Skip to main content
snıff
Coat Furnishings

RSPO2

chr13:8,824,008-8,970,631 ·

wirehaired/furnished breeds

Atlas-wide
55%
dog-weighted average
Breeds with data
203
of 215
Dogs contributing
13,789
CanVAS Atlas
What the frequency means

RSPO2 chr13:8.8Mb. The Cadieu 2009 wire-coat/furnishings locus. Direction: WIRE vs SMOOTH-control breeds.

High frequency means

breed carries the furnishings (wire/eyebrow) allele

Low frequency means

breed is smooth-coated

Frequency landscape

Where the coat furnishings variant sits across every breed with data, by and grouped by . Each tick is one breed; a variant fixed in one group and absent in another shows up as a gap. These come from one marker per trait, so read them as a : accurate for most breeds, with real exceptions.

0%50%100%
terrier19 breeds · mean 77%
toy18 breeds · mean 68%
hound18 breeds · mean 66%
non_sporting20 breeds · mean 65%
working21 breeds · mean 64%
other15 breeds · mean 52%
ancient_landrace54 breeds · mean 51%
herding16 breeds · mean 50%
sporting19 breeds · mean 42%
mixed_unknown3 breeds · mean 34%
n = 13,789 dogs · CanVAS Atlas (Brundage et al. 2026) · Sniff Atlas
Allele frequency across 203 breeds with data, grouped by AKC breed group. Each accent tick is one breed (fainter = fewer dogs sampled); the bone marker is the group mean. Frequencies are population-level.
Top 10 breeds, highest frequency
  1. Irish Wolfhound ancient_landrace
    100% n=286
  2. Giant Schnauzer terrier
    100% n=126
  3. Cairn Terrier terrier
    100% n=120
  4. 100% n=62
  5. Poodle non_sporting
    100% n=55
  6. Shih Tzu toy
    100% n=38
  7. 100% n=33
  8. 100% n=30
  9. 100% n=20
  10. 100% n=228
Bottom 10 breeds, lowest frequency
  1. Dingo Captive ancient_landrace
    3% n=59
  2. English Setter sporting
    4% n=192
  3. Dingo West ancient_landrace
    7% n=132
  4. Collie herding
    9% n=20
  5. Dingo East ancient_landrace
    9% n=104
  6. 17% n=48
  7. 20% n=279
  8. Dingo South ancient_landrace
    21% n=55
  9. Great Pyrenees working
    23% n=20
  10. Feral Dog Chernobyl ancient_landrace
    24% n=153

96 breeds with fewer than 20 genotyped dogs are not ranked here. At that sample size a single dog swings the frequency, so the figure is not yet stable enough to compare.

Methodology

Frequency is measured at the typed-backbone 13:8844479 on chr13, 8.8 Mb (inside the gene body). Alleles C/T. Coordinates from ensembl symbol UU Cfam GSD 1.0. Per-breed frequencies are computed across all CanVAS dogs labelled with that breed (missing genotypes excluded).

In the reference databases

RSPO2 as it is catalogued across the genomics world. Each link is the canonical record, so this gene composes with everything those resources know.

The human counterpart

In humans, this gene's counterpart is RSPO2. That ortholog is what connects RSPO2 to a century of human medical genetics. The dog and human proteins are 85% identical.

In people, RSPO2 appears tolerant of loss-of-function variation (gnomAD v4.1 constraint, LOEUF 0.67). Constraint measures intolerance to loss-of-function only and does not indicate importance; some tolerant genes cause disease through other mechanisms.

In people, variants in the RSPO2 gene are reported as pathogenic in ClinVar but not yet at expert-review confidence. The evidence is limited, not that variants here are benign.

How to cite this page

The per-breed allele frequencies on this page are derived from the open Sniff Atlas v1.0.1 (Gehring 2026, doi:10.5281/zenodo.20566358, CC-BY 4.0). The underlying genotype substrate is CanVAS (Brundage 2026, doi:10.64898/2026.04.13.718238), and disease associations are grounded in OMIA. Full citation formats including BibTeX, RIS, and CITATION.cff at sniff.world/cite.

Last updated
Sources: Sniff Atlas v1.0.1 (doi:10.5281/zenodo.20566358) · CanVAS (Brundage 2026) · OMIA · Dog10K (Meadows 2023) · gnomAD v4.1 (Karczewski 2020) · ClinVar (Landrum 2018)