Mlynarski E E, Obergfell C J, Rens W, O'Brien P C M, Ramsdell C M, Dewey M J, O'Neill M J, O'Neill R J
Department of Molecular and Cell Biology, University of Connecticut, Storrs, CT 06269, USA.
Cytogenet Genome Res. 2008;121(3-4):288-92. doi: 10.1159/000138900. Epub 2008 Aug 29.
The Mus musculus and Rattus norvegicus genomes have been extensively studied, yet despite the emergence of Peromyscus maniculatus as an NIH model for genome sequencing and biomedical research much remains unknown about the genome organization of Peromyscines. Contrary to their phylogenetic relationship, the genomes of Rattus and Peromyscus appear more similar at the gross karyotypic level than either does to Mus. We set out to define the chromosome homologies between Peromyscus, Mus and Rattus. Reciprocal cross-species chromosome painting and G-band homology assignments were used to delineate the conserved chromosome homology map between P. maniculatus and M. musculus. These data show that each species has undergone extensive chromosome rearrangements since they last shared a common ancestor 25 million years ago (mya). This analysis coupled with an inferred homology map with Rattus revealed a high level of chromosome conservation between Rattus and Peromyscus and indicated that the chromosomes of Mus are highly derived.
小家鼠和褐家鼠的基因组已得到广泛研究,然而,尽管鹿鼠已成为美国国立卫生研究院(NIH)用于基因组测序和生物医学研究的模型,但关于鹿鼠科动物的基因组组织仍有许多未知之处。与它们的系统发育关系相反,在总体核型水平上,褐家鼠和鹿鼠的基因组比它们与小家鼠的基因组更为相似。我们着手确定鹿鼠、小家鼠和褐家鼠之间的染色体同源性。通过相互跨物种染色体涂染和G带同源性定位,描绘了鹿鼠和小家鼠之间保守的染色体同源图谱。这些数据表明,自它们在2500万年前(mya)最后拥有共同祖先以来,每个物种都经历了广泛的染色体重排。该分析与推断出的与褐家鼠的同源图谱相结合,揭示了褐家鼠和鹿鼠之间高度的染色体保守性,并表明小家鼠的染色体高度分化。