A comparative analysis of MC4R gene sequence, polymorphism, and chromosomal localization in Chinese raccoon dog and Arctic fox

Numerous mutations of the human melanocortin receptor type 4 (MC4R) gene are responsible for monogenic obesity, and some of them appear to be associated with predisposition or resistance to polygenic obesity. Thus, this gene is considered a functional candidate for fat tissue accumulation and body weight in domestic mammals. The aim of the study was comparative analysis of chromosome localization, nucleotide sequence, and polymorphism of the MC4R gene in two farmed species of the Canidae family, namely the Chinese raccoon dog (Nycterutes procyonoides procyonoides) and the arctic fox (Alopex lagopus). The whole coding sequence, including fragments of 3'UTR and 5'UTR, shows 89% similarity between the arctic fox (1276 bp) and Chinese raccoon dog (1213 bp). Altogether, 30 farmed Chinese raccoon dogs and 30 farmed arctic foxes were searched for polymorphisms. In the Chinese raccoon dog, only one silent substitution in the coding sequence was identified; whereas in the arctic fox, four InDels and two single-nucleotide polymorphisms (SNPs) in the 5'UTR and six silent SNPs in the exon were found. The studied gene was mapped by FISH to the Chinese raccoon dog chromosome 9 (NPP9q1.2) and arctic fox chromosome 24 (ALA24q1.2-1.3). The obtained results are discussed in terms of genome evolution of species belonging to the family Canidae and their potential use in animal breeding.     

Association of MC3R gene polymorphisms with body weight in the red fox and comparative gene organization in four canids

There are five genes encoding melanocortin receptors. Among canids, the genes have mainly been studied in the dog (MC1R, MC2R and MC4R). The MC4R gene has also been analysed in the red fox. In this report, we present a study of chromosome localization, comparative sequence analysis and polymorphism of the MC3R gene in the dog, red fox, arctic fox and Chinese raccoon dog. The gene was localized by FISH to the following chromosome: 24q24‐25 in the dog, 14p16 in the red fox, 18q13 in the arctic fox and NPP4p15 in the Chinese raccoon dog. A high identity level of the MC3R gene sequences was observed among the species, ranging from 96.0% (red fox – Chinese raccoon dog) to 99.5% (red fox – arctic fox). Altogether, eight polymorphic sites were found in the red fox, six in the Chinese raccoon dog and two in the dog, while the arctic fox appeared to be monomorphic. In addition, association of several polymorphisms with body weight was analysed in red foxes (the number of genotyped animals ranged from 319 to 379). Two polymorphisms in the red fox, i.e. a silent substitution c.957A>C and c.*185C>T in the 3′‐flanking sequence, showed a significant association (P < 0.01) with body weight.     

Canine 5S rRNA: nucleotide sequence and chromosomal assignment of its gene cluster in four canid species

The purpose of this study was to determine the nucleotide sequence of canine 5S rRNA and use this information to develop a molecular probe to assign the gene locus to chromosomes of the dog and three other related canid species using fluorescence in situ hybridization. The nucleotide sequence of canine liver 5S rRNA is 120 base pairs long and identical to the 5S rRNA nucleotide sequence of all other mammalian species investigated so far. A single 5S rRNA gene cluster was localized pericentromerically on chromosomes of four canid species: dog 4q1.3, red fox 4q1.3, blue fox 3q1.3 and Chinese raccoon dog 8q1.3. Chromosome arms carrying the 5S rRNA gene cluster showed striking similarities in their QFQ banding patterns, suggesting high conservation of these chromosome arms among the four species studied. The chromosomal assignments of 5S rRNA genes are among the first gene mapping results for the blue fox and the Chinese raccoon dog, and are in accordance with published data on comparative chromosome maps from human, dog, red fox, blue fox and raccoon dogs.     

A marker set for construction of a genetic map of the silver fox (Vulpes vulpes)

