Sciences Vol.31...
Group II introns are a class of ribozymes capable of self-excision from a nascent pre-mRNA sequence ...
Group II self-splicing introns catalyze autoexcision from precursor RNA tran-scripts by a mechanism ...
Group II introns are ancient ribozymes capable of self-excision and mobility into new genomic locati...
A decade has passed since the first description of RNA splicing and introns. In the interim, introns...
Group II introns are DNA sequences that are interspersed throughout the genomes of organisms from al...
supports the theory that spliceosomal snRNAs evolved from portions of group II introns.-splicing, s...
Introns represent almost half of the human genome, yet their vast majority is eliminated from eukary...