https://doi.org/10.52973/rcfcv-e33262
Received: 25/04/2023 Accepted: 22/06/2023 Published: 22/07/2023
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ABSTRACT
This study aimed to determine the phylogenetic and bottleneck
analyses of Turkish Thoroughbred and Arabian horse populations. In
the study, genotyping was performed using a total of 17 microsatellite
markers in the samples taken from 959 Thoroughbred and 813 Arabian
horses. The average effective allele number in Arabian horses was
3.338 and the average number of alleles was 7.412 in Thorougbred
horses. Genetic distance and genetic identity between Thoroughbred
and Arabian breeds was 0.411 and 0.663, respectively. Also genetic
identity in each Arabian and Thoroughbred horse populations was
1.000. The FCA table showed that the two breeds were completely
separated from each other and were compatible. In conclusion; the
bottlenecks of Thoroughbred and Arabian horse populations were
in a normal L distribution and these horse breeds do not appear to
have succumbed to introgression. Therefore, they are not yet at risk
of extinction any time soon.
Key words: Arabian horse; bottleneck; microsatellite; phylogenetic
analysis; thoroughbred horse
RESUMEN
y de cuello de botella de las poblaciones de caballos árabes y de pura
sangre turcos. En el estudio, el genotipado se realizó utilizando un
caballos pura sangre y 813 caballos árabes. El número medio de alelos
efectivos en los caballos árabes fue de 3,338 y el número medio de
cada población de caballos árabes y pura sangre fue de 1.000. La tabla
FCA mostró que las dos razas estaban completamente separadas
entre sí y eran compatibles. En conclusión; los cuellos de botella
de las poblaciones de caballos pura sangre y árabes estaban en una
distribución L normal y estas razas de caballos no parecen haber
extinción en el corto plazo.
Palabras clave: Caballo árabe; cuello de botella; microsatellite;
Phylogenetic and bottleneck analysis of the Turkish Arabian and
Thoroughbred horse populations
sangre
Cevdet Yaralı
1
, Abdurrahman Köseman
2
* , Yusuf Özşensoy
3
, İbrahim Şeker
4
, Burhan Toprak
5
, Kemal Zengin
1
1
Veterinary Control Central Research Institute, Genetics Laboratory, Ankara, Türkiye.
2
Malatya Turgut Ozal University, Akcadag Vocational School, Department of Crop and Animal Production. Malatya, Türkiye.
3
Sivas Cumhuriyet University, Faculty of Veterinary Medicine, Department of Veterinary Genetics. Sivas, Türkiye.
4
Firat University, Faculty of Veterinary Medicine, Department of Zootechny. Elazig, Türkiye.
5
Yozgat Bozok University, Faculty of Veterinary Medicine, Department of Anatomy. Yozgat, Türkiye.
*Corresponding author: abdurrahman.koseman@ozal.edu.tr
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INTRODUCTION
Thoroughbred and Arabian horses constitute 4.2 and 15.1% of the
racing and riding population, respectively. These two breeds account
for 5.6 and 18.3% of parental lineage and 7.9 and 32.9% of founding
lineage, respectively. On the species scale, both breeds account for
altogether 26% of the founding origins [1].
2]. There are
3].
Genetic characterization studies have an important place in
the determination of inter and intra breeds genetic diversity and
to protect the purity of breeds and to identify breeding strategies
[4, 5]. Although the deoxyribonucleic acid (DNA) sequences lining
the repeat regions in microsatellites are the same in individuals of
a species, the number of repeats may vary between individuals and
even between homologous chromosomes of individuals. Therefore,
microsatellites are preferred in many molecular biology studies [5].
Microsatellite loci are more useful on the contrary classical genetic
markers to determine the genetic relationships of close populations
and to examine many polymorphic loci [6].
While the number of Thoroughbred horses running in the hippodromes
in Türkiye in 2021 was 3734 (55%), the number of Arabian horses running
was 3085 (45%). In the same year, the number of races organized
exclusively for Thoroughbreds was 3246 (54%), while the number of
races organized exclusively for Arabian horses was 2765 (46%) [7].
This research was aimed at studying phylogenetic and bottleneck
analysis of the Turkish Arabian and Thoroughbred horse populations
using microsatellite markers.
