Add to ORKGThe DEAD-box protein Mss116p promotes group II intron splicing in vivo and in vitro. Here we explore two hypotheses for how Mss116p promotes group II intron splicing: by using its RNA unwinding activity to act as an RNA chaperone or by stabilizing RNA folding intermediates. We show that an Mss116p mutant in helicase motif III (SAT/AAA), which was reported to stimulate splicing without unwinding RNA, retains ATP-dependent unwinding activity and promotes unfolding of a structured RNA. Its unwinding activity increases sharply with decreasing duplex length and correlates with group II intron splicing activity in quantitative assays. Additionally, we show that Mss116p can promote ATP-independent RNA unwinding, presumably via single-strand captur...
The group II intron bl1, the first intron of the mltochon-drial cytochrome b gene in yeast is self-s...
AbstractBackground: The dynamic rearrangements of RNA structure which occur during pre-mRNA splicing...
In eukaryotes, there are highly coupled mechanisms that require RNA-binding proteins to facilitate g...
AbstractThe Neurospora crassa CYT-18 protein, the mitochondrial tyrosyl-tRNA synthetase, functions i...
The autocatalytic group II intron ai5c from Saccharomyces cerevisiae self-splices under high-salt co...
AbstractSplicing factors belonging to the DEAD-box superfamily can affect RNA conformation in vitro....
textStructured RNAs are pervasive in biology, spanning a functional repertoire that includes messeng...
Mss116 is a Saccharomyces cerevisiae mitochondrial DEAD-box RNA helicase protein that is essential f...
DEAD-box helicase proteins accelerate folding and rearrangements of highly structured RNAs and RNA–p...
Splicing factors belonging to the DEAD-box superfamily can affect RNA conformation in vitro. These p...
DEAD-box proteins are non-processive helicases that use ATP to power unwinding of short RNA duplexes...
RNA helicases of the DEAD box family are present in all eukaryotic cells and in many bacteria and Ar...
DEAD-box proteins represent the largest family of RNA helicases, present in all three kingdoms of li...
Splicing of mRNA precursors (pre-mRNA) comprises a series of ATP-dependent steps, the first of which...
DEAD-box proteins represent the largest family of RNA helicases, present in all three kingdoms of li...
The group II intron bl1, the first intron of the mltochon-drial cytochrome b gene in yeast is self-s...
AbstractBackground: The dynamic rearrangements of RNA structure which occur during pre-mRNA splicing...
In eukaryotes, there are highly coupled mechanisms that require RNA-binding proteins to facilitate g...
AbstractThe Neurospora crassa CYT-18 protein, the mitochondrial tyrosyl-tRNA synthetase, functions i...
The autocatalytic group II intron ai5c from Saccharomyces cerevisiae self-splices under high-salt co...
AbstractSplicing factors belonging to the DEAD-box superfamily can affect RNA conformation in vitro....
textStructured RNAs are pervasive in biology, spanning a functional repertoire that includes messeng...
Mss116 is a Saccharomyces cerevisiae mitochondrial DEAD-box RNA helicase protein that is essential f...
DEAD-box helicase proteins accelerate folding and rearrangements of highly structured RNAs and RNA–p...
Splicing factors belonging to the DEAD-box superfamily can affect RNA conformation in vitro. These p...
DEAD-box proteins are non-processive helicases that use ATP to power unwinding of short RNA duplexes...
RNA helicases of the DEAD box family are present in all eukaryotic cells and in many bacteria and Ar...
DEAD-box proteins represent the largest family of RNA helicases, present in all three kingdoms of li...
Splicing of mRNA precursors (pre-mRNA) comprises a series of ATP-dependent steps, the first of which...
DEAD-box proteins represent the largest family of RNA helicases, present in all three kingdoms of li...
The group II intron bl1, the first intron of the mltochon-drial cytochrome b gene in yeast is self-s...
AbstractBackground: The dynamic rearrangements of RNA structure which occur during pre-mRNA splicing...
In eukaryotes, there are highly coupled mechanisms that require RNA-binding proteins to facilitate g...