Add to ORKGConservation of gene order in prokaryotes has become important in predicting protein function because, over the evolutionary timescale, genomes are shuffled so that local gene-order conservation reflects the functional constraints within the protein. Here, we compare closely related genomes to identify the rate with which gene order is disrupted and to infer the genes involved in the genome rearrangement
The myriad protein-coding genes found in present-day eukaryotes arose from a combination of speciati...
The myriad protein-coding genes found in present-day eukaryotes arose from a combination of speciati...
The myriad protein-coding genes found in present-day eukaryotes arose from a combination of speciati...
The electronic version of this article is the complete one and can be found online at http://genome...
Comparative genomics reveals differences in gene order among species. In the genomes, genes are rear...
BACKGROUND: Gene organization dynamics is actively studied because it provides useful evolutionary i...
Comparative genomics reveals differences in gene order among species. In the genomes, genes are rear...
Comparative genomics reveals differences in gene order among species. In the genomes, genes are rear...
The order of genes in eukaryotes is not entirely random. Studies of gene order conservation are impo...
Comparative genomics reveals differences in gene order among species. In the genomes, genes are rear...
The order of genes in eukaryotes is not entirely random. Studies of gene order conservation are impo...
Comparisons of the gene order in closely related genomes reveal a major role for inversions in the g...
Item does not contain fulltextComparisons of the gene order in closely related genomes reveal a majo...
The ever increasing amount of annotated genomic sequences permits now to shed light on the molecular...
The myriad protein-coding genes found in present-day eukaryotes arose from a combination of speciati...
The myriad protein-coding genes found in present-day eukaryotes arose from a combination of speciati...
The myriad protein-coding genes found in present-day eukaryotes arose from a combination of speciati...
The myriad protein-coding genes found in present-day eukaryotes arose from a combination of speciati...
The electronic version of this article is the complete one and can be found online at http://genome...
Comparative genomics reveals differences in gene order among species. In the genomes, genes are rear...
BACKGROUND: Gene organization dynamics is actively studied because it provides useful evolutionary i...
Comparative genomics reveals differences in gene order among species. In the genomes, genes are rear...
Comparative genomics reveals differences in gene order among species. In the genomes, genes are rear...
The order of genes in eukaryotes is not entirely random. Studies of gene order conservation are impo...
Comparative genomics reveals differences in gene order among species. In the genomes, genes are rear...
The order of genes in eukaryotes is not entirely random. Studies of gene order conservation are impo...
Comparisons of the gene order in closely related genomes reveal a major role for inversions in the g...
Item does not contain fulltextComparisons of the gene order in closely related genomes reveal a majo...
The ever increasing amount of annotated genomic sequences permits now to shed light on the molecular...
The myriad protein-coding genes found in present-day eukaryotes arose from a combination of speciati...
The myriad protein-coding genes found in present-day eukaryotes arose from a combination of speciati...
The myriad protein-coding genes found in present-day eukaryotes arose from a combination of speciati...
The myriad protein-coding genes found in present-day eukaryotes arose from a combination of speciati...