MATERIALS AND METHODS
Animals
All Arabian and Thoroughbred horses born in Turkiye or imported
This study’s research material consisted of 959 Thoroughbred
District Directorates of Agriculture and Forestry in Türkiye for their
Blood samples
The blood samples tested in the study were collected from 959
Thoroughbred and 813 Arabian horses, which were sent to Ankara
The blood samples used in the genetic analyzes were collected
by the official veterinarians using anticoagulant tripotassium
ethylenediaminetetraacetic acid (K
3
EDTA) tubes and delivered to the
laboratory under the cold chain. During the blood collection process,
the horses' name, chip number, age, gender, breeder and address
information and photographs were recorded in the database created
the Turkish Ministry of Agriculture and Forestry.
DNA Extraction
In the extraction of DNA from blood and some hair samples, both
manual and automatic isolation methods were performed. DNA isolation
from some of the blood samples was performed by Chelex 100 and
Microsatellite markers genotyping
to manufacturer protocols. Capillary electrophoresis of samples was
alleles were detected by using the GeneMapper software (Version 4.0).
Statistical data analysis
General population parameters including allele numbers (Na),
Genetic Distance and Identity were calculated using the GenAlEx6.501
program [8]. Factorial Correspondence Analysis (FCA) was performed
9
drawn, which revealed the relationship between each subject with
10]. Moreover, it was tested
program [11]. All these parameters were analyzed using the genotypic
12].
taken from the General Directorate of Food and Control, The Ministry of
approval was obtained from the Local Ethics Committee of Veterinary
RESULTS AND DISCUSSION
Allele numbers detected in Arabian and Thoroughbred horses were
(mean 8.53), the highest Na were determined in Arabian horses (13 alleles)
In the study, the mean effective number of alleles (Ne) was 3.338
horses. The mean Ne was smaller than the mean Na in Arabian horses
FIGURE 1. FCA chart of the Arabian and Thoroughbred horses (Yellow: Arabian
horses, Blue: Thoroughbred horses)
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Genetic distance and genetic identity between Thoroughbred
and Arabian breeds was found 0.411 and 0.663, respectively, in the
pairwise population matrix. Also genetic identity in each Arabian and
identity and genetic distance are opposite each other. A high genetic
identity creates a low genetic distance. Accordingly, it can be said that
there is a moderate genetic identity and genetic distance between the
Arabian and Thoroughbred horse populations (between breeds). A high
genetic identity creates a low genetic distance. Accordingly, it can be said
that there is a moderate genetic identity and genetic distance between
genetic distance in Arabian and also Thoroughbred horses themselves.
TABLE I
Sample size (N), number of alleles (Na) and number of effective alleles
(Ne) over all loci for Arabian and Thoroughbred horse populations
Arabian horses Thoroughbred horses Total
Locus N Na Ne N Na Ne Na
AHT4 813 9 3.615 959 5 3.475 9
AHT5 813 7 3.063 959 7 2.905 9
ASB2 812 13 3.176 958 11 6.456 14
ASB17 813 8 3.220 957 7 4.063 10
ASB23 813 6 3.753 957 8 4.353 9
CA425 813 6 3.908 959 8 2.197 8
HMS1 813 11 2.718 959 5 2.810 11
HMS2 813 7 2.630 959 6 1.836 9
HMS3 813 8 4.790 673 6 3.104 8
HMS6 813 6 3.083 959 5 2.583 6
HMS7 813 6 3.654 958 6 4.761 6
HTG4 813 5 3.323 959 5 2.144 5
HTG6 813 4 2.161 959 6 2.664 7
HTG7 813 4 1.477 959 5 2.712 6
HTG10 808 8 4.280 956 8 5.358 9
LEX3 428 8 4.107 555 7 4.713 8
VHL20 813 10 3.793 959 6 3.939 11
Mean 790 7.412 3.338 917.882 6.529 3.534 8.53
Almarzook et al. [13] detected a total of 251 polymorphic Na in
and also overall mean of Ne was 4.141. Machmoum et al. [14] concluded
that the mean Na per locus was 6.52, 6.35, and 7 in the Desert breed,
et al.
[15] reported that Na had 118 alleles (mean 7.375) per locus ranging
The Na and Ne are one of the main indicators of genetic diversity,
also Ne indicates a higher probability of extinction. Even if the values
microsatellite panel; all of the markers in the current study have a
credible polymorphism to assess genetic variation in Arabian and
Thoroughbred horse populations.
