Genomic and Computational Analysis of Novel SNPs in TNP1 Gene Promoter Region of Bos indicus Breeding Bulls.

Kashif Hameed Anjum,Asif Nadeem,Amjad Riaz,Jahanzaib Azhar,Hafiz Ishfaq Ahmad,Maryam Javed,Muhammad Fahad Bhutta,Wasim Shehzad,Vindhya Mohindra

doi:10.1155/2022/9452234

Kashif Hameed Anjum, Asif Nadeem + Show 7 more

Open Access

https://doi.org/10.1155/2022/9452234

Copy DOI

Abstract

Transition nuclear proteins (TNPs), the principal proteins identified in the condensing spermatids chromatin, have been found to play a key role in histone displacement and chromatin condensation during mammalian spermatogenesis. One such gene belonging to the TNP family called TNP1 gene is abundantly expressed in the regulation of spermatogenesis, and its sequence is remarkably well conserved among mammals. Genomic analysis, by sequencing and computational approach, was used to identify the novel polymorphisms and to evaluate the molecular regulation of TNP1 gene expression in Sahiwal cattle breeding bulls. DNA samples were sequenced to identify novel single nucleotide polymorphisms (SNPs) in the TNP1 gene. Modern computational tools were used to predict putative transcription factor binding in the TNP1 promoter and CpG islands in the TNP1 promoter region. In the TNP1 gene, four SNPs, three TATA boxes, and one CAAT box were identified. One CAAT box was discovered at 89 bp upstream of start site ATG. The computational analyses indicated that the polymorphisms inside the promoter sequence results in an added HNF-1 transcription factor binding site. In contrast, the other variations may remove the naturally occurring SRF transcription factor binding site. The CpG islands in the TNP1 promoter region were predicted to be absent by the MethPrimer program before and after SNP site mutations. These findings pave the way for more research into the TNP1 gene's promoter activity and the links between these SNPs and reproductive attributes in the Sahiwal breeding bulls.

Highlights

IntroductionBulls have gained major importance in animal breeding since a specific bull can mate numerous females
Transition nuclear proteins (TNPs) are the predominant proteins identified in the condensed spermatids chromatin and are critical for chromatin condensation and histone replacement during spermatogenesis in animals. e TNP1 gene in Bos taurus is found on Genetics Research chromosome 2q42-q43 [7] and encodes a 6.2 kDa protein with 55 residues with approximately 20% lysine and 20% arginine spread [8]
In the current study, the single nucleotide polymorphisms (SNPs) in the promotor region of TNP1 gene, which can primarily lead to reduced spermatogenesis in the Sahiwal breeding bulls is investigated

Summary

Introduction

Bulls have gained major importance in animal breeding since a specific bull can mate numerous females. One of the significant causes of infertility and subfertility is spermatozoa maturation [1]. Anomalies in the DNA/RNA or protein can lead to defective spermatozoa, which can no longer fuse functionally with the oocyte. Such events cannot progress towards induction of embryonic development, resulting in infertility [2–4]. Spermatozoa maturation has been linked to the DNA stability, nuclear vacuoles quality, and chromatin organization [5, 6]. E sperm nucleus experiences substantial reorganization, with histones being replaced by numerous nuclear proteins. TNPs are the predominant proteins identified in the condensed spermatids chromatin and are critical for chromatin condensation and histone replacement during spermatogenesis in animals. Polymorphisms in the human TNP1 gene appear to be linked to DNA degradation in individuals with azoospermia and varicocele [10]

Methods

Results

Conclusion