AbstractKnotted proteins have their native structures arranged in the form of an open knot. In the last ten years researchers have been making significant efforts to reveal their folding mechanism and understand which functional advantage(s) knots convey to their carriers. Molecular simulations have been playing a fundamental role in this endeavor, and early computational predictions about the knotting mechanism have just been confirmed in wet lab experiments. Here we review a collection of simulation results that allow outlining the current status of the field of knotted proteins, and discuss directions for future research
This work explores the impact of knots, knot depth and motif of the threading terminus in protein fo...
During the last two decades, an enormous amount of information has been obtained on how proteins fol...
Although rare, an increasing number of proteins have been observed to contain entanglements in their...
AbstractKnotted proteins have their native structures arranged in the form of an open knot. In the l...
Most proteins, in order to perform their biological function, have to fold to a compact native state...
Entanglement and knots occur across all aspects of the physical world. Despite the common belief tha...
The folding of knotted proteins remains a mystery both for theoreticians and experimentalists. Despi...
How knotted proteins fold has remained controversial since the identification of deeply knotted prot...
Over the years, advances in experimental and computational methods have helped us to understand the ...
Knotted proteins, because of their ability to fold reversibly in the same topologically entangled co...
For several decades, the presence of knots in naturally-occurring proteins was largely ruled out a p...
For several decades, the presence of knots in naturally-occurring proteins was largely ruled out a p...
Over the years, advances in experimental and computational methods have helped us to understand the ...
The role of knots in proteins is still unclear. In this short review, we summarize the current knowl...
Knotted proteins, because of their ability to fold reversibly in the same topologically entangled co...
This work explores the impact of knots, knot depth and motif of the threading terminus in protein fo...
During the last two decades, an enormous amount of information has been obtained on how proteins fol...
Although rare, an increasing number of proteins have been observed to contain entanglements in their...
AbstractKnotted proteins have their native structures arranged in the form of an open knot. In the l...
Most proteins, in order to perform their biological function, have to fold to a compact native state...
Entanglement and knots occur across all aspects of the physical world. Despite the common belief tha...
The folding of knotted proteins remains a mystery both for theoreticians and experimentalists. Despi...
How knotted proteins fold has remained controversial since the identification of deeply knotted prot...
Over the years, advances in experimental and computational methods have helped us to understand the ...
Knotted proteins, because of their ability to fold reversibly in the same topologically entangled co...
For several decades, the presence of knots in naturally-occurring proteins was largely ruled out a p...
For several decades, the presence of knots in naturally-occurring proteins was largely ruled out a p...
Over the years, advances in experimental and computational methods have helped us to understand the ...
The role of knots in proteins is still unclear. In this short review, we summarize the current knowl...
Knotted proteins, because of their ability to fold reversibly in the same topologically entangled co...
This work explores the impact of knots, knot depth and motif of the threading terminus in protein fo...
During the last two decades, an enormous amount of information has been obtained on how proteins fol...
Although rare, an increasing number of proteins have been observed to contain entanglements in their...