Phylogenetic analysis
Genetic distance and genetic identity matrix in Arabian and
16], and
the genetic relationship of the two breeds to each other was shown
Thorougbred bred horses was drawn separetely (FIG 2 and FIG 3).
Grouping values that ensured reliability with the bootstrap test (1,000
Thoroughbred horse populations are divided into numerous groups
by phylogenetic trees.
TABLE II
Genetic distance and genetic identity matrix in
Arabian and Thoroughbred horse populations
Breed Arabian horses Thoroughbred horses
Genetic
distance
Genetic
identity
Genetic
distance
Genetic
identity
Arabian horses 0.000 1.000 – –
Thoroughbred horses 0.411 0.663 0.000 1.000
In the FCA for Arabian and Thoroughbred horses observed that one
group was concentrated in the middle, and the others were located
the FCA chart the two breeds were completely separated from each
other and compatible. According to the results, these horse breeds
or populations seem not submitted to introgression.
Mahrous et al. [17] reported that the highest genetic distance was
found to be 0.4405 in Thoroughbred and Native breeds, and the lowest
genetic distance was found to be 0.2586 in Native and Arabian horses.
The values determined in our research are lower than these values.
et al. [18] determined that
et al. [13]
reported that the three breeds were distributed all over the adjacent
FIGURE 2. (A-H) NJT tree generated with STRs to show bootstrap values of Arabian horse genotype (n=813)
A
B
C D
E F G H
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FIGURE 3. (A-H) NJT tree generated with STRs to show bootstrap values of Thoroughbred horse genotype (n=959)
A
E F G H
B
C D
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FIGURE 4. Bottleneck chart of the Arabian horse population
FIGURE 5. Bottleneck chart of the Thoroughbred horse population
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using 18 microsatellites, it was determined that there was no danger
of inbreeding, and Thoroughbreds were the largest contributor to the
22
on sport horses it was concluded that if the population was under
bottleneck effect, the genetic variation reduction was observed in the
23]. Moreover, Koseman et al. [24] stated
that the bottleneck assessment of the colored horse population was at a
normal L distribution and there was no risk of extinction in the population.
in the literature, there is no bottleneck risk yet in the Arabian and
Thoroughbred populations we have studied
CONCLUSION
The results provided decent data about the sophisticated genetic
Moreover, it underlined the availability and great utilility of the Arabian
and Thoroughbred horse gene stock at least at Türkiye scale. For this
reason the results might give disclosure and suggestion concerning
Arabian and Thoroughbred horse breeds upkeep. In this context, the
○
Arabian and Thoroughbred horses have an important genetic
potential in Türkiye.
○
There is very high genetic variability in Arabian and
Thoroughbred horse populations.
○
tree are divided into many groups within themselves.
○
Neither horse breed population is at risk of extinction any
time soon.
ACKNOWLEDGMENTS
and Forestry for its cooperation in providing data.
BIBLIOGRAPHIC REFERENCES
diversity, pedigree relatedness and the contributions of founder
haplogroups (FIG 2 and FIG 3).
Cosgrove et al. [19] stated that there was a high degree of genetic
variation and complex ancestry in Arabian horses from the Middle
East region. Moreover, in this work it was concluded that powerful
Arabian breed to the Thoroughbred horses.
Limiting inbreeding in the horse population will reduce the effect
of undesirable hereditary traits.
Bottleneck analysis
The analyses of bottleneck risk in Arabian and Thoroughbred
Thoroughbred horse populations was at a normal L distribution.
Duru [20] also reported that the Arabian horse breed might not be
at risk. In a study that analyzed the relationship between inbreeding
and racing performance, it was found that selective breeding did not
effectively alleviate the genetic load of the Australian Thoroughbred
population [21].
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[6] Takezaki N, Nei M. Genetic distances and reconstruction of
phylogenetic trees from microsatellite DNA. Genet. 1996;
.
.
[10] Langella
.
for detecting recent reductions in the effective population size
GA. Genetic diversity of Arabian horses using microsatellite
M. Genetic diversity and population structure of Arabian horse
structure, inbreeding and genetic variability. Anim. 2017;
horses participating in competitions for young horses. Front.
