Chinmoy Mishra

Expression Profiling and Identification of Novel SNPs in CatSper2 Gene and Their Influence on Sperm Motility Parameters in Bovines

ABSTRACT 122 randomly selected Vrindavani cattle were studied to detect polymorphism in four fragments of the CatSper2 gene that were comprised of exon 2, 4, 5, and 6 with flanking regions. Using PCR-SSCP and sequencing analysis, three SNPs (T157C, C273A, and A274C) in the first fragment, one SNP (C30G) in the second fragment, and two SNPs (T86G and T292C) in the fourth fragment were identified. The third fragment did not reveal any polymorphism. The SNPs were used for construction of haplotypes and three haplotypes were found. The least square analysis of variance revealed a significant (P < 0.01) effect of haplotype on all three motility parameters. The haplotype II and III were nonsignificantly different from each other while being significantly (P < 0.01) different from haplotype I. The nonsignificant difference of haplotype II with III can lead to a hypothesis that T>G or C>T SNPs may not play a role in sperm motility. However, when the comparison was made between haplotype I and II, it can be inferred that C>T SNP may have a role in sperm motility, as haplotype II has better motility parameters. Expression profiling of Catper2 gene revealed nonsignificant down regulation of CatSper2 gene in poor motility sperm compared to good motility sperm.

Single nucleotide polymorphism mining and nucleotide sequence analysis of Mx1 gene in exonic regions of Japanese quail

Aim: An attempt has been made to study the Myxovirus resistant (Mx1) gene polymorphism in Japanese quail. Materials and Methods: In the present, investigation four fragments viz. Fragment I of 185 bp (Exon 3 region), Fragment II of 148 bp (Exon 5 region), Fragment III of 161 bp (Exon 7 region), and Fragment IV of 176 bp (Exon 13 region) of Mx1 gene were amplified and screened for polymorphism by polymerase chain reaction-single-strand conformation polymorphism technique in 170 Japanese quail birds. Results: Out of the four fragments, one fragment (Fragment II) was found to be polymorphic. Remaining three fragments (Fragment I, III, and IV) were found to be monomorphic which was confirmed by custom sequencing. Overall nucleotide sequence analysis of Mx1 gene of Japanese quail showed 100% homology with common quail and more than 80% homology with reported sequence of chicken breeds. Conclusion: The Mx1 gene is mostly conserved in Japanese quail. There is an urgent need of comprehensive analysis of other regions of Mx1 gene along with its possible association with the traits of economic importance in Japanese quail.

Molecular Characterization of Mx1 Gene in Native Indian Breeds of Chicken

ABSTRACT The genetic polymorphism of Mx1 gene was explored in Indian chicken breeds. PCR-RFLP analysis in 102 bp fragment of partial intron 13 and partial exon 14 of Mx1 gene revealed two genotypes viz. RS and SS with two alleles viz. R and S both in Naked Neck and Tellicherry breeds of chicken. The homozygous genotype RR was not identified. When deduced amino acid sequences were compared, the asparagine amino acid was found to be substituted in “R” allele for serine in “S” allele. PCR-SSCP analysis of 284 bp fragment in 5′-UTR and partial promoter region revealed three genotypes viz. CC, CG, and CH with three different alleles viz. C, G, and H in Naked Neck breed of chicken and five genotypes viz. DI, JK, KK, KL, and KM with six different alleles viz. D, I, J, K, L, and M in Tellicherry breed of chicken. The homozygous genotypes viz. GG and HH in Naked Neck and DD, II, JJ, LL, and MM in Tellicherry chicken was not identified. The nucleotide substitution rate estimated to be in the range of 0.004–0.011. The identified genetic variation can be helpful for better insight to disease resistance property of the Mx1 gene.

Nucleotide variability of protamine genes influencing bull sperm motility variables

Protamines (PRMs), important proteins of chromatin condensation in spermiogenesis, are promising candidate genes to explore markers of sperm motility. The coding and in-silico predicted promoter regions of these genes were investigated in 102 crossbred and 32 purebred cattle. Also, mRNA quantification was done to explore its possibility as diagnostic tool of infertility. The PCR-SSCP analysis indicated there were two band patterns only in fragment I of the PRM1 and fragment II of the PRM2 gene. The sequence analysis revealed A152G and G179A transitions in the PRM1 gene. Similarly, G35A, A49G and A64G transitions were identified in the PRM2 gene which resulted in altered amino acid sequences from arginine (R) to glutamine (Q), from arginine (R) to glycine (G) and from arginine (R) to glycine (G), respectively. This caused the reduction in molecular weight of PRM2 from 2157.66 to 1931.33 Da due to reduction in the number of basic amino acids. These altered properties of the PRM2 protein led to the reduction in Mass Motility (MM: P < 0.01), Initial Progressive Motility (IPM; P < 0.05) and Post Thaw Motility (PTM; P < 0.05) in crossbred bulls. The least squares analysis of variance indicated there was an effect of PRM2 haplotypes on MM (P = 0.0069), IPM (P = 0.0306) and PTM (P = 0.0500) in crossbred cattle and on PTM (P = 0.0408) in the overall cattle population. Based on the RT-qPCR analysis, however, there was not any significant variation of PRM1 and PRM2 gene expression among sperm of Vrindavani bulls with relatively lesser and greater sperm motility.

