Add to ORKGAbstract: DNA mutations are the cause of many human diseases and they are the reason for natural differences among individuals by affecting the structure, function, interactions, and other properties of DNA and expressed proteins. The ability to predict whether a given mutation is disease-causing or harmless is of great importance for the early detection of patients with a high risk of developing a particular disease and would pave the way for personalized medicine and diagnostics. Here we review existing methods and techniques to study and predict the effects of DNA mutations from three different perspectives: in silico, in vitro and in vivo. It is emphasized that the problem is complicated and successful detection of a pathogenic mutation...
Next-generation sequencing methods have not only allowed an understanding of genome sequence variati...
DNA sequence features were sought that could be used for the in silico ascertainment of the likely f...
Pathogenicity of single nucleotide polymorphism is the potential ability to produce disease. Testing...
DNA mutations are the cause of many human diseases and they are the reason for natural differences a...
Abstract: This group of methods is aimed at the identification of single nucleotide-scale differ-enc...
International genome sequencing projects have produced billions of nucleotides (letters) of DNA sequ...
Understanding the effects that non-synonymous single nucleotide polymorphisms have on the structures...
Reduction in time and cost involved in mutation analyses led to a rapid increase in the number of mo...
Single-nucleotide polymorphisms (SNPs) are single-base variants that contribute to human biological ...
Humans differ from each other in their genomes by <1 %. This determines the difference in suscept...
Research into pathogenic mutations is vital and useful for understanding illness progression, progno...
In recent years, we have seen a dramatic improvement in our ability to detect nucleotide changes in ...
Motivation: Advances in high-throughput genotyping and next generation sequencing have generated a v...
Student Symposium -Abstracts selected for posters - Single Nucleotide Polymorphisms are the most co...
Single-point mutation in genome, for example, single-nucleotide polymorphism (SNP) or rare genetic m...
Next-generation sequencing methods have not only allowed an understanding of genome sequence variati...
DNA sequence features were sought that could be used for the in silico ascertainment of the likely f...
Pathogenicity of single nucleotide polymorphism is the potential ability to produce disease. Testing...
DNA mutations are the cause of many human diseases and they are the reason for natural differences a...
Abstract: This group of methods is aimed at the identification of single nucleotide-scale differ-enc...
International genome sequencing projects have produced billions of nucleotides (letters) of DNA sequ...
Understanding the effects that non-synonymous single nucleotide polymorphisms have on the structures...
Reduction in time and cost involved in mutation analyses led to a rapid increase in the number of mo...
Single-nucleotide polymorphisms (SNPs) are single-base variants that contribute to human biological ...
Humans differ from each other in their genomes by <1 %. This determines the difference in suscept...
Research into pathogenic mutations is vital and useful for understanding illness progression, progno...
In recent years, we have seen a dramatic improvement in our ability to detect nucleotide changes in ...
Motivation: Advances in high-throughput genotyping and next generation sequencing have generated a v...
Student Symposium -Abstracts selected for posters - Single Nucleotide Polymorphisms are the most co...
Single-point mutation in genome, for example, single-nucleotide polymorphism (SNP) or rare genetic m...
Next-generation sequencing methods have not only allowed an understanding of genome sequence variati...
DNA sequence features were sought that could be used for the in silico ascertainment of the likely f...
Pathogenicity of single nucleotide polymorphism is the potential ability to produce disease. Testing...