Project description:Tenacibaculum maritimum overview

Project description:Tenacibaculum maritimum in Norwegian fish farms

Project description:Tenacibaculum maritimum strain:SP9.1 Genome sequencing

Project description:Tenacibaculum maritimum Genome sequencing and assembly

Project description:Tenacibaculum maritimum NBRC 15946 genome sequencing project

Project description:Tenacibaculum maritimum, the etiological agent of tenacibaculosis in marine fish, constitutively secretes extracellular products (ECPs), which play a main role in virulence. However, their protein content has not been yet comprehensively studied. In this study a collection of 64 T. maritimum strains belonging to the four serotypes described so far (O1 to O4) was used to analyse the prevalence of extracellular proteolytic and lipolytic activities related to virulence. Results showed the existence of a large heterogeneity of the enzymatic capacity among serotype O4 isolates. Most notably, the ECPs of T. maritimum SP9.1 belonging to serotype O4 contain a large amount of outer membrane vesicles (OMVs), which were characterized by electron microscopy and purified by successive steps of filtration and centrifugation. Total protein content of ECPs, and the proteins associated to OMVs and soluble fraction of the ECPs (S-ECPs) were identified by nLC-TIMS-QTOF. A total of 641 proteins were identified in ECPs including some virulence related factors, which were mainly found in one of the fractions, either in OMVs or S-ECPs. Outer membrane proteins such as TonB-dependent transporters and the T9SS-related proteins PorP, PorT and SprA appeared to be mainly associated with OMVs. By contrast, putative virulence factors such as sialidase SiaA, chondroitinase CslA, sphingomyelinase Sph, ceramidase Cer and collagenase Col were found only in the S-ECPs. These findings demonstrate that T. maritimum release, through surface blebbing, outer membrane vesicles that are enriched specifically in TonB-dependent siderophore transporters and proteins of the type IX secretion system. Interestingly, our results also showed that OMVs could play a role in virulence by promoting surface adhesion, biofilm formation, and maximizing cytotoxic effects of the ECPs. The T. maritimum secretome analysis provides insights into the extracellular products function and can constitute the basis for future studies aimed to elucidate the role of OMVs in the pathogenesis of fish tenacibaculosis.

Project description:Sequencing of Tenacibaculum maritimum outbreak isolates from Oceania

Project description:Tenacibaculum maritimum strain:tissue | isolate:tissue Genome sequencing

Project description:Virulence factors of the fish pathogen Tenacibaculum maritimum as revealed by genomic analysis

Project description:Polygonum maritimum