The silver fox, a variant of the red fox (Vulpes vulpes), is a close relative of the dog (Canis familiaris). Cytogenetic differences and similarities between these species are well understood, but their genomic organizations have not been compared at higher resolution. Differences in their behavior also remain unexplained. Two silver fox strains demonstrating markedly different behavior have been generated at the Institute of Cytology and Genetics of the Russian Academy of Sciences. Foxes selected for tameness are friendly, like domestic dogs, while foxes selected for aggression resist human contact. To refine our understanding of the comparative genomic organization of dogs and foxes, and enable a study of the genetic basis of behavior in these fox strains, we need a meiotic linkage map of the fox. Towards this goal we generated a primary set of fox microsatellite markers. Four hundred canine microsatellites, evenly distributed throughout the canine genome, have been identified that amplify robustly from fox DNA. Polymorphism information content (PIC) values were calculated for a representative subset of these markers and population inbreeding coefficients were determined for tame and aggressive foxes. To begin to identify fox-specific single nucleotide polymorphisms (SNPs) in genes involved in the neurobiology of behavior, fox and dog orthologs of serotonin 5-HT1A and 5-HT1B receptor genes have been cloned. Sequence comparison of these genes from tame and aggressive foxes reveal several SNPs. The close relationship of the fox and dog enables canine genomic tools to be utilized in developing a fox meiotic map and mapping behavioral traits in the fox.     

Variability of CAG tandem repeats in exon 1 of the androgen receptor gene is not related with dog intersexuality

Numerous mutations of the human androgen receptor (AR) gene cause an intersexual phenotype, called the androgen insensitivity syndrome. The intersexual phenotype is also quite often diagnosed in dogs. The aim of this study was to conduct a comparative analysis of the entire coding sequence (eight exons) of the AR gene in healthy and four intersex dogs, as well as in three other canids (the red fox, arctic fox and Chinese raccoon dog). The coding sequence of the studied species appeared to be conserved (similarity above 97%) and polymorphism was found in exon 1 only. Altogether, 2 SNPs were identified in healthy dogs, 14 in red foxes, 16 in arctic foxes and 6 were found in Chinese raccoon dogs, respectively. Moreover, a variable number of tandem repeats (CAG and CAA), encoding an array of glutamines, was also observed in this exon. The CAA codon numbers were invariable within species, but the CAG repeats were polymorphic. The highest number of the CAG and CAA repeats was found in dogs (from 40 to 42) and the observed variability was similar in intersex and healthy dogs. In the other canids the variability fell within the following ranges: 29–37 (red fox), 37–39 (arctic fox) and 29–32 (Chinese raccoon dog). In addition, a polymorphic microsatellite marker in intron 2 was found in the dog, red fox and Chinese raccoon dog. It was concluded that the polymorphism level of the AR gene in the dog was lower than in the other canids and none of the detected polymorphisms, including variability of the CAG tandem repeats, could be related with the intersexual phenotype of the studied dogs.     

Using the dog genome to find single nucleotide polymorphisms in red foxes and other distantly related members of the Canidae

Single nucleotide polymorphisms (SNP) are the ideal marker for characterizing genomic variation but can be difficult to find in nonmodel species. We explored the usefulness of the dog genome for finding SNPs in distantly related nonmodel canids and evaluated so-ascertained SNPs. Using 40 primer pairs designed from randomly selected bacterial artificial chromosome clones from the dog genome, we successfully sequenced 80-88% of loci in a coyote (Canis latrans), grey fox (Urocyon cinereoargenteus), and red fox (Vulpes vulpes), which compared favourably to a 60% success rate for each species using 10 primer pairs conserved across mammals. Loci were minimally heterogeneous with respect to SNP density, which was similar, overall, in a discovery panel of nine red foxes to that previously reported for a panel of eight wolves (Canis lupus). Additionally, individual heterozygosity was similar across the three canids in this study. However, the proportion of SNP sites shared with the dog decreased with phylogenetic divergence, with no SNPs shared between red foxes and dogs. Density of interspecific SNPs increased approximately linearly with divergence time between species. Using red foxes from three populations, we estimated F(ST) based on each of 42 SNPs and 14 microsatellites and simulated null distributions conditioned on each marker type. Relative to SNPs, microsatellites systematically underestimated F(ST) and produced biased null distributions, indicating that SNPs are superior markers for these functions. By reconstituting the frequency spectrum of SNPs discovered in nine red foxes, we discovered an estimated 77-89% of all SNPs (within the region screened) present in North American red foxes. In sum, these findings indicate that information from the dog genome enables easy ascertainment of random and gene-linked SNPs throughout the Canidae and illustrate the value of SNPs in ecological and evolutionary genetics.     

