Pages that link to "Q42679215"
Jump to navigation
Jump to search
The following pages link to A DEAD-box protein functions as an ATP-dependent RNA chaperone in group I intron splicing (Q42679215):
Displaying 50 items.
- RNA helicases at work: binding and rearranging (Q24603646) (← links)
- DEAD-box proteins as RNA helicases and chaperones (Q24631331) (← links)
- RNA misfolding and the action of chaperones (Q24656891) (← links)
- DMS footprinting of structured RNAs and RNA-protein complexes (Q24657868) (← links)
- Group II intron splicing factors derived by diversification of an ancient RNA-binding domain (Q24671529) (← links)
- Influence of RNA structural stability on the RNA chaperone activity of the Escherichia coli protein StpA (Q24806106) (← links)
- RNA helicase proteins as chaperones and remodelers (Q27025517) (← links)
- DEAD-box helicase proteins disrupt RNA tertiary structure through helix capture (Q27313750) (← links)
- Crystal structure of the BstDEAD N-terminal domain: a novel DEAD protein from Bacillus stearothermophilus (Q27642800) (← links)
- Structure of the Yeast DEAD Box Protein Mss116p Reveals Two Wedges that Crimp RNA (Q27657414) (← links)
- Comparative Structural Analysis of Human DEAD-Box RNA Helicases (Q27664991) (← links)
- High-Throughput Genetic Identification of Functionally Important Regions of the Yeast DEAD-Box Protein Mss116p (Q27674440) (← links)
- Recognition of two distinct elements in the RNA substrate by the RNA-binding domain of the T. thermophilus DEAD box helicase Hera (Q27677838) (← links)
- Mne1 is a novel component of the mitochondrial splicing apparatus responsible for processing of a COX1 group I intron in yeast (Q27931366) (← links)
- The splicing of yeast mitochondrial group I and group II introns requires a DEAD-box protein with RNA chaperone function (Q27932450) (← links)
- Involvement of DEAD-box proteins in group I and group II intron splicing. Biochemical characterization of Mss116p, ATP hydrolysis-dependent and -independent mechanisms, and general RNA chaperone activity (Q27933736) (← links)
- Mak5p, which is required for the maintenance of the M1 dsRNA virus, is encoded by the yeast ORF YBR142w and is involved in the biogenesis of the 60S subunit of the ribosome (Q27933744) (← links)
- The splicing factor Prp43p, a DEAH box ATPase, functions in ribosome biogenesis (Q27934180) (← links)
- Differential RNA-dependent ATPase activities of four rRNA processing yeast DEAD-box proteins (Q27934397) (← links)
- Splicing of yeast aI5beta group I intron requires SUV3 to recycle MRS1 via mitochondrial degradosome-promoted decay of excised intron ribonucleoprotein (RNP). (Q27936913) (← links)
- The nucleolar protein Esf2 interacts directly with the DExD/H box RNA helicase, Dbp8, to stimulate ATP hydrolysis (Q27938659) (← links)
- Emerging Roles of RNA-Binding Proteins in Plant Growth, Development, and Stress Responses (Q28071650) (← links)
- Bacterial versatility requires DEAD-box RNA helicases (Q28080639) (← links)
- Strategies for RNA folding and assembly (Q28291162) (← links)
- DEAD-box proteins: the driving forces behind RNA metabolism (Q29619863) (← links)
- Reduced ribosomes of the apicoplast and mitochondrion of Plasmodium spp. and predicted interactions with antibiotics (Q30041159) (← links)
- RNA chaperones buffer deleterious mutations in E. coli. (Q30373007) (← links)
- The recruitment of chromatin modifiers by long noncoding RNAs: lessons from PRC2. (Q30459862) (← links)
- The E. coli RhlE RNA helicase regulates the function of related RNA helicases during ribosome assembly (Q33310573) (← links)
- A nuclear-encoded chloroplast protein harboring a single CRM domain plays an important role in the Arabidopsis growth and stress response (Q33613294) (← links)
- Protein roles in group I intron RNA folding: the tyrosyl-tRNA synthetase CYT-18 stabilizes the native state relative to a long-lived misfolded structure without compromising folding kinetics (Q33618172) (← links)
- Functional and molecular analysis of Escherichia coli strains lacking multiple DEAD-box helicases. (Q33913289) (← links)
- The Q motif: a newly identified motif in DEAD box helicases may regulate ATP binding and hydrolysis (Q33963813) (← links)
- DEAD-box protein CYT-19 is activated by exposed helices in a group I intron RNA. (Q33971823) (← links)
- Catalytic activity as a probe of native RNA folding (Q34211848) (← links)
- DExD/H-box proteins and their partners: helping RNA helicases unwind (Q34221058) (← links)
- Cloning, purification, crystallization and preliminary X-ray crystallographic analysis of the N-terminal domain of DEAD-box RNA helicase from Staphylococcus aureus strain Mu50 (Q34387311) (← links)
- A DEAD-box protein alone promotes group II intron splicing and reverse splicing by acting as an RNA chaperone (Q34574382) (← links)
- RNA chaperones exist and DEAD box proteins get a life (Q34731348) (← links)
- Roles of DEAD-box proteins in RNA and RNP Folding (Q34775640) (← links)
- Germ cell differentiation from pluripotent cells (Q34819792) (← links)
- What's in the genome of a filamentous fungus? Analysis of the Neurospora genome sequence (Q34906123) (← links)
- Vasa genes: emerging roles in the germ line and in multipotent cells (Q34960707) (← links)
- Nonspecific binding to structured RNA and preferential unwinding of an exposed helix by the CYT-19 protein, a DEAD-box RNA chaperone (Q35130667) (← links)
- Solution structures of DEAD-box RNA chaperones reveal conformational changes and nucleic acid tethering by a basic tail (Q35134012) (← links)
- The Azoarcus group I intron ribozyme misfolds and is accelerated for refolding by ATP-dependent RNA chaperone proteins (Q35423608) (← links)
- An allosteric-feedback mechanism for protein-assisted group I intron splicing (Q35608742) (← links)
- DDX3Y gene rescue of a Y chromosome AZFa deletion restores germ cell formation and transcriptional programs (Q36146557) (← links)
- Drosophila RNA binding proteins. (Q36400263) (← links)
- The DEAD-box helicase eIF4A: paradigm or the odd one out? (Q36662305) (← links)