Add to ORKGBackground: A number of studies have used protein interaction data alone for protein function prediction. Here, we introduce a computational approach for annotation of enzymes, based on the observation that similar protein sequences are more likely to perform the same function if they share similar interacting partners. Results: The method has been tested against the PSI-BLAST program using a set of 3,890 protein sequences from which interaction data was available. For protein sequences that align with at least 40% sequence identity to a known enzyme, the specificity of our method in predicting the first three EC digits increased from 80% to 90% at 80% coverage when compared to PSI-BLAST. Conclusion: Our method can also be used in proteins ...
A computational method is proposed for inferring protein interactions from genome sequences on the b...
Protein sequence annotation is a major challenge in the post-genomic era. The number of uncharacteri...
The number of known protein sequences is growing faster than the number of curated protein functions...
Abstract Background A number of studies have used protein interaction data alone for protein functio...
Although homologous proteins do not necessarily exhibitidentical biochemical functions, local and gl...
Abstract Background With the development of genome-sequencing technologies, protein sequences are re...
Determining protein structure and function experimentally is both costly and time consuming. Transfe...
Improving the overall annotation level of genomes and completeness of biological pathways with high ...
Background: Structural genomics projects such as the Protein Structure Initiative (PSI) yield many n...
Improving accuracy of protein-protein interaction prediction by considering the converse problem for...
Abstract Background Protein-protein interactions underlie many important biological processes. Compu...
Relatively few protein structures are known, compared to the enormous amount of sequence data produc...
A computational method is proposed for inferring protein interactions from genome sequences on the b...
Predicting protein function from primary sequence is an important open problem in modern biology. No...
Protein sequence annotation is a major challenge in the post-genomic era. The number of uncharacteri...
A computational method is proposed for inferring protein interactions from genome sequences on the b...
Protein sequence annotation is a major challenge in the post-genomic era. The number of uncharacteri...
The number of known protein sequences is growing faster than the number of curated protein functions...
Abstract Background A number of studies have used protein interaction data alone for protein functio...
Although homologous proteins do not necessarily exhibitidentical biochemical functions, local and gl...
Abstract Background With the development of genome-sequencing technologies, protein sequences are re...
Determining protein structure and function experimentally is both costly and time consuming. Transfe...
Improving the overall annotation level of genomes and completeness of biological pathways with high ...
Background: Structural genomics projects such as the Protein Structure Initiative (PSI) yield many n...
Improving accuracy of protein-protein interaction prediction by considering the converse problem for...
Abstract Background Protein-protein interactions underlie many important biological processes. Compu...
Relatively few protein structures are known, compared to the enormous amount of sequence data produc...
A computational method is proposed for inferring protein interactions from genome sequences on the b...
Predicting protein function from primary sequence is an important open problem in modern biology. No...
Protein sequence annotation is a major challenge in the post-genomic era. The number of uncharacteri...
A computational method is proposed for inferring protein interactions from genome sequences on the b...
Protein sequence annotation is a major challenge in the post-genomic era. The number of uncharacteri...
The number of known protein sequences is growing faster than the number of curated protein functions...