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cillin selection and identified by DNA sequencing with pPR3N-F primer. The cDNA sequences were used to search GenBank and NCBI BLAST against the porcine genome. After banishing duplication, the remaining plasmids were re-transformed into the yeast cells containing pDHB1SzP. Liquid b-galactosidase assay was used to retest for their interaction with SzP in the yeast again. Materials and Methods Ethics Porcine PAM was obtained with consent from one healthy pig under the ethical approval granted by the Nanjing Agricultural University Veterinary College. The protocol was approved by the Science and Technology Agency of Jiangsu Province. The approval ID is SYXK 2010-0005. All efforts were made to minimize animal’s suffering. Cell culture, bacterial strains and transfection conditions Raw264.7 cells and HEK 293 cells were maintained in the Dulbecco’s modified Eagle medium high glucose supplemented with 10% fetal bovine serum. Cells were used from passages 520. The S. Zooepidemicus wild type strain ATCC35246 and the S. zooepidemicus SzP-knockout strain was constructed by our lab. Co-Immunoprecipitation assay GFP was fused at the N-terminal of SzP in the S. zooepidemicus strain ATCC35246 using the vector pAcGFP1-C. ProLabel tag was fuse at the N-terminal of 12 porcine candidate proteins using the vector pProLabel-C. These 12 plasmids were each co-transfected with Mechanism of M-Like Protein in Antiphagocytosis pAcGFP1-SzP into HEK 293 cells and cultured on 100 mm plates. Cells were harvested after 36 h incubation and lysed with the lysis buffer containing 20 mM Tris, 200 mM NaCl, 1 mM EDTA, 0.5 NP-40 and Protease inhibitor Cocktail and 16PMSF. Cell lysates were incubated 2 h PubMed ID:http://www.ncbi.nlm.nih.gov/pubmed/22187127 with anti-GFP monoclonal antibody at 4uC. Next, 30 ml of protein G plus/A agarose beads was added and incubated at 4uC overnight. Next day, the beads were washed five times with the lysis buffer and the activity of ProLabel was measured using the ProLabel Detection Kit II. pAcGFP1-p53 and pProLabel-T were used as the positive control, while pAcGFP1-Lam and pProLabel-T were used as the negative control. After the initial identification of the Szp/TRX interaction, it was again confirmed with Co-IP and western-blot. Protein G plus/ A agarose beads together with AG-1478 manufacturer anti-mouse TRX polyclonal antibodies were incubated with HEK293 cell lysates. The samples were washed extensively in the lysis buffer. The beads were boiled in the sample buffer, and the supernatants were loaded onto SDS-PAGE gels. To confirm the SzP/TRX interaction, western-blot against GFP-SzP was performed using anti-GFP monoclonal antibodies. Briefly, 56107 CFU/mL wild strain or the SzP knockout was incubated for 30 min at 37uC in 2 mg/mL TRX. The bacteria cells were washed with phosphate-buffered saline, collected by centrifugation, and incubated with rabbit anti-mouse TRX polyclonal antibodies for 30 min at 37uC. This was followed by incubation with FITC-conjugated goat anti-rabbit IgG secondary antibodies. Surface-bound TRX was fluorescently stained and analyzed by a FACS Calibur. Data were compared by the analysis of variance with Tukey’s correction for multiple comparisons and Student’s t-test. P values,0.05 were considered significant. Macrophage TRX knockdown and Phagocytosis assays siRNA templates were designed using online siRNA Target Finder to match 20 nonconserved nucleotide sequences within the mouse TRX mRNA. The oligo nucleotide sequences used to create pBAsi-mU6-TRX were iTRX-sense 59- GATCCGGCTTGAAGC

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Author: HMTase- hmtase