The SNPs of Melanocortin 4 Receptor (MC4R) Associated with Body Weight in Beagle Dogs

Melanocortin 4 receptor (MC4R), which is associated with inherited human obesity, is involoved in food intake and body weight of mammals. To study the relationships between MC4R gene polymorphism and body weight in Beagle dogs, we detected and compared the nucleotide sequence of the whole coding region and 3′- and 5′- flanking regions of the dog MC4R gene (1214 bp). In 120 Beagle dogs, two SNPs (A420C, C895T) were identified and their relation with body weight was analyzed with RFLP-PCR method. The results showed that the SNP at A420C was significantly associated with canine body weight trait when it changed amino acid 101 of the MC4R protein from asparagine to threonine,while canine body weight variations were significant in female dogs when MC4R nonsense mutation at C895T. It suggested that the two SNPs might affect the MC4R gene’s function which was relative to body weight in Beagle dogs. Therefore, MC4R was a candidate gene for selecting different size dogs with the MC4R SNPs (A420C, C895T) being potentially valuable as a genetic marker.     

比格犬MC4R基因多态性与体重相关性的研究

为了分析比格犬黑素皮质素受体-4基因多态性与犬体重的关系, 根据犬MC4R基因DNA外显子序列, 设计MC4R基因特异PCR引物1对, 犬DNA经PCR扩增, 克隆和测序, 寻找和确定犬MC4R基因的多态性位点, 分析多态性与犬体重的关系。结果在比格犬MC4R基因中发现2处单碱基缺失突变, 1个单碱基颠换变异, 存在Psh AⅠ酶切位点, 并基于PshAⅠ酶切位点建立了PCR-RFLP技术。统计分析显示犬MC4R基因型与体重显著相关, 可以考虑将MC4R基因作为犬体重的候选基因。     

Canine heartworm in the domestic and wild canids of southeastern Nebraska

The prevalence of canine heartworm (Dirofilaria immitis) was examined in the domestic dog, coyote (Canis latrans), and red fox (Vulpes fulva) populations of southeastern Nebraska. Microfilariae were detected in 21.4% (22 of 103) of the domestic dogs. The average age of infection for dogs was 5.8 yr. Nine of the 22 infected dogs also were positive for Dipetalonema reconditum. Thirty-nine of 443 (8.9%) coyotes were found to have adult heartworms. The average number of male and female worms per heart was 3.7 and 3.9, respectively. The mean age of infected coyotes was 3.6 yr. Red foxes had an infection rate of 4.8% (1 of 21). This fox heart had only 1 immature female worm. A mail survey of 6 veterinary clinics was also conducted. Veterinarians reported infection rates of 0% to 18.8% in domestic dogs for their localities.     

Spatial use and interaction of the invasive raccoon dog and the native red fox in Central Europe: competition or coexistence?

The main objective was to discover extent of interference and/or exploitative competition between the native red fox (Vulpes vulpes) and the introduced, invasive raccoon dog (Nyctereues proconoides) in the intensively used, agricultural landscape of northeast Germany (Mecklenburg-Western Pomerania) using very high frequency (VHF) radio telemetry. We recorded location data for 12 foxes and 16 raccoon dogs between July 2004 and December 2006. Species had similar average home range sizes estimated in each season (K95). Home ranges of adjacent raccoon dogs and foxes overlapped from 0.5 to 74.5 % with a mean of 26.4 %. We found a significantly different home range overlap index between the species showing that raccoon dog ranges shifted between seasons to a greater extent than red fox ranges. The raccoon dog differed significantly from the red fox in its use of habitat types, preferring dense vegetation cover and avoiding open areas. The red fox displayed less preference for or avoidance of specific habitat types. Moreover, an almost neutral inter-specific interaction index ranging from ?0.12 to 0.12 indicates that raccoon dogs and red foxes ignored each other. It is concluded that widespread and available resources and differences in spatial use patterns prevent competition between red foxes and raccoon dogs in the agricultural landscape of northeast Germany.     

Prevalence of Toxoplasma gondii infection diagnosed by PCR in farmed red foxes, arctic foxes and raccoon dogs

The aim of this study was to compare Toxoplasma gondii infection in three canid species: red fox Vulpes vulpes, arctic fox Vulpes lagopus and raccoon dog Nyctereutesprocyonoides kept at the same farm. Anal swabs were taken from 24 adult and 10 juvenile red foxes, 12 adult arctic foxes, three adult and seven juvenile raccoon dogs. Additionally, muscle samples were taken from 10 juvenile red foxes. PCR was used to detect T. gondii DNA. T. gondii infection was not detected in any of the arctic foxes; 60% ofraccoon dogs were infected; the prevalence of the parasite in material from red fox swabs was intermediate between the prevalence observed in arctic foxes and raccoon dogs. It is possible that susceptibility and immune response to the parasite differ between the three investigated canid species. T. gondii DNA was detected in muscle tissue of five young foxes. The results of this study suggest that T. gondii infection is not rare in farmed canids.     

