The secondary and tertiary structure of a protein has a primary role in determining its function. Even though many folding prediction algorithms have been developed in the past decades — mainly based on the assumption that folding instructions are encoded within the protein sequence — experimental techniques remain the most reliable to establish protein structures. In this paper, we searched for signals related to the formation of α-helices. We carried out a statistical analysis on a large dataset of experimentally characterized secondary structure elements to find over- or under-occurrences of specific amino acids defining the boundaries of helical moieties. To validate our hypothesis, we trained various Machine Learning models, each equip...
Three different strategies to tackle mispredictions from incorrect secondary structure prediction ar...
Proteins are biological macromolecules that perform the most functions in living cells. In order fo...
Abstract Exponential growth in the number of available protein sequences is unmatched by the slower ...
The secondary and tertiary structure of a protein has a primary role in determining its function. Ev...
Deep learning, a powerful methodology for data-driven modelling, has been shown to be useful in tack...
107-114Secondary structure prediction from the primary sequence of a protein is fundamental to unde...
Canonical π-helices are short, relatively unstable secondary structure elements found in proteins. T...
As was the case with RNA folding, the goal is to determine the three-dimensional structure of a prot...
AbstractThere are several possibilities for definition and derivation of sequence patterns associate...
This paper reports an extensive sequence analysis of the α-helices of proteins, α-Helices were extra...
Protein folding is a process of molecular self-assembly during which a disordered polypeptide chain ...
Proteins are macromolecules that carry out important processes in the cells of living organisms, suc...
Life is orchestrated via an interplay of many biomolecules. Any understanding of biomolecular functi...
Data Study Groups are week-long events at The Alan Turing Institute bringing together some of the co...
Abstract Background Predicting the three-dimensional structure of a protein from its amino acid sequ...
Three different strategies to tackle mispredictions from incorrect secondary structure prediction ar...
Proteins are biological macromolecules that perform the most functions in living cells. In order fo...
Abstract Exponential growth in the number of available protein sequences is unmatched by the slower ...
The secondary and tertiary structure of a protein has a primary role in determining its function. Ev...
Deep learning, a powerful methodology for data-driven modelling, has been shown to be useful in tack...
107-114Secondary structure prediction from the primary sequence of a protein is fundamental to unde...
Canonical π-helices are short, relatively unstable secondary structure elements found in proteins. T...
As was the case with RNA folding, the goal is to determine the three-dimensional structure of a prot...
AbstractThere are several possibilities for definition and derivation of sequence patterns associate...
This paper reports an extensive sequence analysis of the α-helices of proteins, α-Helices were extra...
Protein folding is a process of molecular self-assembly during which a disordered polypeptide chain ...
Proteins are macromolecules that carry out important processes in the cells of living organisms, suc...
Life is orchestrated via an interplay of many biomolecules. Any understanding of biomolecular functi...
Data Study Groups are week-long events at The Alan Turing Institute bringing together some of the co...
Abstract Background Predicting the three-dimensional structure of a protein from its amino acid sequ...
Three different strategies to tackle mispredictions from incorrect secondary structure prediction ar...
Proteins are biological macromolecules that perform the most functions in living cells. In order fo...
Abstract Exponential growth in the number of available protein sequences is unmatched by the slower ...