Single amino-acid substitution in a protein affects its structure and function. These changes are the primary reasons for the advent of many complex diseases. Analyzing single point mutations in a protein is crucial to see their impact and to understand the disease mechanism. This has given many biophysical resources, including databases and web-based tools to explore the effects of mutations on the structure and function of human proteins. For a given mutation, each tool provides a score-based outcomes which indicate deleterious probability. In recent years, developments in existing programs and the introduction of new prediction algorithms have transformed the state-of-the-art protein mutation analysis. In this study, we have performed a ...
Amino acid substitutions in proteins can result in an altered phenotype which might lead to a diseas...
In order to understand the protein functions that are related to disease, it is important to detect ...
There has been a rapid increase in the amount of mutational data due to, amongst other things, an in...
Single amino-acid substitution in a protein affects its structure and function. These changes are th...
Abstract: In Bioinformatics, review of the state of the art about computational tools, including the...
BACKGROUND: Many newly detected point mutations are located in protein-coding regions of the human g...
Next-generation sequencing methods have not only allowed an understanding of genome sequence variati...
Predicting how a point mutation alters a protein’s stability can guide pharmaceutical drug design in...
Background: Many newly detected point mutations are located in protein-coding regions of the human g...
Understanding genetic variation is the basis for prevention and diagnosis of inherited disease. In t...
Understanding the effects that non-synonymous single nucleotide polymorphisms have on the structures...
Motivation: Advances in high-throughput genotyping and next generation sequencing have generated a v...
Motivation: Accurate prediction of protein stability is important for understanding the molecular un...
Over the past two decades, several computational methods have been proposed to predict how missense ...
International audienceBackgroundDifferent types of in silico approaches can be used to predict the p...
Amino acid substitutions in proteins can result in an altered phenotype which might lead to a diseas...
In order to understand the protein functions that are related to disease, it is important to detect ...
There has been a rapid increase in the amount of mutational data due to, amongst other things, an in...
Single amino-acid substitution in a protein affects its structure and function. These changes are th...
Abstract: In Bioinformatics, review of the state of the art about computational tools, including the...
BACKGROUND: Many newly detected point mutations are located in protein-coding regions of the human g...
Next-generation sequencing methods have not only allowed an understanding of genome sequence variati...
Predicting how a point mutation alters a protein’s stability can guide pharmaceutical drug design in...
Background: Many newly detected point mutations are located in protein-coding regions of the human g...
Understanding genetic variation is the basis for prevention and diagnosis of inherited disease. In t...
Understanding the effects that non-synonymous single nucleotide polymorphisms have on the structures...
Motivation: Advances in high-throughput genotyping and next generation sequencing have generated a v...
Motivation: Accurate prediction of protein stability is important for understanding the molecular un...
Over the past two decades, several computational methods have been proposed to predict how missense ...
International audienceBackgroundDifferent types of in silico approaches can be used to predict the p...
Amino acid substitutions in proteins can result in an altered phenotype which might lead to a diseas...
In order to understand the protein functions that are related to disease, it is important to detect ...
There has been a rapid increase in the amount of mutational data due to, amongst other things, an in...