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  Recombinant Salmonella enterica serovar Typhimurium FljB flagellin protein   FLB01 structure
           
  Background
Flagellin is the principal structural protein of bacterial flagella, the helical appendages that enable bacterial motility [1]. Almost uniquely among proteins, flagellin contains regions that are sufficiently conserved across bacterial species to be recognised by two distinct pattern recognition receptors (PRRs) of the mammalian innate immune system. Flagellin may bind Toll-like receptor 5 (TLR5) on the surface of immune cells, triggering signalling pathways that result in the production of pro-inflammatory cytokines and other immune responses [2]. Alternatively, flagellin that enters the cytosol may be recognised by the NAIP / NLRC4 inflammasome, resulting in the processing of pro-IL1β to the active form of IL1β, and pyroptosis via cleavage of gasdermin D [3]. As these responses make flagellin a potent activator of dendritic cells and adaptive immunre responses more generally, it has received much interest as a vaccine adjuvant and carrier in both pre-clinical models and clinical trials [4]. The flagellin molecule can be thought of as comprising four major domains, with domains D0 and D1 being highly conserved, and containing the motifs responsible for recognition by TLR5 and NLRC4. The D3 domain, by contrast, is highly variable, and is the dominant epitope for anti-flagellin antibodies arising from natural infection as it is exposed on the surface of the flagellar filament. Fusion proteins in which antigens of interest either replace the D3 domain, or are attached at the C-terminus of flagellin, have been shown to be potent inducers of humoral and T-cell responses to the target antigen [4].
Caithness Biotech recombinant full-length Salmonella enterica serovar Typhimurium flagellin comprises amino acids Met 1 to Arg 506 of S. Typhimurium FljB protein, therefore encompassing all domains of the full length protein. It is a potent stimulus of TLR5, and expressed in mammalian cells to maximise purity and minimise presence of contaminating bacterial stimulants of other TLRs, such as TLR2 and TLR4. Potential applications of flagellin protein include use in studies of innate immune signalling, host-pathogen interactions, as an antigen for ELISA and as an adjuvant, carrier or fusion partner for vaccine development.
 
Description
  Product Recombinant Salmonella enterica serovar Typhimurium FljB flagellin protein
  Size / volume 20 μg
  Expression system HEK-293 cells
  Amino acids Met 1 to Arg 506, accession number P52616
  Tags C-terminal 6x His tag
  Sequence graphic FLB01 graphic
  Intended use For laboratory research only, not for clinical or diagnostic use.
           
  Specifications
  Format Lyophilised from sterile PBS (pH 7.4) with trehalose as protectant and without additional carrier protein.
  Purity >95% by SDS PAGE
  Molecular weight Migrates at ~ 60 kDa (glycosylation present)
  LPS content < 0.1 ng / μg (by HEK-293-TLR4 bioassay, relative to E. coli LPS standard)
  BLP content < 0.1 ng / μg (by HEK-293-TLR2 bioassay, relative to Pam3CSK4 standard)
Amino acid sequence See Technical data sheet.
  Applications ELISA / bioassay / SDS PAGE / binding studies / immunoassays
           
  Pricing  
  Catalogue number FLB-01
  Price per unit £100 per vial of 20 μg
   
  Bespoke flagellin fusion protein service
We also offer cloning, expression and purification of bespoke flagellin fusion proteins for vaccine research and development. Your antigen of interest may be fused either to the C-terminus, or within a central domain replacing the D3 loop. Please click here for futher information regarding our bespoke flagellin services.
           
  FLB01 Fig1   FLB01 Fig2    
  Figure 1: SDS PAGE analysis
1 μg of recombinant full-length FljB protein was separated by reducing SDS PAGE and visualised by Coomassie Blue staining. Caithness Biotech recombinant FljB migrates at approximately 60 kDa due to glycosylation.
  Figure 2: Validation of the capacity of recombinant FljB to stimulate TLR5-signalling
HEK-293 cells were transfected with NF-κB reporter and TLR5, then treated with indicated concentrations of the reconstituted protein (FLB-01) or native (non-recombinant) S. typmimurium flagellin (StF) overnight. NF-κB activation was measured by luminometry.
   
           
  Flagellin flyer   FLB01 TDS    
  Product flyer
Please click here to download the product flyer.
  Technical data sheet
Please click here to download the product technical data sheet.
   
           
References
[1] Samatey FA, Imada K, Nagashima S, Vonderviszt F, Kumasaka T, Yamamoto M, Namba K. Structure of the bacterial flagellar protofilament and implications for a switch for supercoiling. Nature 410:331-7 (2001)
[2] Smith KD, Andersen-Nissen E, Hayashi F, Strobe K, Bergman MA, Barrett SLR, Cookson BT, Aderem A. Toll-like receptor 5 recognizes a conserved site on flagellin required for protofilament formation and bacterial motility. Nat Immunol 4:1247-53 (2003)
[3] Zhao Y, Yang J, Shi J, Gong Y-N, Lu Q, Xu H, Liu L, Shao F. The NLRC4 inflammasome receptors for bacterial flagellin and type III secretion apparatus. Nature 477:596-600 (2011)
[4] Huleatt JW, Jacobs AR, Tang J, Desai P, Kopp EB, Huang Y, Song L, Nakaar V, Powell TJ. Vaccination with recombinant fusion proteins incorporating Toll-like receptor ligands induces rapid cellular and humoral immunity. Vaccine 25:763-75 (2007)
           

 

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