Project description:Fox prefrontal cortex snRNA sequencing

Project description:Double digest restriction site associated DNA sequencing (ddRAD-seq) of the red fox in Eurasian Continent and Japanese archipelago

Project description:Vulpes lagopus breed:blue fox Genome sequencing

Project description:Whole genome sequences of North American red foxes

Project description:Domestication leads to a spectrum of striking behavioral changes whose genetic basis remains largely unknown. Silver foxes have been selectively bred for tame and aggressive behaviors for over 50 years at the Institute for Cytology and Genetics in Novosibirsk, Russia. To further understand the genetic basis and molecular mechanisms underlying tame and aggressive behavioral phenotypes segregating in selected strains of the silver fox, we quantified genome-wide gene expression levels using RNA-seq in two selected brain tissues, right prefrontal cortex and basal forebrain, from 12 aggressive and 12 tame individuals. Expression analysis reveals 146 differentially expressed genes in prefrontal cortex between tame and aggressive individuals at a 5% FDR, and 33 hits were found in basal forebrain. These candidates include genes in key pathways known to be critical to neurological processing, such as serotonin and glutamate receptor pathways. The data relate in interesting ways to neurological and pharmacological effects that are actively being studied to understand human aggression. In addition, we identified 31,000 high quality exonic SNPs, 295 of which show significant allele frequency differences between tame and aggressive individuals at an adjust P-value < 0.05 level from gene dropping simulation based on the entire pedigrees. A non-synonymous change in a glutamate receptor, GRM3, is among these significant SNPs, indicating that expression and allele-frequency changes are hitting the same pathways. These changes in expression level and allele frequency might be the direct response to the artificial selection and will help understand the genetic basis of mammalian domestication process.

Project description:Hereditary hyperplastic gingivitis (HHG) is a progressive growth of gingival tissues in foxes resulting in dental encapsulation. It is an autosomal recessive condition displaying a sex-biased penetrance, with an association with superior fur quality. The goal of this study was to explore potential molecular or cellular mechanisms underlying HHG by analysis of global gene expression patterns from Affymetrix Canine 2.0 microarrays cross-referenced. HHG affected and unaffected Vulpes vulpes gingival samples were collected either during pelting season or in the late spring after whelping season. Diagnosis of HHG was made based on early markers of the disease where red, raised, granular gingival tissue was present at the dental margins on the crowns of the teeth. RNA was extracted and hybridization on Affymetrix Canine 2 microarray.

Project description:Vulpes vulpes (red fox)

Project description:gut Metagenome of red fox and corsac fox

Project description:16S rRNA of red fox and corsac fox

Project description:Immunogenetic profiling of red fox