Add to ORKGAn increasing number of proteins are being found to contain a knot formed by the polypeptide chain. Why and how these complex topologies arise is still far from being fully understood. Here, combining single molecule spectroscopy with molecular dynamics simulations, we carry out a detailed study ...An increasing number of proteins are being found to contain a knot formed by the polypeptide chain. Why and how these complex topologies arise is still far from being fully understood. Here, combining single molecule spectroscopy with molecular dynamics simulations, we carry out a detailed study ...中国化学会生物物理化学专业委员会
Ropes or yarns, especially when disorderly packed, are prone to develop knots. Polymers are no excep...
Knotted proteins, because of their ability to fold reversibly in the same topologically entangled co...
Polypeptide chains form open knots in many proteins. How these knotted proteins fold and finding the...
The knot is one of the most remarkable topological features identified in an increasing number of pr...
The backbones of proteins form linear chains. In the case of some proteins, these chains can be char...
AbstractKnotted proteins have their native structures arranged in the form of an open knot. In the l...
Knots are remarkable topological features in nature. The presence of knots in crystallographic struc...
The backbones of proteins form linear chains. In the case of some proteins, these chains can be char...
AbstractApproximately 1% of known protein structures display knotted configurations in their native ...
Entanglement and knots occur across all aspects of the physical world. Despite the common belief tha...
During the last two decades, an enormous amount of information has been obtained on how proteins fol...
Spontaneous folding of a polypeptide chain into a knotted structure remains one of the most puzzling...
Structurally, proteins follow entropy favorable layouts that have high stability while performing th...
How knotted proteins fold has remained controversial since the identification of deeply knotted prot...
The knotted/slipknotted polypeptide chain is one of the most surprising topological features found i...
Ropes or yarns, especially when disorderly packed, are prone to develop knots. Polymers are no excep...
Knotted proteins, because of their ability to fold reversibly in the same topologically entangled co...
Polypeptide chains form open knots in many proteins. How these knotted proteins fold and finding the...
The knot is one of the most remarkable topological features identified in an increasing number of pr...
The backbones of proteins form linear chains. In the case of some proteins, these chains can be char...
AbstractKnotted proteins have their native structures arranged in the form of an open knot. In the l...
Knots are remarkable topological features in nature. The presence of knots in crystallographic struc...
The backbones of proteins form linear chains. In the case of some proteins, these chains can be char...
AbstractApproximately 1% of known protein structures display knotted configurations in their native ...
Entanglement and knots occur across all aspects of the physical world. Despite the common belief tha...
During the last two decades, an enormous amount of information has been obtained on how proteins fol...
Spontaneous folding of a polypeptide chain into a knotted structure remains one of the most puzzling...
Structurally, proteins follow entropy favorable layouts that have high stability while performing th...
How knotted proteins fold has remained controversial since the identification of deeply knotted prot...
The knotted/slipknotted polypeptide chain is one of the most surprising topological features found i...
Ropes or yarns, especially when disorderly packed, are prone to develop knots. Polymers are no excep...
Knotted proteins, because of their ability to fold reversibly in the same topologically entangled co...
Polypeptide chains form open knots in many proteins. How these knotted proteins fold and finding the...