AbstractOne of the greatest challenges in theoretical biophysics and bioinformatics is the identification of protein folds from sequence data. This can be regarded as a pattern recognition problem. In this paper we report the use of a melody generation software where the inputs are derived from calculations of evolutionary information, secondary structure, flexibility, hydropathy and solvent accessibility from multiple sequence alignment data. The melodies so generated are derived from the sequence, and by inference, of the fold, in ways that give each fold a sound representation that may facilitate analysis, recognition, or comparison with other sequences
In fold recognition by threading one takes the amino acid sequence of a protein and evaluates how we...
The protein folding problem aims to predict the complete physical and dynamical process that transfo...
Fold recognition from amino acid sequences plays an important role in identifying protein structures...
One of the greatest challenges in theoretical biophysics and bioinformatics is the identification of...
AbstractOne of the greatest challenges in theoretical biophysics and bioinformatics is the identific...
Introduction: The practice of turning scientific data into music, a practice known as sonification, ...
Background The use of sound to represent sequence data – sonification – has great potential as an al...
Abstract Background The use of sound to represent sequence data—sonification—has great potential as ...
We report the use of a deep learning model to design de novo proteins, based on the interplay of ele...
One of the landmark successes in bioinformatics has been the development of sequence-based algorithm...
We have translated genome-encoded protein sequence into musical notes and created a polyphonic harmo...
Funding: This work was supported by the UKRI Biotechnology and Biological Sciences Research Council ...
Inspired by the traceable analogies between protein sequences and music notes, protein music has bee...
Deciphering three dimensional structure of a protein sequence is a challenging task in biological sc...
Protein fold recognition is an important step towards solving protein function and tertiary structu...
In fold recognition by threading one takes the amino acid sequence of a protein and evaluates how we...
The protein folding problem aims to predict the complete physical and dynamical process that transfo...
Fold recognition from amino acid sequences plays an important role in identifying protein structures...
One of the greatest challenges in theoretical biophysics and bioinformatics is the identification of...
AbstractOne of the greatest challenges in theoretical biophysics and bioinformatics is the identific...
Introduction: The practice of turning scientific data into music, a practice known as sonification, ...
Background The use of sound to represent sequence data – sonification – has great potential as an al...
Abstract Background The use of sound to represent sequence data—sonification—has great potential as ...
We report the use of a deep learning model to design de novo proteins, based on the interplay of ele...
One of the landmark successes in bioinformatics has been the development of sequence-based algorithm...
We have translated genome-encoded protein sequence into musical notes and created a polyphonic harmo...
Funding: This work was supported by the UKRI Biotechnology and Biological Sciences Research Council ...
Inspired by the traceable analogies between protein sequences and music notes, protein music has bee...
Deciphering three dimensional structure of a protein sequence is a challenging task in biological sc...
Protein fold recognition is an important step towards solving protein function and tertiary structu...
In fold recognition by threading one takes the amino acid sequence of a protein and evaluates how we...
The protein folding problem aims to predict the complete physical and dynamical process that transfo...
Fold recognition from amino acid sequences plays an important role in identifying protein structures...