Folding messenger RNA into specific structures is a common regulatory mechanism involved in trans-lation. In Escherichia coli, the operator of the rpsO gene transcript folds into a pseudoknot or double-hairpin conformation. S15, the gene product, binds only to the pseudoknot, thereby repressing its own synthesis when it is present in excess in the cell. The two RNA conformations have been proposed to exist in equilibrium. However, it remained unclear how structural changes can be achieved between these two topologically distinct conformations. We used optical tweezers to study the structural dynamics and rearrangements of the rpsO operator RNA at the single-molecule level. We dis-covered that the two RNA structures can be interchanged spont...
Pseudoknots are a fundamental RNA tertiary structure with important roles in regulation of mRNA tran...
In programmed -1 ribosomal frameshift, an RNA pseudoknot stalls the ribosome at specific sequence an...
The vast conformational space of functional RNAs begs the question of how they achieve structural sp...
Folding messenger RNA into specific structures is a common regulatory mechanism involved in trans-la...
Understanding the folding mechanism of RNAs is critical for studying their structure-function relati...
The functions of RNA pseudoknots (PKs), which are minimal tertiary structural motifs and an integral...
ud pu secondary structure and pseudoknot folding thermodynamics. The folding kinetics theory is base...
Mechanical unfolding studies on Ribonucleic Acid (RNA) structures are a subject of tremendous intere...
Ribonucleic acids have a wide-range of spatial structures to accommodate its diverse biological func...
It is not well understood how the RNA folding and unfolding dynamics, mechanical properties, and bio...
ABSTRACT: Hairpin secondary structural elements play important roles in the folding and function of ...
SummaryNoncoding RNAs form unique 3D structures, which perform many regulatory functions. To underst...
RNA structures are involved in regulating many biological activities such as programmed ribosomal fr...
RNA pseudoknots are structural elements found in almost all classes of RNA. Pseudoknots form when a ...
ABSTRACT: Noncoding RNA sequences play a great role in controlling a number of cellular functions, t...
Pseudoknots are a fundamental RNA tertiary structure with important roles in regulation of mRNA tran...
In programmed -1 ribosomal frameshift, an RNA pseudoknot stalls the ribosome at specific sequence an...
The vast conformational space of functional RNAs begs the question of how they achieve structural sp...
Folding messenger RNA into specific structures is a common regulatory mechanism involved in trans-la...
Understanding the folding mechanism of RNAs is critical for studying their structure-function relati...
The functions of RNA pseudoknots (PKs), which are minimal tertiary structural motifs and an integral...
ud pu secondary structure and pseudoknot folding thermodynamics. The folding kinetics theory is base...
Mechanical unfolding studies on Ribonucleic Acid (RNA) structures are a subject of tremendous intere...
Ribonucleic acids have a wide-range of spatial structures to accommodate its diverse biological func...
It is not well understood how the RNA folding and unfolding dynamics, mechanical properties, and bio...
ABSTRACT: Hairpin secondary structural elements play important roles in the folding and function of ...
SummaryNoncoding RNAs form unique 3D structures, which perform many regulatory functions. To underst...
RNA structures are involved in regulating many biological activities such as programmed ribosomal fr...
RNA pseudoknots are structural elements found in almost all classes of RNA. Pseudoknots form when a ...
ABSTRACT: Noncoding RNA sequences play a great role in controlling a number of cellular functions, t...
Pseudoknots are a fundamental RNA tertiary structure with important roles in regulation of mRNA tran...
In programmed -1 ribosomal frameshift, an RNA pseudoknot stalls the ribosome at specific sequence an...
The vast conformational space of functional RNAs begs the question of how they achieve structural sp...