An AI-based system for gene recognition in Drosophila DNA sequences was designed and implemented. The system consists of two main modules, one for coding exon recognition and one for single gene model construction. The exon recognition module finds a coding exon by recognition of its splice junctions (or translation start) and coding potential. The core of this module is a set of neural networks which evaluate an exon candidate for the possibility of being a true coding exon using the ``recognized`` splice junction (or translation start) and coding signals. The recognition process consists of four steps: generation of an exon candidate pool, elimination of improbable candidates using heuristic rules, candidate evaluation by trained neural n...
Enhancers are non-coding regions of the genome that control the activity of target genes. Recent wor...
Abstract Background Enhancers are non-coding regions of the genome that control the activity of targ...
The Drosophila brain is formed by an invariant set of lineages, each of which is derived from a uniq...
The four nitrogenous bases of DNA spell out the recipes from which proteins are made. A gene typical...
GeneID is a program to predict genes in anonymous genomic sequences designed with a hierarchical str...
Identifying genes within large regions of uncharacterized DNA is a difficult undertaking and is curr...
GeneID is a program to predict genes in anonymous genomic sequences designed with a hierarchical str...
In a number of programs for gene structure prediction in higher eukaryotic genomic sequences, exon p...
Of the many existing eukaryotic gene finding software programs, none are able to guarantee accurate ...
This paper presents an algorithm for combining pattern recognition-based exon prediction and databas...
The major result of the project is the development of a new approach to gene recognition called spli...
Drosophila melanogaster (fruit fly) has been a popu-lar model organism in animal genetics due to the...
Two independent computer systems, NetPlantGene and AMELIE, dedicated to the identification of splice...
[[abstract]]GeneAlign is a coding exon prediction tool for predicting protein coding genes by measur...
License, which permits unrestricted use, distribution, and reproduction in any medium, provided the ...
Enhancers are non-coding regions of the genome that control the activity of target genes. Recent wor...
Abstract Background Enhancers are non-coding regions of the genome that control the activity of targ...
The Drosophila brain is formed by an invariant set of lineages, each of which is derived from a uniq...
The four nitrogenous bases of DNA spell out the recipes from which proteins are made. A gene typical...
GeneID is a program to predict genes in anonymous genomic sequences designed with a hierarchical str...
Identifying genes within large regions of uncharacterized DNA is a difficult undertaking and is curr...
GeneID is a program to predict genes in anonymous genomic sequences designed with a hierarchical str...
In a number of programs for gene structure prediction in higher eukaryotic genomic sequences, exon p...
Of the many existing eukaryotic gene finding software programs, none are able to guarantee accurate ...
This paper presents an algorithm for combining pattern recognition-based exon prediction and databas...
The major result of the project is the development of a new approach to gene recognition called spli...
Drosophila melanogaster (fruit fly) has been a popu-lar model organism in animal genetics due to the...
Two independent computer systems, NetPlantGene and AMELIE, dedicated to the identification of splice...
[[abstract]]GeneAlign is a coding exon prediction tool for predicting protein coding genes by measur...
License, which permits unrestricted use, distribution, and reproduction in any medium, provided the ...
Enhancers are non-coding regions of the genome that control the activity of target genes. Recent wor...
Abstract Background Enhancers are non-coding regions of the genome that control the activity of targ...
The Drosophila brain is formed by an invariant set of lineages, each of which is derived from a uniq...