Single Nucleotide Polymorphisms in 5’ Upstream Region of Bovine TLR4 Gene Affecting Expression Profile and Transcription Factor Binding Sites

ABSTRACT The present study in the 5’ upstream region of TLR4 gene revealed four Single Nucleotide Polymorphisms (SNPs) in Vrindavani and Tharparkar cattle. The polymorphic information content (PIC), heterozygosity and allelic diversity values were low to moderate for these SNPs. In Vrindavani cattle, one SNP was found to be in Hardy-Weinberg Equilibrium (HWE) and the remaining three were found to be in linkage disequilibrium (LD) as indicated statistically (P > 0.05). In Tharparkar cattle, two SNPs were found to be in HWE and were not in LD as indicated statistically (P > 0.05). These SNPs were used for construction of haplotypes. In-silico analysis of these SNPs predicted abolition of eight transcription factor binding sites and creation of eight new sites. The quantitative real time PCR analysis did not show any significant variation of gene expression among haplotypes. However, gene expression between breed was found to be significant (P < 0.05) which suggested that upstream region of bovine TLR4 gene has a crucial role in its expression. These findings in TLR4 gene offer essential evidence that can be useful in future research exploring its role in immunity. TLR4 can be used as a marker for selection for disease resistance in bovines.

Effect of Inbreeding on Several Fitness Traits and Disease Susceptibility in Captive Tiger (Panthera Tigris) Population at Nandankanan Zoological Park, Odisha

The captive tiger population of Nandankanan Zoological Park, Odisha was taken into study to identify the deleterious effect of inbreeding on litter size, mortality, survivability, death due to different diseases and other fitness traits. The path of pedigree and inbreeding coefficient for 342 tigers were calculated from the available information of tiger national studbook. The correlation values between inbreeding coefficient and different fitness traits were estimated. The litter size of tiger was found to be positively and significantly (p < 0.05) correlated with inbreeding coefficient. However, age at death, survivability of cubs upto weaning and total numbers of cubs born throughout lifetime were negatively and significantly (p < 0.05) correlated with inbreeding coefficient. The death due to a disease conditions like stress, accidental injury, nephritis and senility were significantly (p < 0.05) associated with inbreeding of a tiger. It is recommended for zoos and other captive institutions to reduce inbreeding and inbreeding depression in their captive animal populations as much as possible by using species-specific breeding plans and using minimising kinship as captive breeding strategy.

Sequence Based Structural Characterization and Genetic Diversity Analysis of Full Length TLR4 CDS in Crossbred and Indigenous Cattle

ABSTRACT The exploration of candidate genes for immune response in cattle may be vital for improving our understanding regarding the species specific response to pathogens. Toll-like receptor 4 (TLR4) is mostly involved in protection against the deleterious effects of Gram negative pathogens. Approximately 2.6 kb long cDNA sequence of TLR4 gene covering the entire coding region was characterized in two Indian milk cattle (Vrindavani and Tharparkar). The phylogenetic analysis confirmed that the bovine TLR4 was apparently evolved from an ancestral form that predated the appearance of vertebrates, and it is grouped with buffalo, yak, and mithun TLR4s. Sequence analysis revealed a 2526-nucleotide long open reading frame (ORF) encoding 841 amino acids, similar to other cattle breeds. The calculated molecular weight of the translated ORF was 96144 and 96040.9 Da; the isoelectric point was 6.35 and 6.42 in Vrindavani and Tharparkar cattle, respectively. The Simple Modular Architecture Research Tool (SMART) analysis identified 14 leucine rich repeats (LRR) motifs in bovine TLR4 protein. The deduced TLR4 amino acid sequence of Tharparkar had 4 different substitutions as compared to Bos taurus, Sahiwal, and Vrindavani. The signal peptide cleavage site predicted to lie between 16th and 17th amino acid of mature peptide. The transmebrane helix was identified between 635–657 amino acids in the mature peptide.

Molecular cloning and characterisation of serum lysozyme gene in Muzaffarnagri breed of sheep

The present study was carried out to characterise the serum lysozyme gene in Muzaffarnagri sheep. Total RNA was extracted from the white blood cells and serum lysozyme cDNA was synthesised by Reverse transcription-polymerase chain reaction, then cloned using pGEMT-cloning vector and sequenced. The sequencing of cDNA revealed that the length of serum lysozyme gene was 447 bp with 46% Guanine and Cytosine (GC) content. The comparative sequence analysis of serum lysozyme gene of cattle and buffalo with sheep revealed differences at 24 and 21 places, respectively. The molecular weight of serum lysozyme of sheep is 16.48 kDa. The sheep serum lysozyme cDNA sequence was 94.6% similar to cattle gene sequence, whereas it was 95.3% similar to buffalo gene sequence. Similarly, the derived amino acid sequence of sheep cDNA showed 90.6% similarity with cattle and 92.6% similarity with buffalo. Phylogenetic analysis revealed that sheep and buffalo sequences formed a cluster and evolutionary closer than the cattle sequences.