Genetic polymorphisms in the 5'-flanking region of the melanocortin 1 receptor (<Emphasis Type="Italic">MC1R</Emphasis>) gene in foxes

The one of the key pigment genes, the melanocortin 1 receptor (MC1R) gene, plays a fundamental role in the determination of coat color in a variety of mammals. However, so far there has been no report regarding the genetic variants of the MC1R promoter region and the potential association of its mutations with coat color in foxes. This work aimed to characterize 5'-flanking region of the MC1R gene and its mutations associated with coat color variations in foxes. A total of 76 individuals including 64 red foxes (Vulpes vulpes), representing 11 color morphs, and 12 arctic foxes (Vulpes lagopus), representing 2 color morphs were studied. To explore the potential cause of coat color variation in foxes, an 1105 bp region located upstream of the MC1R gene coding region was sequenced in 76 foxes. In the present study, a 1267 bp 5'-flanking region of fox MC1R gene was obtained using a PCR-mediated chromosome-walking technique and a 1105 bp segment was sequenced. A total of 8 novel SNPs and an insertion/deletion of 4 nucleotides were detected. The results of mutations analysis indicated that SNPs g.-52G>A, g.-266A>G, g.-297T>C, g.-300G>A and the insertion/deletion spaning positions g.-382~-379 were important in distinguishing V. vulpes and V. lagopus. This work, for the first time, described and confirmed the different variants existed in the 5'-flanking region of MC1R gene between red foxes and arctic foxes. These findings may be extremely helpful for further exploring the alternative splicings or promoter activity of MC1R gene for different coat-colored foxes.     

An Epidemic of Sylvatic Rabies in Finland

When rabies reappeared in Finland in April 1988, the country had been rabies free since 1959. Soon a picture of sylvatic rabies become evident, its main vector and victim being the raccoon dog (Nyctereutes procyonoides). Between 8 April 1988 and 16 February 1989, 66 virologically verified cases were recorded (48 raccoon dogs, 12 red foxes, 2 badgers, 2 cats, l dog and 1 dairy bull) in an area estimated at 1700 km2 in south-eastern Finland. The greatest distance between recorded cases was 67 km. A positive reaction with monoclonal antibody p-41 indicated that the virus was an arctic-type strain. A field trial on oral immunization of small predators was initiated in September 1988 using Tübingen fox baits according to the Bavarian model of bait distribution. Each bait contained 5*107 TCID50/ml modified live rabies virus (SAD-B19). The 6 months’ surveillance indicate a seroconversion rate of 72% (N=126) in the raccoon dog population, 67% (N=56) in the red foxes and 13% (N=16) in the badgers, when titers ≥1.0 IU/ml are considered seropositive. In the whole follow-up period, no statistically significant difference could be detected between the raccoon dogs and red foxes in the rate of seroconversion or in the uptake of tetracycline from the baits. Notably high antibody levels were recorded in both raccoon dogs and red foxes within 4–5 months after vaccination. Of the seropositive animals, the proportion of animals with titers 3.0 IU/ml or greater was higher in raccoon dogs (73%) than in red foxes (51%) (x2= 5.29, p< 0.05). The trial shows that raccoon dogs can be immunized against rabies in the field with vaccine baits originally developed for controlling sylvatic rabies in foxes.     

Phylogenetic implications of the 38 putative ancestral chromosome segments for four canid species.

Chromosome homologies between the Japanese raccoon dog (Nectereutes procyonoides viverrinus, 2n = 39 + 2-4 B chromosomes) and domestic dog (Canis familiaris, 2n = 78) have been established by hybridizing a complete set of canine paint probes onto high-resolution G-banded chromosomes of the raccoon dog. Dog chromosomes 1, 13, and 19 each correspond to two raccoon dog chromosome segments, while the remaining 35 dog autosomes each correspond to a single segment. In total, 38 dog autosome paints revealed 41 conserved segments in the raccoon dog. The use of dog painting probes has enabled integration of the raccoon dog chromosomes into the previously established comparative map for the domestic dog, Arctic fox (Alopex lagopus), and red fox (Vulpes vulpes). Extensive chromosome arm homologies were found among chromosomes of the red fox, Arctic fox, and raccoon dog. Contradicting previous findings, our results show that the raccoon dog does not share a single biarmed autosome in common with the Arctic fox, red fox, or domestic cat. Comparative analysis of the distribution patterns of conserved chromosome segments revealed by dog paints in the genomes of the canids, cats, and human reveals 38 ancestral autosome segments. These segments could represent the ancestral chromosome arms in the karyotype of the most recent ancestor of the Canidae family, which we suggest could have had a low diploid number, based on comparisons with outgroup species.     

