Add to ORKGWe describe a novel analytical approach to gene recognition based on cross-species comparison. We first undertook a comparison of orthologous genomic loci from human and mouse, studying the extent of similarity in the number, size and sequence of exons and introns. We then developed an approach for recognizing genes within such orthologous regions by first aligning the regions using an iterative global alignment system and then identifying genes based on conservation of exonic features at aligned positions in both species. The alignment and gene recognition are performed by new programs calledGLASS and ROSETTA, respectively.ROSETTA performed well at exact identification of coding exons in 117 orthologous pairs tested
We describe a new method for simultaneously identifying novel homologous genes with identical struct...
A complete and accurate set of human protein-coding gene annotations is perhaps the single most impo...
We describe a new method for simultaneously identifying novel homologous genes with identical struct...
We describe a novel analytical approach to gene recognition based on cross-species comparison. We fi...
We describe a novel analytical approach to gene recognition based on cross-species comparison We fir...
Morgenstern B, Rinner O, Abdeddaïm S, et al. Exon discovery by genomic sequence alignment. Bioinfor...
[[abstract]]Identifying protein coding genes is one of most important task in newly sequenced genome...
[[abstract]]Identifying protein coding genes is one of most challenging problems in computational mo...
[[abstract]]GeneAlign is a coding exon prediction tool for predicting protein coding genes by measur...
The evolution of genes is usually studied and reconstructed at the sequence level, that is, by compa...
Recently gene prediction has become a critical research area in computational biology. This thesis i...
Comparative-based gene recognition is driven by the principle that conserved regions between related...
The evolution of genes is usually studied and reconstructed at the sequence level, that is, by compa...
The availability of large fragments of genomic DNA makes it possible to apply comparative genomics f...
One of the primary tasks in deciphering the functional contents of a newly sequenced genome is the i...
We describe a new method for simultaneously identifying novel homologous genes with identical struct...
A complete and accurate set of human protein-coding gene annotations is perhaps the single most impo...
We describe a new method for simultaneously identifying novel homologous genes with identical struct...
We describe a novel analytical approach to gene recognition based on cross-species comparison. We fi...
We describe a novel analytical approach to gene recognition based on cross-species comparison We fir...
Morgenstern B, Rinner O, Abdeddaïm S, et al. Exon discovery by genomic sequence alignment. Bioinfor...
[[abstract]]Identifying protein coding genes is one of most important task in newly sequenced genome...
[[abstract]]Identifying protein coding genes is one of most challenging problems in computational mo...
[[abstract]]GeneAlign is a coding exon prediction tool for predicting protein coding genes by measur...
The evolution of genes is usually studied and reconstructed at the sequence level, that is, by compa...
Recently gene prediction has become a critical research area in computational biology. This thesis i...
Comparative-based gene recognition is driven by the principle that conserved regions between related...
The evolution of genes is usually studied and reconstructed at the sequence level, that is, by compa...
The availability of large fragments of genomic DNA makes it possible to apply comparative genomics f...
One of the primary tasks in deciphering the functional contents of a newly sequenced genome is the i...
We describe a new method for simultaneously identifying novel homologous genes with identical struct...
A complete and accurate set of human protein-coding gene annotations is perhaps the single most impo...
We describe a new method for simultaneously identifying novel homologous genes with identical struct...