Genome-wide investigation and expression analysis of TLR gene family reveals its immune role in Vibrio tolerance challenge of Manila clam

Abstract

Toll-like receptors (TLRs) play key roles in activating immune responses during infection. In this study, we identified TLR genes in Manila clam at the genome-wide level and characterized it into 9 types according to the Ruditapes philippinarum genome annotation, including TLR1 (1–10), TLR2 (1–10), TLR2–2 (1–5), TLR3 (1–3), TLR4 (1–9), TLR5, TLR6 (1–5), TLR7 (1–2), and TLR13 (1–4). The length of TLR proteins varied from 128 to 1257 amino acids. The molecular weights and theoretical isoelectric point (pI) values ranged from 14.63 to 143.32 kDa and 4.47 to 9.45, respectively. TLR genes showed universal expression levels in adductor muscle (AM), mantle (M), foot (F), gill (GI), pipe (P), digestive gland (DG), gonad (GO) and labial palp (L). Transcriptome analysis revealed that the expression level of TLR4, TLR5, TLR7 and TLR13 genes are significantly highly expressed in resistant individuals of Manila clam under Vibrio anguillarum challenge, indicating these TLR genes may play significant roles in response to invading pathogens. The results obtained in this work will provide valuable insights into the immune function of TLR gene in R. philippinarum.