Login / Signup

Comparative Genomic Characterization of Relaxin Peptide Family in Cattle and Buffalo.

Muhammad Saif-Ur RehmanFaiz-Ul HassanZia-Ur RehmanHafiz Noubahar HussainMuhammad Adnan ShahidMuhammad MushahidBorhan Shokrollahi
Published in: BioMed research international (2022)
Relaxin family peptides significantly regulate reproduction, nutrient metabolism, and immune response in mammals. The present study aimed to identify and characterize the relaxin family peptides in cattle and buffalo at the genome level. The genomic and proteomic sequences of cattle, buffalo, goat, sheep, horse, and camel were accessed through the NCBI database, and BLAST was performed. We identified four relaxin peptides genes ( RLN3 , INSL3 , INSL5 , and INSL6 ) in Bos taurus , whereas three relaxin genes ( RLN3 , INSL3 , and INSL6 ) in Bubalus bubalis . Evolutionary analysis revealed the conserved nature of relaxin family peptides in buffalo and cattle. Physicochemical properties revealed that relaxin proteins were thermostable, hydrophilic, and basic peptides except for INSL5 which was an acidic peptide. Three nonsynonymous mutations (two in RLN3 at positions A16 > T and P29 > A, and one in INSL6 at position R32 > Q) in Bos taurus , whereas two nonsynonymous mutations (one in RLN3 at positions G105 > w and one in INSL3 at position G22 > R) in Bubalus bubalis , were identified. INSL3 had one indel (insertion) at position 55 in Bos taurus . Gene duplication analysis revealed predominantly segmental duplications ( INSL5/RLN3 and INSL6/INSL3 gene pairs) that helped expand this gene family, whereas Bubalus bubalis showed primarily tandem duplication ( INSL3/RLN3 ). Our study concluded that relaxin family peptides remained conserved during the evolution, and gene duplications might help to adapt and enrich specific functions like reproduction, nutrient metabolism, and immune response. Further, the nonsynonymous mutations identified potentially affect these functions in buffalo.
Keyphrases
  • genome wide
  • immune response
  • copy number
  • amino acid
  • emergency department
  • single cell
  • gene expression
  • genome wide analysis
  • tandem mass spectrometry
  • solid phase extraction