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  1. May 2019
    1. PCR products were purified using the PCR Purification Kit (Qiagen) as per the manufacturer's instructions
    1. C. glabrataTn7insertion mutantlibrary was screened for reduced growth in YNB-pH 2.0 medium. Thismutant library,composed of 9,134 Tn7insertion mutants, isarrayed in 96-well microtitre plates(Castaño et al.,2003). 2 μlof each mutant strain was inoculated in 120μl YNB medium and grown overnight at 30 ̊C in an incubator with constant shakingat 120 rpm. Overnight grown cultures were 120-folddiluted with 1X PBS in a 96 well block and transferred, using a 96-well pin replicator, to YNB and YNB-pH 2.0 medium. Plates were incubated at 30°C and mutant phenotypes were recorded after 3-4days.
    1. 24 h post infection, THP-1 macrophages were washed thrice with PBS, lysed in water and recovered yeast cells were used to infect THP-1 cells at a MOIof 1:10. Three rounds of macrophage infection foreach mutant pool were carried out to enrich for the desired mutants in the final population. The lysate of 3rdround infection was inoculated in YPD medium for overnight (output). Cells were harvested, genomic DNA isolated from each input and output cell pellet andunique signature tags were PCR-amplified with P32-labeledα-dCTP using primers complementary to theinvariant region flanking each unique tag sequence. LabeledPCR products were denatured at 95°C for 10 min, chilled on ice and were hybridized tonylon membranescarrying immobilized plasmid DNA containing 96 unique tagsfor 14-16 h at 42°C.Membranes were washed twicewith 0.1X SSC bufferand exposed to phosphorimager screen for 2-4 h. Radioactive counts for each spot were quantified using Image Quant and Fuji Multi Gauge V3.0 software. Relative percentage intensity for individual spot was calculated with respect to allspots present oneach hybridizedmembrane
    2. YPD-grown cultures (0.05 OD600) of each mutant pool (96 mutants, each carrying a unique signature tag) were either inoculated in YPD medium for overnight (input) or used to infect differentiated THP-1 cells (1X106). After 2 h incubation, non-cell-associated yeastcellswere removed by washing THP-1 cellsthricewith PBS. At
    1. Plasmids containing the shRNA of interestwere either transfected transiently or were stably transfected. Transient transfection of shRNA was performed using eitherLipofectamine 2000 or PEI (as per the method explained before). Stable integration of shRNA was performed by transfecting shRNA along with retroviral packaging vector PCL-Ampho into BOSC23 packaging cells. The supernatantcontaining the packed viruses (viral medium)was collected at 48 and 72 hours of transfection. The viral mediumwas then added to thetarget cells in the presence of polybrene (8μg/mL). Two days later, cells were cultured in medium containing puromycin for the selection of stable clones.The clones stably expressing the desiredshRNA were identifiedandverified through western blotting and immunostaining using specificantibodies. A similar protocol was used to generate stable cell lines that expressed control shRNA
    1. strain or the ∆rpfFmutantharboring the Wild-typeallele in plasmid (pSC9).Genes that were significantly up regulated by 0.6 or more or down regulated by -0.6 or less fold (log2–fold change) were identified.The microarray data have been deposited in the NCBI Gene Expression Omnibus (GEO) under the GEO series accession number GSE53255
    2. 8x15k (AMADID: 25096) custom Agilent platform comprised of coding sequences for the three strains of Xanthomonas-X. oryzaepv. oryzae(KACC10331), X. oryzaepv. oryzicola(BLS256) and X. axonopodispv. citri 306 gathered from National Center for Biotechnology Information (NCBI). A total of 8113 probes were designed wherein 2120 probes corresponding to genes of interest replicated three times on Agilent platform. Feature extraction software GeneSpring GX version 10.5.1 of Agilent and GeneSpring GX percentile shift normalization was used for data analysis. Genes that were significantly up or down regulated by more than 1.5 fold and less than 0.5 fold were identified. Hierarchical clustering was performed for the differentially regulated genes and classified based on functional category. Data are the average of two hybridizations from biological replicates of each sample andraw data sets for this study are available at the Gene Expression Omnibus database (Accession number –GSE217809). Likewise, Microarray analysis for Xanthomonas oryzaepv. oryzicolawas performed by isolating RNA from the strains grown under low-ironcondition. The labeled cRNA samples were hybridized on to a Genotypic Technology Private Limited designed 8x15k (AMADID: 41087) Agilent platform. Data extraction from Images was done using Feature Extraction software v 10.7 of Agilent. Data normalization was done in GeneSpring GX using 75thpercentile shift and normalization to specific samples. Differentially regulated genes were clustered hierarchically to identify significant gene expression patterns.Genes were classified based on functional category. Hierarchical clustering of DSF regulated genes in X. oryzaepv. oryzicola grown under low-iron conditions is based on similar expression profiles in ∆rpfFmutant vs either the Wild-typeBXOR1 strain or ∆rpfF(pSC9). Clustering analysis was performed using GeneSpring GX Software using Average Linkage rule with pearson uncentered distance metric. log2–fold change differences between the ∆rpfFmutant with either the Wild-typeBXOR1
    3. Xanthomonas oryzae pv. oryzae strains grown in PS medium to an OD600of 1, were collected, washed once with 150 mM sodium chloride (NaCl) solution to remove excess EPS. RNA isolation was performed using Trizol method described above. After isopropanol precipitation, RNA was frozen at -80°C. Quality of RNA was examined by determining the RNA integrity number (RIN) before microarray analysis. Microarray experiments were performed at Genotypic Technology Pvt. Ltd., Bangalore.Briefly, a
    1. E. coliDH5α ultra-competent cells were used for all bacterial transformations. Briefly, frozen DH5α ultra-competent cells were taken out from -80°C freezerandthawed on ice for 15 min. DNA to be transformed was added to the bacterial cell suspension and incubated on ice for 30 min. For transforming ligation mixtures and plasmids,5-10 μl and 100-500 ng of DNA was used, respectively. Followed by 30 min incubation on ice, heat shock was given for 60-90 sec at 42°C in a water bath and cells were immediately kept back onice for 2 min. To this,1 ml of sterile LB medium was added and tubes were incubated inashaker incubator set at 37°C, 200 rpm for 45 min.Next, cells were spun down and resuspended in 500 μl of LB medium. About 100-200 μl of resuspended cells were plated on LB-agar medium containing appropriate antibiotics and incubated for 12-16 h at 37°C. Transformants were purified on LB-agar plates containing appropriate antibiotics andpositive transformantscarrying desired DNAwere verified by PCR, restriction digestion and sequencing analyses