Molecular phylogeny of the Cricetinae subfamily based on the mitochondrial cytochrome b and 12S rRNA genes and the nuclear vWF gene

Neumann, Karsten; Michaux, Johan; Lebedev, Vladimir S.; Yiğit, Nuri; Çolak, Ercüment; Ivanova, Natalia V.; Poltoraus, Andrey; Surov, A. V.; Марков, Георги; Maak, Steffen; Neumann, Sabine; Gattermann, Rolf

doi:10.1016/j.ympev.2006.01.010

Cited by 101 publications

(77 citation statements)

References 35 publications

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“…Comparative painting and banding within the group permitted the analysis of chromosomal evolution and karyotype relationships within the subfamily resulting in findings that are in broad agreement with molecular data (Neumann et al, 2006). It was determined that Mesocricetus, Tscherskia, Phodopus and Cricetus represent a monophyletic clade (Neumann et al, 2006;Romanenko et al, 2007b). Moreover, different chromosomal rearrangements are characteristic for different lineages.…”

Section: Cricetinaementioning

confidence: 62%

Chromosomal evolution in Rodentia

et al. 2011

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Rodentia is the most species-rich mammalian order and includes several important laboratory model species. The amount of new information on karyotypic and phylogenetic relations within and among rodent taxa is rapidly increasing, but a synthesis of these data is currently lacking. Here, we have integrated information drawn from conventional banding studies, recent comparative painting investigations and molecular phylogenetic reconstructions of different rodent taxa. This permitted a revision of several ancestral karyotypic reconstructions, and a more accurate depiction of rodent chromosomal evolution.

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Section: Cricetinaementioning

confidence: 62%

Chromosomal evolution in Rodentia

et al. 2011

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“…Published studies show that the levels of genetic differentiation in wild golden Syrian hamsters and laboratory strains are low, confirming that all surviving members of the species M. auratus are derived from a limited number of parents [93]. Recently, the analysis of microsatellite loci, used to establish a linkage analysis and to trace patterns of inheritance among populations of wild and laboratory golden hamsters, has shown a reduction in the genetic variability of the population kept in laboratories [96]. This reduction is a consequence of the rupture of Hardy-Weinberg equilibrium in laboratory populations, as well as the effect of inbreeding, because both lead to increased homozygosity in a population.…”

Section: Genetic Variability Of Gash:sal Hamstersmentioning

confidence: 98%

The genetic audiogenic seizure hamster from Salamanca: The GASH:Sal

Muñoz

Carballosa-Gautam

Yanowsky

et al. 2017

Epilepsy & Behavior

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The hamster has been previously described as a paroxysmal dystonia model, but our strain is currently recognized as a model of audiogenic seizures (AGS). The original first epileptic hamster appeared spontaneously at the University of Valladolid, where it was known as the GPG:Vall line, and was transferred to the University of Salamanca where a new strain was developed, named GASH:Sal. By testing auditory brainstem responses, the GASH:Sal exhibits elevated auditory thresholds that indicate a hearing impairment. Moreover, amplified fragment length polymorphism analysis distinguished genetic differences between the susceptible GASH:Sal hamster strain and the control Syrian hamsters. The GASH:Sal constitutes an experimental model of reflex epilepsy of audiogenic origin derived from an autosomal recessive disorder. Thus, the GASH:Sal exhibits generalized tonic-clonic seizures, characterized by a short latency period after auditory stimulation, followed by wild running, a convulsive phase, and finally stupor, with origin in the brainstem. The seizure profile of the GASH:Sal is similar to those exhibited by other models of inherited AGS susceptibility, which decreases after six months of age, but the proneness across generations is maintained. The GASH:Sal can be considered a reliable model of audiogenic seizures, suitable to investigate current antiepileptic pharmaceutical treatments as well as novel therapeutic drugs.This article is part of a Special Issue entitled Genetic Models-Epilepsy.

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“…Nucleotide sequence data from exon 28 of the von Willebrand factor gene have been analyzed in many previous mammalian phylogenetic studies (e.g., Porter et al, 1996;Huchon et al, 1999;Neumann et al, 2006). The 963 bp fragment that we amplified and sequenced for this study is homologous with a single full-length copy in Monodelphis domestica, where the gene is apparently located on chromosome 8.…”

Section: Von Willebrand Factormentioning

confidence: 99%