Add to ORKGWe combine comparative genomic measures and the distance separating adjacent genes to predict operons in 124 completely sequenced prokaryotic genomes. Our method automatically tailors itself to each genome using sequence information alone, and thus can be applied to any prokaryote. For Escherichia coli K12 and Bacillus subtilis, our method is 85 and 83% accurate, respectively, which is similar to the accuracy of methods that use the same features but are trained on experimentally characterized transcripts. In Halobacterium NRC-1 and in Helicobacterpylori, our method correctly infers that genes in operons are separated by shorter distances than they are in E.coli, and its predictions using distance alone are more accurate than distance-only ...
Currently, operon prediction is based on the distance of neighboring genes on the functional relatio...
Operons are a major feature of all prokaryotic genomes, but how and why operon structures vary is no...
Background. In prokaryotic organisms, a substantial fraction of adjacent genes are organized into op...
We combine comparative genomic measures and the distance separating adjacent genes to predict opero...
We have carried out a systematic analysis of the contribution of a set of selected features that inc...
An important step in understanding the regulation of a prokaryotic genome is the generation of its t...
For most organisms, computational operon predictions are the only source of genome-wide operon infor...
Background: Inferring operon maps is crucial to understanding the regulatory networks of prokaryotic...
As a specific functional organization of genes in prokaryotic genomes, operon contains a set of adja...
The operon is a specific functional organization of genes found in bacterial genomes. Most genes wit...
Motivation: The operon structure of the prokaryotic genome is a crit-ical input for the reconstructi...
Identification of operon structure is critical to under-standing gene regulation and function, and p...
We present a study on computational identification of uber-operons in a prokaryotic genome, each of ...
We present a computational approach to predicting operons in the genomes of prokaryotic organisms. O...
Abstract Background Inferring operon maps is crucial ...
Currently, operon prediction is based on the distance of neighboring genes on the functional relatio...
Operons are a major feature of all prokaryotic genomes, but how and why operon structures vary is no...
Background. In prokaryotic organisms, a substantial fraction of adjacent genes are organized into op...
We combine comparative genomic measures and the distance separating adjacent genes to predict opero...
We have carried out a systematic analysis of the contribution of a set of selected features that inc...
An important step in understanding the regulation of a prokaryotic genome is the generation of its t...
For most organisms, computational operon predictions are the only source of genome-wide operon infor...
Background: Inferring operon maps is crucial to understanding the regulatory networks of prokaryotic...
As a specific functional organization of genes in prokaryotic genomes, operon contains a set of adja...
The operon is a specific functional organization of genes found in bacterial genomes. Most genes wit...
Motivation: The operon structure of the prokaryotic genome is a crit-ical input for the reconstructi...
Identification of operon structure is critical to under-standing gene regulation and function, and p...
We present a study on computational identification of uber-operons in a prokaryotic genome, each of ...
We present a computational approach to predicting operons in the genomes of prokaryotic organisms. O...
Abstract Background Inferring operon maps is crucial ...
Currently, operon prediction is based on the distance of neighboring genes on the functional relatio...
Operons are a major feature of all prokaryotic genomes, but how and why operon structures vary is no...
Background. In prokaryotic organisms, a substantial fraction of adjacent genes are organized into op...