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Nandi, M., Selin, C., Brawerman, G., Fernando, W.G.D, and de Kievit, T.R. Hydrogen cyanide, which contributes to Pseudomonas chlororaphis strain PA23 biocontrol, is upregulated in the presence of glycine. Biological Control, in press.
Duke K, Becker, M.G, Girard, I.J., Millar, J.L., Belmonte, M.F., Fernando. W.G.D., and de Kievit, T.R. The biocontrol agent Pseudomonas chlororaphis PA23 primes Brassica napus defenses through distinct gene networks. BMC Microbiology, in revision.
Nandi, M., Selin, C., Brawerman, G., Fernando, W.G.D, and de Kievit, T.R. 2016. The global regulator ANR is essential for Pseudomonas chlororaphis strain PA23 biocontrol. Microbiology; 162:2159-2169, doi:10.1099/mic.0.000391.
Nandi, M., Berry, C., Brassinga, A.K., Belmonte, M.F., Fernando, W.G.D, Loewen, P.C., and de Kievit, T.R. 2016. Pseudomonas brassicacearum strain DF41 kills Caenorhabditis elegans through biofilm-dependent and biofilm-independent mechanisms. Applied Environmental Microbiology; doi:10.1128/AEM.02199-16.
Shah, N., Klaponski, N., Selin, C., Rudney, R., Fernando, W.G.D., Belmonte, M.F., and de Kievit, T.R. 2016. PtrA, is functionally intertwined with GacS in regulating the biocontrol activity of Pseudomonas chlororaphis PA23. Frontiers in Microbiology. https://doi.org/10.3389/fmicb.2016.01512
Nandi, M., Selin, C., Brassinga, A.K.C., Belmonte, M.F., Fernando, W.G.D., Loewen, P.C., and de Kievit, T.R., 2015. Pyrrolnitrin and hydrogen cyanide production by Pseudomonas chlororaphis strain PA23 exhibits nematicidal and repellent activity against Caenorhabditis elegans. PloSOne; doi:10.1371/journal.pone.0123184.
Loewen, P.C., Villeneuva, J., Fernando, W.G.D., and de Kievit, T.R. 2014. Genome sequence of Pseudomonas chlororaphis PA23. GenomeA 2(4)e00390-14; doi:10.1128/genomeA.00689.14.
Klaponski, N., Selin, S., Duke, K., Spicer, V., Fernando, W.G.D., Belmonte, M.F., and de Kievit, T.R. 2014. The requirement for the LysR-type regulator PtrA for Pseudomonas chlororaphis PA23 biocontrol revealed through proteomic and phenotypic analysis. BMC Microbiology, 14:94, doi: 10.1186/1471-2180-14-94.
Loewen, P.C., Switala, J., Fernando, W.G.D., and de Kievit, T.R. 2014. Genome sequence of Pseudomonas brassicacearum DF41. GenomeA 2(3)e00390-14; doi:10.1128/genomeA.00390-14.
Berry, C.L., Nandi, M., Manuel, J., Brassinga, A.K., Donald, L.J., Fernando, W.G.D., Loewen, P.C., and de Kievit, T.R. 2014. Characterization of the Pseudomonas sp. DF41 quorum sensing locus and its role in fungal antagonism. Biological Control. 69:82-89.
Selin, C., Manuel, J., Fernando, W.G.D., and de Kievit, T.R. 2014. Expression of the Pseudomonas chlororaphis PA23 Rsm system is under control of GacA, RpoS, PsrA quorum sensing and the stringent response. Biological Control. 69:24-33.
Berry, C.L., Brassinga, A.K., Donald, L.J., Fernando, W.G.D., Loewen, P.C., and de Kievit, T.R. 2012. Chemical and biological characterization of sclerosin, an antifungal lipopeptide. Canadian Journal of Microbiology. 58:1027-1034.
Selin, C., Fernando, W.G.D., and de Kievit, T.R. 2012. The PhzI/PhzR quorum-sensing system is required for pyrrolnitrin and phenazine production and exhibits cross regulation with RpoS in Pseudomonas chlororaphis PA23. Microbiology. 158:896-907.
Manuel, J., Selin, C., Fernando, W.G.D., and de Kievit, T.R. 2012. Stringent response mutants of Pseudomonas chlororaphis PA23 exhibit enhanced antifungal activity against Sclerotinia sclerotiorum in vitro. Microbiology. 158:201-216.
Li, R., Khafipour, E., Krause, D., Entz, M, de Kievit, T.R., and Fernando, W.G.D. 2012. Pyrosequencing reveals the influence of organic and conventional farming systems on bacterial communities. PloSOne. 7(12):e51897.
Manuel, J., Berry, C., Selin, C., Fernando, W.G.D., and de Kievit, T.R. 2011. Repression of the antifungal activity of Pseudomonas sp. Strain DF41 by the stringent response. Applied and Environmental Microbiology. 77:5635-5642.
Ramarathnam, R., de Kievit, T. and Fernando, W.G.D. 2011. The role of antibiosis and induced systemic resistance, mediated by strains of Pseudomonas chlororaphis, Bacillus cereus and B. amyloliquefaciens, in controlling blackleg disease of canola. BioControl. 56:225-235.
Manuel, J., Zhanel, G.G., and de Kievit, T. 2010. Cadaverine suppresses persistence to carboxypenicillins in Pseudomonas aeruginosa PAO1. Antimicrobial Agents Chemotherapy. 54:5173-5179.
Berry, C., Fernando, W.G.D., Loewen, P.C., and de Kievit, T. 2010. Lipopeptides are essential for Pseudomonas sp. DF41 biocontrol of Sclerotinia sclerotiorum. Biological Control. 55:211-218.
Athukorala, S.N.P., Fernando, D.W.G., Rashid, K.Y. and de Kievit, T. 2010. The role of volatile and non-volatile antibiotics produced by Pseudomonas chlororaphis strain PA23 in its root colonization and control of Sclerotinia sclerotiorum. Biocontrol Science & Technology. 20(8):875-890.
Selin, C., Habibian, R., Poritsanos, N., Athukorala, S., Fernando, D., and de Kievit, T. 2010. Phenazines are not essential for Pseudomonas chlororaphis biocontrol of Sclerotinia sclerotiorum but do play a role in biofilm formation. FEMS Microbiology Ecology. 71:73-83.
Ramarathnam, R., Shen, B. Fernando, W.G.D., Chen, Y., Gao, X. and de Kievit, T. 2007. PCR-based detection and biochemical characterization of fengycin, and bacillomycin D, producing Bacillus sp. involved in the biocontrol of fungal pathogens of canola and wheat. Canadian Journal of Microbiology. 53:901-911.
Poritsanos, N., Selin, C., Fernando, W.G.D., Nakkeeran, S. and de Kievit, T.R.. 2006. A GacS deficiency does not affect Pseudomonas chlororaphis PA23 fitness when growing on canola, in aged batch culture or as a biofilm. Canadian Journal of Microbiology. 52:1177-1182.
Zhang, Y., Fernando, W.G.D., de Kievit, T., Berry, C., Daayf, F., and Paulitz, T.C. 2006. Detection of antibiotic-related genes from bacterial biocontrol agents using polymerase chain reaction. Canadian Journal of Microbiology 52:476-481.
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