Abstract
This study aimed to determine the transcription profile of NK-lysin gene in native chickens. Moreover, it was targeted toward determining the primary, three-dimensional, and molecular dynamic structures of NK-lysin and granulysin peptides to understand their mode of action and intracellular transduction pathways using in silico analysis. The results revealed that NK-lysin gene in native chickens and Gallus gallus were closely related to those of other avian species. However, there was a low sequence homology when aligned with the mammalian peptides. The coding region of NK-lysin peptide in native chickens encoded 140 amino acids as found in G. gallus with a homology of 98% that declined to 20%, particularly in mammalian species. The results revealed that the NK-lysin in native chickens was closely related to that in avian species at a range of 71-76%. However, it was different from that of other mammalians in terms of nucleotide and amino acid identities. The mRNA transcripts of NK-lysin had high and moderate expression levels in the testis and pancreas, respectively. Nonetheless, the small intestine, kidney, spleen, and liver had a low expression level. The NK-lysin peptides contained more than 50% of the total AA with a nonpolar feature, whereas polar AA constituted up to 30% of AA. The results also indicated that the hydrophilic regions and positively charged amino acids were predominant on the surface of the investigated peptides. The NK-lysin was folded in 4-5 helical units and 3-4 loop structures in their saposin domain. The third helical peptide was long in both avian and bovine species (104-123 residues). However, the fourth helical peptide was short in humans, pigs, and chimpanzees (101-123, 104-123, and 102-124 residues, respectively), with the helical unit residues of 95-97, 96-99, and 96-98, respectively. The obtained results can be helpful in developing novel approaches that could be used as alternatives or adjuncts to the existing means of control.