Unveiling the molecular regulatory mechanisms of immune responses in the spleen of spotted sea bass (Lateolabrax maculatus) against Nocardia seriolae infection
Author:
Funder
Ocean University of China
Publisher
Elsevier BV
Reference64 articles.
1. Phylogenetic reconstruction, histopathological characterization, and virulence determination of a novel fish pathogen, Nocardia brasiliensis;Acosta;Aquaculture,2024
2. Integrative analysis of GWAS and transcriptome reveals p53 signaling pathway mediates resistance to visceral white-nodules disease in large yellow croaker;Bai;Fish Shellfish Immunol.,2022
3. NOD1 is the innate immune receptor for iE-DAP and can activate NF-κB pathway in teleost fish;Bi;Dev. Comp. Immunol.,2017
4. Recognition of lipopolysaccharide and activation of NF-κB by cytosolic sensor NOD1 in teleost fish;Bi;Front. Immunol.,2018
5. C7 is expressed on endothelial cells as a trap for the assembling terminal complement complex and may exert anti-inflammatory function;Bossi;Blood,2009
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