Mercury in wild terrestrial carnivorous mammals from north-western Poland and unusual fish diet of red fox

Total mercury concentrations were determined in the kidney (K), liver (L), and pectoral muscle (M) of 19 individuals representing wild carnivorous mammals from NW Poland: 10 red foxes Vulpes vulpes (Linnaeus, 1758), 3 raccoon dogs Nyctereutes procyonoides Gray, 1834, 2 badgers Meles meles Linnaeus, 1758, 3 pine martens Martes martes Linnaeus, 1758, and 1 polecat Mustela putorius Linnaeus, 1758. The sample of red fox included 3 immature specimens found on Mielin Island; the island supports a black cormorant colony, and the foxes found there had fed mostly on cormorant nestlings as well as on fish and their remains. In addition to the Mielin Island foxes, the group of foxes included 3 other immature and 4 adult individuals. The highest mean of mercury concentrations were revealed in the Mielin red fox juveniles: 5.11, 4.52, and 1.56 mg/kg d.w. being recorded in K, L, and M. No significant differences in mercury concentrations in the respective tissues were found between the remaining immature and adult red foxes; their mercury concentrations were several times lower than those of the Mielin individuals. In all the animals except the Mielin foxes, mercury concentrations in K, L, and M did not exceed 1.3, 1.0 and 0.5 mg/kg d.w., respectively, the highest values being in badgers (which feed mostly on soil invertebrates), followed by pine martens and then the canids (red fox and raccoon dog). Studies on common and widely distributed terrestrial animals, particularly red fox and badger, may provide numerous valuable comparative data on mercury contamination of different areas of the northern hemisphere.     

犬MC1R基因R306ter与毛色性状相关性研究

目的　分析犬MC1R基因中R30 6ter位点多态性与犬毛色表型的相关性 ,为遗传育种 ,培育出更加优良的实验用犬奠定基础。方法　采用PCR SSCP技术 ,对MC1R基因R30 6ter位点进行基因多态性检测 ,分析位点多态性与毛色性状之间的相关性 ,并对该位点进行克隆测序。结果　PCR SSCP分析结果表明 ,R30 6ter位点序列具有多态性 ,表现为C、D二个等位基因和CC、CD及DD三种基因型。对R30 6ter多态性片段克隆测序发现 ,MC1R基因在编码第 30 6位氨基酸的密码子处存在一个由CGA到TGA的终止突变。结论　经统计分析结果表明在杂种犬中MC1R基因多态性与毛色性状不存在显著的相关性 ,这可能是由于外科手术学教学用犬是杂种犬 ,其遗传背景不同所致。由于MC1R基因的R30 6ter位点内存在碱基变异 ,因此在杂种犬中表现出明显的PCR SSCP多态性     

Identification of a premature stop codon in the melanocyte-stimulating hormone receptor gene (MC1R) in Labrador and Golden retrievers with yellow coat colour

We have examined whether black/yellow coat colour in Labrador retrievers is controlled by allelic variants at the extension locus. As the gene encoding the melanocyte-stimulating hormone receptor (MC1R) has been shown to correspond to the extension locus in several species, we have determined the genomic MC1R sequence in Labrador retrievers with black and with yellow coat colour. Using primers based on the fox (Vulpes vulpes) MC1R sequence we initially isolated and sequenced the innerpart of the canine MC1R. By means of inverse PCR we succeeded in the characterization of both flanking regions of the MC1R gene (Genbank: AF064455). Comparison of the complete MC1R sequences of a yellow and a black Labrador retriever revealed a single C-->T mutation at nucleotide position 916 in the yellow dog. This transition changed the codon for arginine at position 305 into a stop codon, resulting in the elimination of the evolutionary strongly conserved 10 carboxyterminal amino acid residues. With an allele-specific-oligonucleotide (ASO) test it was shown that the mutation cosegregated with the recessively inherited yellow coat colour in the Labrador retriever. Golden retrievers also appeared to be homozygous for the mutation. Seventeen other breeds were all negative for the mutation. Since the Labrador and Golden retriever are closely related, we suggest a common founder for the yellow coat colour in Labrador and Golden retrievers.     

