One of the main problems in functional genomics is the prediction of the unknown gene/protein functions. With the rapid increase of high-throughput technologies, the vast amount of biological data describing different aspects of cellular functioning became available and made it possible to use them as the additional information sources for function prediction and to improve their accuracy.In our research, we have described an approach to protein function prediction on the basis of integration of several biological datasets. Initially, each dataset is presented in the form of a graph (or network), where the nodes represent genes or their products and the edges represent physical, functional or chemical relationships between nodes. The integr...
The number of known protein sequences is growing faster than the number of curated protein functions...
Dramatic improvements in high throughput sequencing technologies have led to a staggering growth in ...
Dramatic improvements in high throughput sequencing technologies have led to a staggering growth in ...
Many previous works in protein function prediction make predictions one function at a time, fundamen...
Abstract Background: Most successful computational ap...
A variety of recently available high throughput data sets, such as protein-protein interaction netwo...
The rapid development of high-throughput technology has generated a large number of biological netwo...
The rapid development of the whole-genome sequencing methods and their reducing cost resulted in a h...
Abstract. Many previous computational methods for protein function prediction make prediction one fu...
permits unrestricted use, distribution, and reproduction in any medium, provided the original work i...
In the genomics era, the interactions between proteins are at the center of attention. Genomic-conte...
A large number and variety of genome-wide genomics and proteomics datasets are now available for mod...
The functional characterization of all genes and their gene products is the main challenge of the po...
The cellular metabolism of a living organism is among the most complex systems that man is currently...
Predicting the biological function of all the genes of an organism is one of the fundamental goals o...
The number of known protein sequences is growing faster than the number of curated protein functions...
Dramatic improvements in high throughput sequencing technologies have led to a staggering growth in ...
Dramatic improvements in high throughput sequencing technologies have led to a staggering growth in ...
Many previous works in protein function prediction make predictions one function at a time, fundamen...
Abstract Background: Most successful computational ap...
A variety of recently available high throughput data sets, such as protein-protein interaction netwo...
The rapid development of high-throughput technology has generated a large number of biological netwo...
The rapid development of the whole-genome sequencing methods and their reducing cost resulted in a h...
Abstract. Many previous computational methods for protein function prediction make prediction one fu...
permits unrestricted use, distribution, and reproduction in any medium, provided the original work i...
In the genomics era, the interactions between proteins are at the center of attention. Genomic-conte...
A large number and variety of genome-wide genomics and proteomics datasets are now available for mod...
The functional characterization of all genes and their gene products is the main challenge of the po...
The cellular metabolism of a living organism is among the most complex systems that man is currently...
Predicting the biological function of all the genes of an organism is one of the fundamental goals o...
The number of known protein sequences is growing faster than the number of curated protein functions...
Dramatic improvements in high throughput sequencing technologies have led to a staggering growth in ...
Dramatic improvements in high throughput sequencing technologies have led to a staggering growth in ...