A novel heterozygote allele in caprine melanocortin 1 receptor (MC1R) gene: an association with heat stress traits.

Climate change negatively influences the productive and reproductive abilities of goats. There is a need to understand the relationship between heat stress and genes that may aid in the development of climate-resilient goats. Melanism variation in goats plays a role in thermoregulation, in which the melanogenic genes have a pleiotropic effect on the regulation of physiological responses and behavior that are altered due to heat stress in the animals. Thus, the present study was conducted to establish a possible association between the coat color gene (MC1R) and heat stress characteristics. The physiological responses and cortisol levels were recorded in forty different coat-colored goats. The genotyping of the animals revealed four SNPs at the 183rd (C/T), 332nd (C/G), 748th (G/T), and 801st (C/G) positions, among which the black and brown goat populations had novel SNPs at the 332nd position. Eight haplotypes were constructed, and an association study revealed that haplotypes (CCGG, TCGG, and CCTC) that were linked to white animals had lower cortisol values, rectal temperature, skin temperature, and respiration rate. The multivariate and cluster analyses revealed that the white goats were distinct from the rest of the goats. In addition, the docking results revealed the residues that were forming the interaction complex, which could play a role in melanogenesis in the animals and, in turn, the heat stress ability of the goats. Altogether, the results of the present study could pave the way for more research into coat color genes and their relationship with heat stress traits.

Identification and futuristic role of novel polymorphism of caprine PrP gene.

The Caprine Prion Protein (PrP) gene polymorphism in three different native Indian goat populations of Southern Odisha, namely Ganjam (a registered breed of India), Ghumusari and Raighar was studied. The 876 bp amplified segment of PrP gene contains full length coding sequence of 771 bp. In Ganjam and Ghumusari goats, any difference of nucleotide sequence was not identified. However, the comparison of nucleotide sequences of Raighar goats and goats of other locality revealed a change in nucleotide at five different positions (G190A, G724A, A727T, C775G and C800T) which includes two non-synonymous nucleotide changes. The non-synonymous nucleotide change resulted a change in amino acid at two different positions (Ser234Cys and Lys246Phe) in mature polypeptide which were not reported earlier and therefore, considered as novel. On the basis of these variants of PrP gene phylogenetic tree was constructed which showed that Ganjam and Raighar goats appeared in different clade. Since any occurrence of Scrapie infection in goats of Odisha was not reported, it can be proposed that these changes in amino acid may be responsible as resistance allele.

Novel polymorphism of HSP70 gene affected caprine physiological vital parameters.

The synthesis of heat shock protein 70 (HSP70) is temperature-dependent and its response is considered as a cellular thermometer in response to thermal stress. The variation in HSP70 gene expression has been positively correlated with thermo-tolerance. Three different goat populations (Black Bengal, Ganjam and Raighar) which differ in body size, coat color and production performance were assessed for effect of thermal stress at different temperature humidity index (THI). The physiological vital parameters like rectal temperature (RT), skin temperature (ST), heart rate (HR) and respiration rate (RR) which are related to thermal stress susceptibility were recorded. The genetic variation of HSP70 gene in the three goat populations and its effect on physiological vital parameters related to thermal stress was assessed. A novel polymorphism (C241T) in the exonic region of HSP70 gene with significant (p < .05) statistical association with the physiological vital parameters like RT, ST and RR was identified indicating its role in thermo-tolerance.HighlightsThe HSP70 gene was found to be polymorphic in Indian goats.The non-synonymous nucleotide change (C241T) resulted change in amino acid Arginine 241 Cysteine in mature polypeptide which were not reported earlier.The constructed phylogenetic tree showed that Ganjam and Raighar goats are more close to each other.

An in vivo and in silico analysis of novel variation in TMBIM6 gene affecting cardiopulmonary traits of Indian goats.

Transmembrane Bax Inhibitor Motif-containing 6 (TMBIM6) gene acts as calcium leak channel and negatively regulates autophagy and autophagosome formation. The TMBIM6 gene was amplified and searched for variation in three different goat populations (i.e. Black Bengal, Ganjam and Raighar) of Odisha state of the India. The result indicated two substitutions i.e. 55th position (C55T) and 95th position (C95A) in the amplified region of the gene resulting in change of amino acids (Leu > Phe and Thr > Asn). The identified SNPs were combined to form haplotypes and animals were grouped accordingly. Structural analysis showed minor changes (5%) in between mutant and wild TMBIM6 protein structures. However, any functional variation could not be identified with respect to the calcium ligand and open pore state. But an alteration of calcium binding site was found. The binding interaction of calcium with the TMBIM6 protein was hydrophobic in nature in closed state whereas hydrophilic in open pore stage. The stress releasing function was the result of calcium leakage controlled by amino acids coded by exon 4 and exon 5 regions of TMBIM6 gene. The effect of breed and haplotype on cardiopulmonary traits was studied. The data on cardiopulmonary traits of body i.e. rectal temperature, skin temperature, heart rate and respiration rate were recorded when ambient temperature usually remained the highest. The statistical analysis showed, significant difference in rectal temperature, skin temperature and respiration rate among these goat populations. The haplotypes (CC and TA) were found to have a significant (P < 0.05) effect on rectal temperature, skin temperature and respiration rate. However, any such significant effect could not be identified in recorded heart rate. The objective of the present study to identify the genetic variations in TMBIM6 gene having significant effect on cardiopulmonary traits which can be further uses as the molecular markers to improve heat tolerance mechanism in goats.

Meta-analysis of seminal traits affecting bull fertility.

The pedigree information on bulls was collected from Frozen Semen Bank (FSB). Male reproductive data on seminal characters (semen volume (SV), sperm concentration (SC), initial progressive motility (IPM), post-thaw motility (PTM), and total spermatozoa (TS)) were analyzed to calculate their repeatability, heritability, genetic correlation, phenotypic correlation, and environmental correlation values. The principal component analysis revealed SV and SC were the two most important characters among the five seminal characters that can be further used. The repeatability value for seminal characters was very low (0.02-0.2). The sire component of heritability value varied from very low to low (0.0001 to - 0.24). The dam component of heritability value varied from very low to high (0.01 to 0.64). The genetic correlation value calculated from the sire component indicated a slightly antagonistic relationship between SV and SC (- 0.007) and SV and PTM (- 0.049). The environmental correlation value was found to be negative for all the traits except the value calculated from the dam component between SC and IPM (0.027). The phenotypic correlation values between the seminal traits were low and mostly negative except between SC and IPM (0.107) and PTM and TS (0.109). Statistically significant correlation was observed between PTM and SV (- 0.157), PTM and IPM (- 0.145), PTM and TS (0.109), and SC and IPM (0.107). Since the estimated heritability, repeatability, and the correlation values were found low, individual selection method cannot be applied on these bulls.