Variation of short tandem repeats within and between species belonging to the Canidae family

Frequency distribution and allele size in 20 canine microsatellite loci were analyzed in 33 flat-coated retrievers, 32 dachshunds, 10 red foxes, and 10 Arctic foxes. Overall, the major difference between the two dog breeds was the relative allele frequencies rather than the size ranges of alleles at the individual locus. The average heterozygosity within the two dog breeds was not significantly different. Since the average heterozygosity at several polymorphic loci is a relative measure of heterogeneity within the population, analysis of heterozygosity within microsatellite loci is suggested as a measure for the diversity of populations. Eighty percent (16 of 20) of the canine microsatellite primer pairs amplified corresponding loci in the two fox species. This reflects a very high sequence conservation within the Canidae family relative to findings in, for instance, the Muridae family. This indicates that it will be possible to utilize the well-characterized fox karyotype instead of the dog karyotype as a step towards physical mapping of the dog genome. Analysis of exclusion power and probabilities of genetic identity between unrelated animals by use of the seven most informative loci demonstrated that it will be possible to assemble a panel of microsatellite loci that is effective for parentage analysis in all breeds.     

A complete comparative chromosome map for the dog, red fox, and human and its integration with canine genetic maps

Cross-species reciprocal chromosome painting was used to delineate homologous chromosomal segments between domestic dog, red fox, and human. Whole sets of chromosome-specific painting probes for the red fox and dog were made by PCR amplification of flow-sorted chromosomes from established cell cultures. Based on their hybridization patterns, a complete comparative chromosome map of the three species has been built. Thirty-nine of the 44 synteny groups from the published radiation hybrid map and 33 of the 40 linkage groups in the linkage map of the dog have been assigned to specific chromosomes by fluorescence in situ hybridization and PCR-based genotyping. Each canine chromosome has at least one DNA marker assigned to it. The human-canid map shows that the canid karyotypes are among the most extensively rearranged karyotypes in mammals. Twenty-two human autosomal paints delineated 73 homologous regions on 38 canine autosomes, while paints from 38 dog autosomes detected 90 homologous segments in the human genome. Of the 22 human autosomes, only the syntenies of three chromosomes (14, 20, and 21) have been maintained intact in the canid genome. The dog-fox map and DAPI banding comparison demonstrate that the remarkable karyotype differences between fox (2n = 34 + 0-8 Bs) and dog (2n = 78) are due to 26 chromosomal fusion events and 4 fission events. It is proposed that the more easily karyotyped fox chromosomes can be used as a common reference and control system for future gene mapping in the DogMap project and CGH analysis of canine tumor DNA.     

Two candidate genes (FTO and INSIG2) for fat accumulation in four canids: chromosome mapping, gene polymorphisms and association studies of body and skin weight of red foxes

Fat accumulation is a polygenic trait which has a significant impact on human health and animal production. Obesity is also an increasingly serious problem in dog breeding. The FTO and INSIG2 are considered as candidate genes associated with predisposition for human obesity. In this report we present a comparative genomic analysis of these 2 genes in 4 species belonging to the family Canidae - the dog and 3 species which are kept in captivity for fur production, i.e. red fox, arctic fox and Chinese raccoon dog. We cytogenetically mapped these 2 loci by FISH and compared the entire coding sequence of INSIG2 and a fragment of the coding sequence of FTO. The FTO gene was assigned to the following chromosomes: CFA2q25 (dog), VVU2q21 (red fox), ALA8q25 (arctic fox) and NPP10q24-25 (Chinese raccoon dog), while the INSIG2 was mapped to CFA19q17, VVU5p14, ALA24q15 and NPP9q22, respectively. Altogether, 29 SNPs were identified (16 in INSIG2 and 13 in FTO) and among them 2 were missense substitutions in the dog (23C/T, Thr>Met in the FTO gene and 40C/A, Arg>Ser in INSIG2). The distribution of these 2 SNPs was studied in 14 dog breeds. Two synonymous SNPs, one in the FTO gene (-28T>C in the 5'-flanking region) and one in the INSIG2 (10175C>T in intron 2), were used for the association studies in red foxes (n = 390) and suggestive evidence was observed for their association with body weight (FTO, p < 0.08) and weight of raw skin (INSIG2, p < 0.05). These associations indicate that both genes are potential candidates for growth or adipose tissue accumulation in canids. We also suggest that the 2 missense substitutions found in dogs should be studied in terms of genetic predisposition to obesity.