Add to ORKGWe describe a new method for simultaneously identifying novel homologous genes with identical structure in the human, mouse, and rat genomes by combining pairwise predictions made with the SLAM gene-finding program. Using this method, we found 3698 gene triples in the human, mouse, and rat genomes which are predicted with exactly the same gene structure. We show, both computationally and experimentally, that the introns of these triples are predicted accurately as compared with the introns of other ab initio gene prediction sets. Computationally, we compared the introns of these gene triples, as well as those from other ab initio gene finders, with known intron annotations. We show that a unique property of SLAM, namely that it predicts gen...
A complete and accurate set of human protein-coding gene annotations is perhaps the single most impo...
One of the primary tasks in deciphering the functional contents of a newly sequenced genome is the i...
Given the increasing number of available genomic sequences, one now faces the task of identifying th...
We describe a new method for simultaneously identifying novel homologous genes with identical struct...
The publication of a draft sequence of a third mammalian genome—that of the rat—suggests a need to r...
A primary motivation for sequencing the mouse genome was to accelerate the discovery of mammalian ge...
A primary motivation for sequencing the mouse genome was to accelerate the discovery of mammalian ge...
The completion of the sequencing of the mouse genome promises to help predict human genes with great...
We describe a novel analytical approach to gene recognition based on cross-species comparison. We fi...
The completion of the mouse and other mammalian genome sequences will provide necessary, but not suf...
Comparative-based gene recognition is driven by the principle that conserved regions between related...
AbstractA highly automated RT-PCR-based approach has been established to validate novel human gene p...
SLAM is a program that simultaneously aligns and annotates pairs of homologous sequences. The SLAM w...
Recently gene prediction has become a critical research area in computational biology. This thesis i...
We describe a novel analytical approach to gene recognition based on cross-species comparison We fir...
A complete and accurate set of human protein-coding gene annotations is perhaps the single most impo...
One of the primary tasks in deciphering the functional contents of a newly sequenced genome is the i...
Given the increasing number of available genomic sequences, one now faces the task of identifying th...
We describe a new method for simultaneously identifying novel homologous genes with identical struct...
The publication of a draft sequence of a third mammalian genome—that of the rat—suggests a need to r...
A primary motivation for sequencing the mouse genome was to accelerate the discovery of mammalian ge...
A primary motivation for sequencing the mouse genome was to accelerate the discovery of mammalian ge...
The completion of the sequencing of the mouse genome promises to help predict human genes with great...
We describe a novel analytical approach to gene recognition based on cross-species comparison. We fi...
The completion of the mouse and other mammalian genome sequences will provide necessary, but not suf...
Comparative-based gene recognition is driven by the principle that conserved regions between related...
AbstractA highly automated RT-PCR-based approach has been established to validate novel human gene p...
SLAM is a program that simultaneously aligns and annotates pairs of homologous sequences. The SLAM w...
Recently gene prediction has become a critical research area in computational biology. This thesis i...
We describe a novel analytical approach to gene recognition based on cross-species comparison We fir...
A complete and accurate set of human protein-coding gene annotations is perhaps the single most impo...
One of the primary tasks in deciphering the functional contents of a newly sequenced genome is the i...
Given the increasing number of available genomic sequences, one now faces the task of identifying th...