6 Da precursor ion mass tolerance, 0.8 Da fragment ion mass tolerance, and one potential missed cleavage. A protein database for R. leguminosarum 3841 was obtained from the Wellcome Trust Sanger Institute website ftp://ftp.sanger.ac.uk/pub/pathogens/rl/
selective HDAC inhibitors and was deposited in Mascot. The deposited R. leguminosarum 3841 protein database was used for database searching to identify the proteins present in the flagellar preparations. A cut-off score (p = 0.05) of 31 was used for all www.selleckchem.com/products/hsp990-nvp-hsp990.html peptides and since the flagellins of R. leguminosarum are highly homologous, we required at least one unique peptide for a flagellin protein to be considered a match. We also determined the relative abundance of the flagellin proteins based on the exponentially modified protein abundance index (emPAI) values, which were automatically
generated using MASCOT analysis. The emPAI value is based on the correlation of the observed flagellin peptides in the MS/MS analysis and the number of observable peptides (obtained by in NU7026 datasheet silico digestion) for each flagellin protein [43, 44]. Glycoprotein staining Flagellar preparations from VF39SM and 3841 were run on 12% acrylamide at 200V for 1 hour and 15 minutes. Glycosylation of flagellin subunits was determined using a Pro-Q Emerald 300 glycoprotein gel stain kit (Molecular Probes) following the manufacturer’s instructions. After glycoprotein staining, the total protein was visualized by staining the gel with 0.1% Coommassie Blue. Transmission electron microscopy Transmission electron microscopy was performed by slightly modifying the procedure used by Miller et al. [28]. The R. leguminosarum wildtype and fla mutant strains were grown on TY plates at 30°C for 48 hours. A culture suspension was prepared
using sterile double distilled water. A formvar carbon-coated grid was placed on top of a cell suspension drop for 3 minutes and excess liquid was removed. Staining was performed using 1% uranyl acetate for 30 seconds. Samples were observed using a Philips 410 transmission electron Tenoxicam microscope or a Hitachi-7650 transmission electron microscope with images taken with an AMT Image capture Engine. The length of the flagellar filaments formed by the wildtype and mutant strains was measured using Scion Image http://www.scioncorp.com/. Results and Discussion Characterization of flagellin genes in R. leguminosarum There are seven flagellin (fla) genes (flaA RL0718, flaB RL0719, flaC RL0720, flaD RL0721, flaE pRL110518, flaH RL3268, and flaG RL4729) in the genome of R. leguminosarum bv. viciae strain 3841 [45]. Sequence analysis and transcriptional studies indicate that all of the seven flagellin genes are transcribed separately as monocistronic genes. Six flagellin genes (flaA/B/C/D/H/G) are found on the chromosome, with flaA/B/C/D located within the major chemotaxis and motility gene cluster [28] while flaE is encoded on plasmid pRL11.