Association of single nucleotide polymorphisms of SPAG11 gene with semen quality and testicular traits of boer goats
Goat is a resistant species to Malaysian tropical climate. Boer is a goat’s breed with a large body size that has been imported to Malaysia to improve the small body size of indigenous Katjang population. Since Boer population has become one of the important goat flocks in Malaysia, knowing about...
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| Format: | Thesis |
| Language: | English |
| Published: |
2019
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| Subjects: | |
| Online Access: | http://psasir.upm.edu.my/id/eprint/84084/1/IPTSM%202019%208%20-%20ir.pdf http://psasir.upm.edu.my/id/eprint/84084/ |
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| Institution: | Universiti Putra Malaysia |
| Language: | English |
| Summary: | Goat is a resistant species to Malaysian tropical climate. Boer is a goat’s breed
with a large body size that has been imported to Malaysia to improve the small
body size of indigenous Katjang population. Since Boer population has
become one of the important goat flocks in Malaysia, knowing about its
characteristics, especially in connection with reproductive performance is an
essential step for goat breeding programs. Bucks reproduction performance
plays a key role in flock profitability affecting the number of pregnant does.
Moreover, commercial sector is highly interested in identification of the buck
fertility variation based on semen quality traits for artificial insemination (AI)
purpose. Therefore, applying a proper selection method that is accurate in the
selection of high fertile bucks would be a great approach.
Conventional selection methods are mostly time-consuming and costly.
Besides, they are not proper for early selection purpose. Thus, using the single
nucleotide polymorphism (SNP) of particular candidate genes as molecular
marker might be an appropriate alternative. Sperm-associated antigen 11
(SPAG11) is known as an important candidate gene that affects the male
reproductive performance. The objectives of this study were to find single
nucleotide polymorphisms in a fragment of the SPAG11 gene and to
determine their associations with semen (both fresh and post-thaw) quality
traits including testicular weight (TW), testes dimensions (length, width, and
thickness), and testicular volume (TVm) in 52 heads Boer bucks. Semen was
collected from each animal using electro-ejaculation (EE). Semen quality
traits including sperm viability, morphology, motility, and density were
analyzed using both Hemocytometer and light microscope. Semen volume
and testes dimensions were measured using a graduated test tube and a dial caliper, respectively. Levelled container was invented as an alternative
method to measure TV. Genomic DNA was isolated from blood of each buck.
Primers were designed to amplify two exons of the given gene. The SNPs
were detected using single-base extension (SBE) method along with
molecular cloning technique.
Four SNPs were detected in the coding region of exon 1 and 2 of the SPAG11
gene, two of which were synonymous (1264A>G and 1333A>G) and other two
namely 1278C>T and 1335G>A were non-synonymous SNPs caused
changes in the amino acids Thr>Ile and Arg>Gln, respectively. The results
indicated that the levelled container is a valid utility for measuring the testicular
volume. There was a negative association between 1335G>A mutation with
testicular volume (p = 0.002). Moreover, neither the studied testes dimensions
(length, width, and thickness) nor TW were associated with detected SNPs.
Although association between 1333A>G SNP and both fresh and post-thaw
semen traits were insignificant, still negative effects on studied traits were
observed. The SPAG11 gene showed more association with sperm
morphological traits rather than semen volume, sperm viability, and sperm
density in fresh semen. The 1264A>G loci was negatively associated with
sperm abnormality of head (%) trait in fresh (p = 0.042) and post thaw (p =
0.018) semen. The 1335G>A mutation was positively associated with sperm
abnormality of head (%) (p = 0.002), mid piece (%) (p = 0.008), tail (%) (p =
0.007), and live sperm (%) (p = 0.001) traits in fresh semen.
In conclusion, this study elucidated significant association of SPAG11 gene
with sperm quality traits and TV in Boer goat. The detected polymorphisms of
this candidate gene can be used as a marker assisted selection (MAS) for
improving semen quality traits in the Boer goat populations. The detected
SNPs (1264A>G and 1333A>G) that showed a negative association with
semen quality traits, especially with both fresh and post thaw, can be
considered as a marker for artificial negative selection. The significant
association between this candidate gene and TV indicates that TV can be
used as a proper trait for pre-selection of fertile Boer goats. |
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