Abstract
Recent analysis of genome rearrangements in human and mouse genomes revealed evidence for more rearrangements than thought previously and shed light on previously unknown features of mammalian evolution, like breakpoint reuse and numerous microrearrangements. However, two-way analysis cannot reveal the genomic architecture of ancestral mammals or assign rearrangement events to different lineages. Thus, the “original synteny” problem introduced by Nadeau and Sankoff previously, remains unsolved, as at least three mammalian genomes are required to derive the ancestral mammalian karyotype. We show that availability of the rat genome allows one to reconstruct a putative genomic architecture of the ancestral murid rodent genome. This reconstruction suggests that this ancestral genome retained many previously postulated chromosome associations in the placental ancestor and reveals others that were beyond the resolution of cytogenetic, radiation hybrid mapping, and chromosome painting techniques. Three-way analysis of rearrangements leads to a reliable reconstruction of the genomic architecture of specific regions in the murid ancestor, including the X chromosome, and for the first time allows one to assign major rearrangement events to one of human, mouse, and rat lineages. Our analysis implies that the rate of rearrangements is much higher in murid rodents than in the human lineage and confirms the existence of rearrangement hot-spots in all three lineages.
Keywords
BiologyGenomeSyntenyEvolutionary biologyLineage (genetic)Most recent common ancestorGeneticsHuman genomeBreakpointChromosomeEvolution of mammalsGenome evolutionGene
Affiliated Institutions
Related Publications
Human Chromosome 19 and Related Regions in Mouse: Conservative and Lineage-Specific Evolution
To illuminate the function and evolutionary history of both genomes, we sequenced mouse DNA related to human chromosome 19. Comparative sequence alignments yielded confirmatory ...
Reconstruction of the vertebrate ancestral genome reveals dynamic genome reorganization in early vertebrates
Although several vertebrate genomes have been sequenced, little is known about the genome evolution of early vertebrates and how large-scale genomic changes such as the two roun...
Comparative analysis of processed ribosomal protein pseudogenes in four mammalian genomes
Abstract Background The availability of genome sequences of numerous organisms allows comparative study of pseudogenes in syntenic regions. Conservation of pseudogenes suggests ...
COMPARATIVE GENOMICS
▪ Abstract The genomes from three mammals (human, mouse, and rat), two worms, and several yeasts have been sequenced, and more genomes will be completed in the near future for c...
Reconstruction of monocotelydoneous proto-chromosomes reveals faster evolution in plants than in animals
Paleogenomics seeks to reconstruct ancestral genomes from the genes of today's species. The characterization of paleo-duplications represented by 11,737 orthologs and 4,382 para...
Publication Info
- Year
- 2004
- Type
- article
- Volume
- 14
- Issue
- 4
- Pages
- 507-516
- Citations
- 238
- Access
- Closed
External Links
Social Impact
Altmetric
PlumX Metrics
Social media, news, blog, policy document mentions
Citation Metrics
238
OpenAlex
Cite This
Guillaume Bourque,
Pavel A. Pevzner,
Glenn Tesler
(2004).
Reconstructing the Genomic Architecture of Ancestral Mammals: Lessons From Human, Mouse, and Rat Genomes.
Genome Research
, 14
(4)
, 507-516.
https://doi.org/10.1101/gr.1975204
Identifiers
- DOI
- 10.1101/gr.1975204