AbstractA paper in a recent issue of Science describes the first high-resolution structure of part of the catalytic core of a group II intron that will allow more detailed comparisons between the excision of introns by self-splicing group II introns and by nuclear pre-mRNA introns
Group II introns are ancient ribozymes capable of self-excision and mobility into new genomic locati...
International audienceThe 2'-5' branch of nuclear premessenger introns is believed to have been inhe...
The catalytic core of Group I self-splicing introns has been proposed to consist of two structural d...
SummaryGroup II introns are mobile genetic elements that have been implicated as agents of genetic d...
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 ...
The group II intron and the spliceosome share a common active site architecture and are thought to b...
Group II introns are self-splicing catalytic RNAs that are able to excise themselves from pre-mRNAs ...
Group II introns are DNA sequences that are interspersed throughout the genomes of organisms from al...
Group II self-splicing introns catalyze autoexcision from precursor RNA tran-scripts by a mechanism ...
Group II introns are self-splicing catalytic RNAs that act as mobile retroelements. It is thought th...
RNA splicing, the removal of introns and ligation of exons, is a crucial process during mRNA maturat...
AbstractA paper in a recent issue of Science describes the first high-resolution structure of part o...
International audienceWe have used chemical footprinting, kinetic dissection of reactions and compar...
Group I and group II introns are not only catalytic RNAs, but also mobile genetic elements. The succ...
Group II introns are ancient ribozymes capable of self-excision and mobility into new genomic locati...
International audienceThe 2'-5' branch of nuclear premessenger introns is believed to have been inhe...
The catalytic core of Group I self-splicing introns has been proposed to consist of two structural d...
SummaryGroup II introns are mobile genetic elements that have been implicated as agents of genetic d...
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 ...
The group II intron and the spliceosome share a common active site architecture and are thought to b...
Group II introns are self-splicing catalytic RNAs that are able to excise themselves from pre-mRNAs ...
Group II introns are DNA sequences that are interspersed throughout the genomes of organisms from al...
Group II self-splicing introns catalyze autoexcision from precursor RNA tran-scripts by a mechanism ...
Group II introns are self-splicing catalytic RNAs that act as mobile retroelements. It is thought th...
RNA splicing, the removal of introns and ligation of exons, is a crucial process during mRNA maturat...
AbstractA paper in a recent issue of Science describes the first high-resolution structure of part o...
International audienceWe have used chemical footprinting, kinetic dissection of reactions and compar...
Group I and group II introns are not only catalytic RNAs, but also mobile genetic elements. The succ...
Group II introns are ancient ribozymes capable of self-excision and mobility into new genomic locati...
International audienceThe 2'-5' branch of nuclear premessenger introns is believed to have been inhe...
The catalytic core of Group I self-splicing introns has been proposed to consist of two structural d...
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