AbstractAn increasing number of web resources continue to be extensively used by healthcare operators to obtain more accurate diagnostic results. In particular, health care is reaping the benefits of technological advances in genomic for facing the demand of genetic tests that allow a better comprehension of diagnostic results. Within this context, Gene Ontology (GO) is a popular and effective mean for extracting knowledge from a list of genes and evaluating their semantic similarity. This paper investigates about the potential and any limits of GO ontology as support for capturing information about a set of genes which are supposed to play a significant role in a pathological condition. In particular, we present a case study that exploits ...
AbstractGenomics has contributed to a growing collection of gene–function and gene–disease annotatio...
The current increase in Gene Ontology (GO) annotations of proteins in the existing genome databases ...
Gene ontology (GO) is a key initiative of bioinformatics to provide uniform description of gene prod...
An increasing number of web resources continue to be extensively used by healthcare operators to obt...
In recent years, ontologies have been extensively used in many biological fields to support a variet...
This research explores the feasibility of semantic similarity approaches to supporting predictive ta...
This research explores the feasibility of semantic similarity approaches to supporting predictive ta...
Molecular biologists and medical geneticists have to analyse large lists of genes and genomic varian...
With the advent of biological ontologies an increasing amount of methods are emerging for enriching ...
Measuring the semantic similarity between Gene Ontology (GO) terms is an essential step in functiona...
Gene similarity has been an area of great interest in numerous fields for decades, as it can provide...
With high-throughput technologies providing vast amounts of data, it has become more important to pr...
Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, p...
The Gene Ontology (GO) vocabulary has been exten-sively explored to analyze the functions of coex-pr...
Abstract. The analysis of genome-scale data from different high throughput techniques usually involv...
AbstractGenomics has contributed to a growing collection of gene–function and gene–disease annotatio...
The current increase in Gene Ontology (GO) annotations of proteins in the existing genome databases ...
Gene ontology (GO) is a key initiative of bioinformatics to provide uniform description of gene prod...
An increasing number of web resources continue to be extensively used by healthcare operators to obt...
In recent years, ontologies have been extensively used in many biological fields to support a variet...
This research explores the feasibility of semantic similarity approaches to supporting predictive ta...
This research explores the feasibility of semantic similarity approaches to supporting predictive ta...
Molecular biologists and medical geneticists have to analyse large lists of genes and genomic varian...
With the advent of biological ontologies an increasing amount of methods are emerging for enriching ...
Measuring the semantic similarity between Gene Ontology (GO) terms is an essential step in functiona...
Gene similarity has been an area of great interest in numerous fields for decades, as it can provide...
With high-throughput technologies providing vast amounts of data, it has become more important to pr...
Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, p...
The Gene Ontology (GO) vocabulary has been exten-sively explored to analyze the functions of coex-pr...
Abstract. The analysis of genome-scale data from different high throughput techniques usually involv...
AbstractGenomics has contributed to a growing collection of gene–function and gene–disease annotatio...
The current increase in Gene Ontology (GO) annotations of proteins in the existing genome databases ...
Gene ontology (GO) is a key initiative of bioinformatics to provide uniform description of gene prod...