The present study was conducted on Hardhenu cattle to screen genomic region of leptin gene with an objective to find the association of genotypes with fertility and production traits. The association analysis with traits under study was analysed by least squares analysis of variance by taking SNPs genotype as fixed effects in the statistical model. The genotypic frequencies with respect to targeted loci g.92450765 G > A indicated that AG (0.54) genotype was highest in Hardhenu cattle. Chi-squared tests showed that g.92450765G > A SNP meet with the Hardy-Weinberg equilibrium (p > .05).The association analysis revealed significant association of genotypes with total milk yield (TMY) and 305 days milk yield (MY) (p < .05). Service period (SP) and calving interval (CI) were also found significantly associated with genotypes (p < .05). Whereas, lactation length (LL), dry days (DD) and age at first calving (AFC) did not divulge any significant association with genotype. The AG and GG genotypes were associated with higher milk yields as compared to AA genotype, indicating that allele G was associated with superior milk performance. However, AA genotyped cattle found to be favourable with SP, CI and artificial insemination (AI) per conception compared to AG and GG genotyped cows. Chi-square analysis revealed that genetic variants of g.92450765 G > A SNP of leptin gene differ significantly with regard to reproductive disorders incidence (p < .05). The frequency of GG genotype (88.89%) in the affected animal group was very high followed by AG. The animals with GG genotype were found to be more susceptible to reproductive disorders as suggested by the higher odd ratio value (16.00) in logistic model. These observations and their differential association with the fertility and production traits can be utilized as an aid to selection for genetic improvement of antagonistic traits in dairy cows.
Globally, India stands second in goat population, with the total of 148.88 million goat (Livestock Census, 2019). Beetal is one of the prime goat breeds of India with total population of 0.71 million (Gowane et al., 2020). Beetal is a large-sized breed, distinguished by its black and white, sometimes red mottled and black mottled coat colour. It is a highly prolific and heat tolerant goat breed mainly reared for meat and milk production. The genetic improvement of economically important traits especially growth traits is the prerequisite for profitable goat farming. Growth traits are the cardinal factors and should be appraised in order to ameliorate economic stability of meat industry (Magotra et al., 2021). The cost of rearing can be dwindled by enhancing growth rate during the early period, which directly enhance farmer's economy. Genetic basis of traits is very essential for evolutionary response (a gradual change
Mannose-binding lectin (MBL) is one of the most important constituent and a pattern recognition molecule of the innate immune system. MBL gene possibly contributes to bacterial infection resistance and was proposed as a molecular marker for milk production traits to control mastitis. Due to its location near to QTLs associated with Somatic cell score (SCS) and mastitis , the MBL1 gene may be considered as a candidate gene. Sahiwal cows in milk were selected randomly to identify g.2686T>C point mutation in exon 2 of MBL1 gene and its association with somatic cell score. A 401 bp PCR fragment of MBL1 gene encompassing the exon 2 was amplified and digested with Hae III to screen the reported SNP. Genotype analysis using PCR-RFLP revealed a polymorphic banding pattern. Sequencing was also carried out to validate the PCR-RFLP results of nucleotide sequence in a particular region. The preliminary information obtained from the study indicated that the targeted variantof MBL1 gene in indigenous cattle had no association with SCS and mastitis resistance which may be a breed specific characteristic. Since present study has formulated the results based on a relatively small sample size, further studies with large sample size are required to validate these results.
Growth hormone (GH) is a major regulator of postnatal growth and metabolism in mammals and plays a critical role in growth, production and fertility in cattle. The present study was conducted in dairy cattle to find the association of g.48769565 C > T mutation with growth, production and reproduction traits in Sahiwal and Hardhenu cattle. PCR‐RFLP was performed to genotype g.48769565 C > T mutation using the MspI restriction enzyme in our resource cattle population. In Hardhenu cattle, the frequencies of C and T alleles were 0.59 and 0.41, respectively, while genotypic frequencies were 0.33, 0.53 and 0.14 for CC, CT and TT respectively. The frequencies of the C and T alleles were 0.24 and 0.76, respectively, in Sahiwal cattle and it was observed that the highest frequency was for the TT genotype (0.58) and the lowest was for the CC genotype (0.06). Chi‐square analysis showed that g.48769565C>T SNP loci meet with the Hardy–Weinberg equilibrium in Sahiwal and Hardhenu cattle. From the least‐squares analysis, it was observed that CC genotype was significantly associated with total milk yield (TMY), 300 days milk yield (300D MY), lactation length (LL), dry period (DP) and artificial insemination (AI)/conception (p < .05). We also observed a significant association (p < .05) of genotype CT with 3‐month calves body weight. Cows with TT genotype revealed comparatively favourable service period (SP) and calving interval (CI) in our resource population. These observed differences in their allelic and genotypic frequencies in association with the traits underlying production and fertility can be utilized for genetic improvement in dairy cattle.
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