Add to ORKGThe human 15.5K protein binds to the 5' stem–loop of U4 snRNA, promotes the assembly of the spliceosomal U4/U6 snRNP, and is required for the recruitment of the 61K protein and the 20/60/90K protein complex to the U4 snRNA. In the crystallographic structure of the 15.5K–U4 snRNA complex, the conformation of the RNA corresponds to the family of kink-turn (K-turn) structural motifs. We simulated the complex and the free RNA, showing how the protein binding and the intrinsic flexibility contribute to the RNA folding process. We found that the RNA is significantly more flexible in the absence of the 15.5K protein. Conformational transitions such as the interconversion between alternative purine stacking schemes, the loss of G-A base pairs, and ...
During activation of the spliceosome,, the U4/U6 snRNA duplex is dissociated, releasing U6 for subse...
The kink turn (k-turn) is a frequently occurring motif, comprising a bulge followed by G•A and A•G p...
Non-coding RNAs associate with proteins to form ribonucleoproteins (RNPs), such as ribosome, box C/D...
The human 15.5K protein binds to the 5' stem–loop of U4 snRNA, promotes the assembly of the spliceos...
The human 15.5K protein binds to the 5' stem-loop of U4 snRNA (KtU4), promotes the assembly of the s...
Upon binding to the 15.5K protein, two tandem-sheared G–A base pairs are formed in the internal loop...
The kink turn (K-turn) is a common motif in RNA structure, found in many RNA species important in tr...
K-turn motifs are universal RNA structural elements providing a binding platform for proteins in sev...
K-turn motifs are universal RNA structural elements providing a binding platform for proteins in sev...
The kink-turn (k-turn) is a widespread structural motif found in functional RNA species. It typicall...
In large ribonucleoprotein machines, such as ribo-somes and spliceosomes, RNA functions as an as-sem...
Spliceosomes catalyze the maturation of precursor mRNAs from yeast to humans. Their catalytic core c...
AbstractKink-turn (K-turn) motifs are asymmetric internal loops found at conserved positions in dive...
k-turns are commonly-occurring motifs that introduce sharp kinks into duplex RNA, thereby facilitati...
During activation of the spliceosome,, the U4/U6 snRNA duplex is dissociated, releasing U6 for subse...
The kink turn (k-turn) is a frequently occurring motif, comprising a bulge followed by G•A and A•G p...
Non-coding RNAs associate with proteins to form ribonucleoproteins (RNPs), such as ribosome, box C/D...
The human 15.5K protein binds to the 5' stem–loop of U4 snRNA, promotes the assembly of the spliceos...
The human 15.5K protein binds to the 5' stem-loop of U4 snRNA (KtU4), promotes the assembly of the s...
Upon binding to the 15.5K protein, two tandem-sheared G–A base pairs are formed in the internal loop...
The kink turn (K-turn) is a common motif in RNA structure, found in many RNA species important in tr...
K-turn motifs are universal RNA structural elements providing a binding platform for proteins in sev...
K-turn motifs are universal RNA structural elements providing a binding platform for proteins in sev...
The kink-turn (k-turn) is a widespread structural motif found in functional RNA species. It typicall...
In large ribonucleoprotein machines, such as ribo-somes and spliceosomes, RNA functions as an as-sem...
Spliceosomes catalyze the maturation of precursor mRNAs from yeast to humans. Their catalytic core c...
AbstractKink-turn (K-turn) motifs are asymmetric internal loops found at conserved positions in dive...
k-turns are commonly-occurring motifs that introduce sharp kinks into duplex RNA, thereby facilitati...
During activation of the spliceosome,, the U4/U6 snRNA duplex is dissociated, releasing U6 for subse...
The kink turn (k-turn) is a frequently occurring motif, comprising a bulge followed by G•A and A•G p...
Non-coding RNAs associate with proteins to form ribonucleoproteins (RNPs), such as ribosome, box C/D...