7 pages, 5 figures, 1 tableThe ongoing effort to detect and characterize physical entanglement in biopolymers has so far established that knots are present in many globular proteins and also abound in viral DNA packaged inside bacteriophages. RNA molecules, on the other hand, have not yet been systematically screened for the occurrence of physical knots. We have accordingly undertaken the systematic profiling of the ~6,000 RNA structures present in the protein data bank. The search identified no more than three deeply-knotted RNA molecules. These are ribosomal RNAs solved by cryo-em and consist of about 3,000 nucleotides. Compared to the case of proteins and viral DNA, the observed incidence of RNA knots is therefore practically negligible....
The mechanism of folding of deeply knotted proteins into their native structure is still not underst...
Because the chemical and biological properties of many RNAs are deter-mined by their conformations, ...
Our understanding of the structural, folding and catalytic properties of RNA molecules has increased...
The ongoing effort to detect and characterize physical entanglement in biopolymers has so far establ...
Physical entanglement, and particularly knots arise spontaneously in equilibrated polymers that are ...
Knots and entanglements are ubiquitous. Beyond their aesthetic appeal, these fascinating topological...
Ribonucleic Acid (RNA) is an important cellular macromolecule vital to most if not all life on Earth...
RNA structure is at the forefront of our understanding of the origin of life, and the mechanisms of...
Knots have a plethora of applications in our daily life from fishing to securing surgical sutures. E...
ABSTRACT: Noncoding RNA sequences play a great role in controlling a number of cellular functions, t...
RNA can self-assemble into complex structures through base pairing, as well as encode information an...
The structural elements that now exist in RNA must have evolved to pro-vide chemical stability and t...
ABSTRACT: Hairpin secondary structural elements play important roles in the folding and function of ...
Ropes or yarns, especially when disorderly packed, are prone to develop knots. Polymers are no excep...
There are a wide variety of non-coding RNAs that fold into well-defined 3D shapes and play important...
The mechanism of folding of deeply knotted proteins into their native structure is still not underst...
Because the chemical and biological properties of many RNAs are deter-mined by their conformations, ...
Our understanding of the structural, folding and catalytic properties of RNA molecules has increased...
The ongoing effort to detect and characterize physical entanglement in biopolymers has so far establ...
Physical entanglement, and particularly knots arise spontaneously in equilibrated polymers that are ...
Knots and entanglements are ubiquitous. Beyond their aesthetic appeal, these fascinating topological...
Ribonucleic Acid (RNA) is an important cellular macromolecule vital to most if not all life on Earth...
RNA structure is at the forefront of our understanding of the origin of life, and the mechanisms of...
Knots have a plethora of applications in our daily life from fishing to securing surgical sutures. E...
ABSTRACT: Noncoding RNA sequences play a great role in controlling a number of cellular functions, t...
RNA can self-assemble into complex structures through base pairing, as well as encode information an...
The structural elements that now exist in RNA must have evolved to pro-vide chemical stability and t...
ABSTRACT: Hairpin secondary structural elements play important roles in the folding and function of ...
Ropes or yarns, especially when disorderly packed, are prone to develop knots. Polymers are no excep...
There are a wide variety of non-coding RNAs that fold into well-defined 3D shapes and play important...
The mechanism of folding of deeply knotted proteins into their native structure is still not underst...
Because the chemical and biological properties of many RNAs are deter-mined by their conformations, ...
Our understanding of the structural, folding and catalytic properties of RNA molecules has increased...