<div><p>While the genome for a given organism stores the information necessary for the organism to function and flourish it is the proteins that are encoded by the genome that perhaps more than anything else characterize the phenotype for that organism. It is therefore not surprising that one of the many approaches to understanding and predicting protein folding and properties has come from genomics and more specifically from multiple sequence alignments. In this work I explore ways in which data derived from sequence alignment data can be used to investigate in a predictive way three different aspects of protein structure: secondary structures, inter-residue contacts and the dynamics of switching between different states of the protein. In...
One of the landmark successes in bioinformatics has been the development of sequence-based algorithm...
Abstract Background Work on protein structure prediction is very useful in biological research. To e...
Proteins are building blocks of life. Proteins exhibit more sequence and chemical complexity than DN...
While the genome for a given organism stores the information necessary for the organism to function ...
While the genome for a given organism stores the information necessary for the organism to function ...
Connecting the dots among the amino acid sequence of a protein, its structure, and its function rema...
The basic operation in analysis of protein evolution is alignment: the specification of residue-resi...
Knowledge of the structure of a protein is essential for understanding the protein's function, but e...
Patterns in amino acid properties (polar, hydrophobic, etc.) that characterize secondary structure m...
Motivation: Is protein secondary structure primarily deter-mined by local interactions between resid...
Motivation: Conformational flexibility is essential to the function of many proteins, e.g. catalytic...
The topic of protein folding can be studied from two different points of view. The first is concerne...
We have developed a general method to compute the structure entropy of protein sequences. Structure ...
Motivation: Conformational flexibility is essential to the function of many proteins, e.g. catalytic...
International audienceOver the last years, biological research has been revolutionized by experiment...
One of the landmark successes in bioinformatics has been the development of sequence-based algorithm...
Abstract Background Work on protein structure prediction is very useful in biological research. To e...
Proteins are building blocks of life. Proteins exhibit more sequence and chemical complexity than DN...
While the genome for a given organism stores the information necessary for the organism to function ...
While the genome for a given organism stores the information necessary for the organism to function ...
Connecting the dots among the amino acid sequence of a protein, its structure, and its function rema...
The basic operation in analysis of protein evolution is alignment: the specification of residue-resi...
Knowledge of the structure of a protein is essential for understanding the protein's function, but e...
Patterns in amino acid properties (polar, hydrophobic, etc.) that characterize secondary structure m...
Motivation: Is protein secondary structure primarily deter-mined by local interactions between resid...
Motivation: Conformational flexibility is essential to the function of many proteins, e.g. catalytic...
The topic of protein folding can be studied from two different points of view. The first is concerne...
We have developed a general method to compute the structure entropy of protein sequences. Structure ...
Motivation: Conformational flexibility is essential to the function of many proteins, e.g. catalytic...
International audienceOver the last years, biological research has been revolutionized by experiment...
One of the landmark successes in bioinformatics has been the development of sequence-based algorithm...
Abstract Background Work on protein structure prediction is very useful in biological research. To e...
Proteins are building blocks of life. Proteins exhibit more sequence and chemical complexity than DN...