Genome organization, in-silico structure, and cellular localization of putative lipid transporter, ARV1 from parasitic nematode Setaria digitata

Abstract

Setaria digitata, a nematode that lives in the peritoneal cavity of ruminants is the causative agent of cerebrospinal nematodiasis affecting livestock health. The ‘ACAT related enzyme 2 required for viability 1’ (arv-1) gene encodes putative lipid transporter that is essential in eukaryotes. The molecular characterization of nematode arv-1 has scarcely been studied and putative arv-1 isolated from S. digitata was used for this purpose. Docking and computer simulation studies using a modeled 3D structure of S. digitata ARV1 (Sd-ARV-1) with ceramide ligands revealed that the amino acid residues, Ile182, Leu56, Ala61, Gln186 and Gln146 are likely involved in the formation of potential sphingolipid binding sites having the same conserved residues in other nematodes. Sd-arv-1, a single copy gene, genomic region (1676 bp) had five exons encoding 217 amino acids, being interspersed by four introns showing a similar gene organization to other nematodes. Sd-ARV-1 is expressed ubiquitously at all development stages of the S. digitata life cycle. Tissue localization analyses revealed that Sd-ARV-1 was significantly expressed in the longitudinal muscle layer, endodermis, uterine wall, eggs, growing embryos inside the uterus, microfilariae, intestinal wall, esophagus lumen, dorsal nerve cord and ventral nerve cord. Therefore, ARV1 is a structurally conserved, ubiquitously expressed protein, which may be involved in development, reproduction, tissue remodeling, muscle contraction etc., in nematodes.