One SmartMix bead (Cepheid) was used for each 2 – 25 μl PCR reaction along with
20 ng of cDNA, 0.2× SYBR Green I dye (Invitrogen) and 0.3 μM forward and reverse primers (Sigma Genosys) designed using Primer Express Software v2.0 (Applied Biosystems) [see Additional file 4] to produce an amplicon length of about 150 bp. For each gene tested, the individual calculated threshold cycles (Ct) in late-log and stationary phase samples were averaged among each condition and normalized to the Ct of the B. melitensis 16S rRNA (rrnA) gene from the same cDNA samples before calculating TGF-beta/Smad inhibitor the fold change using the ΔΔCt method (Applied Biosystems Prism SDS 7700 User Bulletin #2). For each primer pair, a negative control (water) and an RNA sample without reverse transcriptase (to determine genomic DNA contamination) were included as controls during cDNA quantification. All samples were run on a 1% agarose gel after qRT-PCR to verify that only a single band was produced. click here Array data were considered valid if the fold change of each gene tested by qRT-PCR was > 2.0 and in the same direction as determined
by microarray analysis. Statistical analysis Three independent experiments were performed to determine the invasiveness of cultures of B. melitensis 16 M at different phases of growth. Statistical significance was determined using Student’s t test, with a P value < 0.05 considered as significant. Acknowledgements We thank Dr. Tomas A. Ficht for providing the B. melitensis 16 M strain, Dr. Renée M. Tsolis for critical reading of the manuscript and the anonymous reviewers for their helpful comments to improve the quality of the manuscript. We are grateful
Farnesyltransferase to the Western Regional Center of Excellence (WRCE) Pathogen Expression Core (Dr. John AZD6244 solubility dmso Lawson, Dr. Mitchell McGee, Dr. Rhonda Friedberg and Dr. Stephen A. Johnston, A.S.U.) for developing and printing the B. melitensis cDNA microarrays. L.G.A. and H.R.G were supported by grants from the NIH/NIAID Western Regional Center of Excellence 1U54 AI057156-01. L.G.A is also supported by the U.S. Department of Homeland Security National Center of Excellence for Foreign Animal and Zoonotic Disease Defense ONR-N00014-04-1-0 grant. C.A.R. was supported by I.N.T.A.-Fulbright Argentina Fellowship. C.L.G. received support from an NIH cardiology fellowship, Cardiology Department, University of Texas Southwestern Medical Center. Electronic supplementary material Additional file 1: Fluorescent signal values of B. melitensis gDNA in microarrays co-hybridized with B. melitensis RNA at late-log and stationary growth phases. Average Cy5 (gDNA) fluorescent signal values for B. melitensis grown in F12K tissue culture medium to late-log and stationary phases (4 arrays each) were plotted in Excel. Each dot represents the signal value for an individual spot on the array. Fluorescent signal values for gDNA co-hybridized with B.