DNA panel screening as a potential tool to monitor health and inbreeding in a small, closed dog population

S F A Keijser; H Fieten; M Vos-Loohuis; C J Piek; H Anderson; J Donner; I Scholten; M Nielen; J W Hesselink; F G van Steenbeek

doi:10.1186/s40575-018-0068-6

DNA panel screening as a potential tool to monitor health and inbreeding in a small, closed dog population

S F A Keijser
, H Fieten
, M Vos-Loohuis
, C J Piek
, H Anderson
, J Donner
, I Scholten
, M Nielen
, J W Hesselink
, F G van Steenbeek

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Background: Selective breeding in populations with a limited effective population size may result in a loss of genetic diversity, which can cause an increased concentration of specific disease liability genes. The Dutch Shepherd Dog (DSD) in the Netherlands is an example of such a breed with a small effective population.

Objective: To evaluate the measurement of genetic diversity and multiplex DNA panel screening for implementation in a breeding strategy for the Dutch Shepherd Dog (DSD) and to investigate the clinical relevance of potentially identified mutations in the multiplex DNA panel screening.

Results: Genome-wide SNP testing showed genetic isolation and reduced genetic diversity within coat variety subgroups of the DSD. Panel screening identified a Von Willebrand's Disease type I mutation. Although decreased Von Willebrand's Factor proteins were significantly lower in DSDs carrying the VWD-I allele compared to the wildtype, clinical follow-up did not show a significant association between the clinical phenotype and VWD-I genotype.

Conclusions: Genetic relationship measurement within a breed population may be a useful tool to enable breeding strategies to conserve genetic diversity. Results from a disease panel screening need to be evaluated for clinical relevance before breed selection restrictions can be considered.

Original language	English
Article number	12
Journal	Canine genetics and epidemiology
Volume	5
Issue number	12
DOIs	https://doi.org/10.1186/s40575-018-0068-6
Publication status	Published - 18 Dec 2018

Keywords

Canine health
Heterozygosity
Genetic disorder
Dog breeding
MyDogDNA™
Dutch shepherd dog
VonWillebrand’s disease

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title = "DNA panel screening as a potential tool to monitor health and inbreeding in a small, closed dog population",

abstract = "Background: Selective breeding in populations with a limited effective population size may result in a loss of genetic diversity, which can cause an increased concentration of specific disease liability genes. The Dutch Shepherd Dog (DSD) in the Netherlands is an example of such a breed with a small effective population.Objective: To evaluate the measurement of genetic diversity and multiplex DNA panel screening for implementation in a breeding strategy for the Dutch Shepherd Dog (DSD) and to investigate the clinical relevance of potentially identified mutations in the multiplex DNA panel screening.Results: Genome-wide SNP testing showed genetic isolation and reduced genetic diversity within coat variety subgroups of the DSD. Panel screening identified a Von Willebrand's Disease type I mutation. Although decreased Von Willebrand's Factor proteins were significantly lower in DSDs carrying the VWD-I allele compared to the wildtype, clinical follow-up did not show a significant association between the clinical phenotype and VWD-I genotype.Conclusions: Genetic relationship measurement within a breed population may be a useful tool to enable breeding strategies to conserve genetic diversity. Results from a disease panel screening need to be evaluated for clinical relevance before breed selection restrictions can be considered.",

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author = "Keijser, \{S F A\} and H Fieten and M Vos-Loohuis and Piek, \{C J\} and H Anderson and J Donner and I Scholten and M Nielen and Hesselink, \{J W\} and \{van Steenbeek\}, \{F G\}",

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AU - Keijser, S F A

AU - Fieten, H

AU - Vos-Loohuis, M

AU - Piek, C J

AU - Anderson, H

AU - Donner, J

AU - Scholten, I

AU - Nielen, M

AU - Hesselink, J W

AU - van Steenbeek, F G

PY - 2018/12/18

Y1 - 2018/12/18

N2 - Background: Selective breeding in populations with a limited effective population size may result in a loss of genetic diversity, which can cause an increased concentration of specific disease liability genes. The Dutch Shepherd Dog (DSD) in the Netherlands is an example of such a breed with a small effective population.Objective: To evaluate the measurement of genetic diversity and multiplex DNA panel screening for implementation in a breeding strategy for the Dutch Shepherd Dog (DSD) and to investigate the clinical relevance of potentially identified mutations in the multiplex DNA panel screening.Results: Genome-wide SNP testing showed genetic isolation and reduced genetic diversity within coat variety subgroups of the DSD. Panel screening identified a Von Willebrand's Disease type I mutation. Although decreased Von Willebrand's Factor proteins were significantly lower in DSDs carrying the VWD-I allele compared to the wildtype, clinical follow-up did not show a significant association between the clinical phenotype and VWD-I genotype.Conclusions: Genetic relationship measurement within a breed population may be a useful tool to enable breeding strategies to conserve genetic diversity. Results from a disease panel screening need to be evaluated for clinical relevance before breed selection restrictions can be considered.

AB - Background: Selective breeding in populations with a limited effective population size may result in a loss of genetic diversity, which can cause an increased concentration of specific disease liability genes. The Dutch Shepherd Dog (DSD) in the Netherlands is an example of such a breed with a small effective population.Objective: To evaluate the measurement of genetic diversity and multiplex DNA panel screening for implementation in a breeding strategy for the Dutch Shepherd Dog (DSD) and to investigate the clinical relevance of potentially identified mutations in the multiplex DNA panel screening.Results: Genome-wide SNP testing showed genetic isolation and reduced genetic diversity within coat variety subgroups of the DSD. Panel screening identified a Von Willebrand's Disease type I mutation. Although decreased Von Willebrand's Factor proteins were significantly lower in DSDs carrying the VWD-I allele compared to the wildtype, clinical follow-up did not show a significant association between the clinical phenotype and VWD-I genotype.Conclusions: Genetic relationship measurement within a breed population may be a useful tool to enable breeding strategies to conserve genetic diversity. Results from a disease panel screening need to be evaluated for clinical relevance before breed selection restrictions can be considered.

KW - Canine health

KW - Heterozygosity

KW - Genetic disorder

KW - Dog breeding

KW - MyDogDNA™

KW - Dutch shepherd dog

KW - VonWillebrand’s disease

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DO - 10.1186/s40575-018-0068-6

M3 - Article

C2 - 30607250

SN - 2052-6687

VL - 5

JO - Canine genetics and epidemiology

JF - Canine genetics and epidemiology

IS - 12

M1 - 12

ER -

DNA panel screening as a potential tool to monitor health and inbreeding in a small, closed dog population

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Keywords

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