uniprot.org. Search parameters specified an initial peptide mass tolerance
of +/- 5 ppm, an MS/MS tolerance of +/- 0.5 Da and full trypsin specificity allowing for up to 1 missed cleavages. Oxidation of methionine were set as variable modification. Detection of Outer Membrane Proteins (OMP’s) An in-house database was curated containing the results from seven sub-cellular predictor programs (LIPO [29], LipoP v1.0 [30], Proteome Analyst v2.5 [31], CELLO v2.5 [32], PSORTb v2.0 [33, 34], TMHMM v2.0 [35, 36] and BOMP [37]) as well as using the data obtained from the Gene Ontology Annotation (GOA) database [38, 39], Gene Ontology database GOOSE http://www.berkeleybop.org/goose and UniProtKB http://www.uniprot.org/help/uniprotkb. Experimental data acquired by Coldham et al. [20] where 34 outer membrane proteins were identified in Salmonella Typhimurium was also added to the database. Proteins were identified find more as outer membrane proteins if 1) the protein name suggests outer membrane, or, 2) if any of the GOA, GOOSE, UniProtKB, BOMP, PSORTb or the experimental data obtained by Coldham et al. HCS assay indicate outer membrane, or, 3) Both Proteome Analyst and CELLO predicts the presence of outer membrane proteins, or, 4) if both LIPO and LipoP predicts the presence of lipoproteins. Acknowledgements We would like to acknowledge the proteomic expertise at the Proteomics Core Facility at the University of Gothenburg
and Casein kinase 1 the in-house data evaluation performed by Max Davidson ��-Nicotinamide supplier at Nanoxis AB, Gothenburg, Sweden. This project was funded by the Health Protection agency PhD studentship. Electronic supplementary material Additional file 1: Outer membrane proteins identified and number of peptides generated using a single or multi-step digest protocol. Table listing outer membrane proteins identified from single and multi-step digest protocols after using the LPI™ FlowCell (DOC 140 KB) Additional file 2: Comparison of the outer membrane proteins identified in this study with that reported by Coldham & Woodward and Molloy et al. Table comparing the results from this study with
that reported by Coldham &Woodward and Molloy et al. (DOC 115 KB) Additional file 3: Flow diagram showing the basic steps in operating a LPI™ FlowCell. A flow diagram showing the main steps in using the LPI™ FlowC (DOC 34 KB) References 1. Baumler AJ, Tsolis RM, Ficht TA, Adams LG: Evolution of host adaptation in Salmonella enterica. Infect Immun 1998, 66:4579–4587.PubMed 2. Everest P, Ketley J, Hardy S, Douce G, Khan S, Shea J, et al.: Evaluation of Salmonella typhimurium mutants in a model of experimental gastroenteritis. Infect Immun 1999, 67:2815–2821.PubMed 3. McCormick BA, Miller SI, Carnes D, Madara JL: Transepithelial signaling to neutrophils by salmonellae: a novel virulence mechanism for gastroenteritis. Infect Immun 1995, 63:2302–2309.PubMed 4.