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In silico analysis of virulence associated genes in genomes of Escherichia coli strains causing colibacillosis in poultry

method for the detection and enumeration of presumptive Escherichia coli – Most probable number technique. 2006, 1–18. 10. Jakobsen L., Garneau P., Kurbasic A., Bruant G., Stegger M., Harel J., Jensen K.S., Brousseau R., Hammerum A.M., Frimodt-Møller N.: Microarray-based detection of extended virulence and antimicrobial resistance gene profiles in phylogroup B2 Escherichia coli of human, meat, and animal origin. J Med Microbiol 2011, 60, 1502–1511. 11. Johnson T.J., Kariyawasam S., Wannemuehler Y., Mangiamele P., Johnson S.J., Doetkott C., Nolan L

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Impact of the Priobiotic on the Presence of Selected Virulence Genes and Drug-Resistance Among Campylobacter Coli Isolated from Piglets

References 1. Andrzejewska M., Klawe J.J., Szczepańska B., Śpica D.: Occurrence of virulence genes among Campylobacter jejuni and Campylobacter coli isolates from domestic animals and children. Polish J Vet Sci 2011, 2 , 207-211. 2. Bang D.D., Scheutz F., Ahrens P., Pedersen K., Blom J., Madsen M.: Prevalence of cytolethal distending toxin (cdt) genes and CDT production in Campylobacter spp. isolated from Danish broilers. J Med Microbiol 2001, 50 , 1087-1094. 3. Carvalho A.C., Ruiz-Palacios G

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Occurrence of Genes Encoding Virulence Factors in Bordetella Bronchiseptica Strains Isolated from Infected and Healthy Pigs

References 1. Bemis D.A., Fenwick B.: Bordetella . In: Pathogenesis of bacterial infections in animals ., edited by Gyles C.L., Prescott J.F., Songer J.G., Thoen C.O., Blackwell Publishing, USA, 2010, pp. 259-272. 2. Boschwitz J.S., van der Heide H.G.J., Mooi F.R., Relman D.A.: Bordetella bronchiseptica expresses the fimbrial structural subunit gene fimA. J Clin Microbiol 1997, 179 , 7882-7885. 3. Brickman T.J., Anderson M.T., Armstrong S.K.: Bordetella iron transport and virulence. Biometals

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The Presence of Iron and Iucc Virulence-Associated Genes in Romanian Apec Isolates

References Awwad, E., K. Adwan, M. Farraj, T. Essawi, I. Rumi, A. Manasra, S. Baraitareanu, M. R. Gurau and D. Danes. 2015. Cell Envelope Virulence Genes among Field Strains of Brucella melitensis Isolated in West Bank Part of Palestine. Agriculture and Agricultural Science Procedia. 6: 281-286. Akram N., H. Mojtaba, A. Azam, A. Masoud and H. Najmeh 2017. ʺDistribution of pathogenicity island markers and virulence factors in new phylogenetic groups of uropathogenic Escherichia coli isolatesʺ. Folia Microbiologica, 63

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Occurrence of the nan1 gene and adhesion of Pseudomonas aeruginosa isolates to human buccal epithelial cells

genes involved in alginate expression. J. Clin. Invest. 89: 1866-1874. De Bentzman S., Roger P., Dupuit F., Bajolet-Laudinat O., Fuchey C., Plotkowski M. C., Puchelle E. 1996. Asialo GM1 is a receptor for Pseudomonas aeruginosa adherence to regenerating respiratory epithelial cells. Infect. Immun. 64: 1582-1588. Endimiani A., Pini B., Baj A., Luzzaro F., Toniolo A. 2006. Bloodstream infections due to Pseudomonasaeruginosa : clinical outcome associated with pathogenesis-related genes. In: XVI European Symposium of Clinical

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Virulence factors and antibiotic resistance of avian pathogenic Escherichia coli in eastern China

(also facilitating attachment of APEC to extraintestinal tracts and assisting penetration of bacteria into the tissues), toxins (protecting APEC from lysosomes), siderophores (chelating iron), and protectins (inhibiting the classical pathway of complement activity), which help the bacterial infection to become established and augment the bacterium’s resistance to the host’s immune defences. Epidemic data show that human extraintestinal pathogenic E. coli (ExPEC) strains and APEC often carry similar virulence genes, suggesting the zoonotic importance of APEC strains

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Varying abundance and dispersal of the two-spotted spider mite (Tetranychus urticae Koch, 1836, Acari: Prostigmata: Tetranychidae) on Mi-tomato plants differing in allelic combination

behavior of two potato aphid clones with differing levels of virulence. Entomol. Exp. Appl. 135: 295-307. Rossi M., Goggin F. L., Milligan S. B., Kaloshian I., Ullman D. E., Williamson V. M. 1998. The nematode resistance gene Mi of tomato confers resistance against the potato aphid. Proc. Natl. Acad. Sci. USA 95: 9750-9754. Simmons A. T., Gurr G. M. 2005. Trichomes of Lycopersicon species and their hybrids: effects on pests and natural enemies. Agric. For. Entomol. 7: 265-276. Smith C. M

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Siderophore production by Gram-negative rods isolated from human polymicrobial infections

. Scand. 2: 450-454. Dean C. R., Poole K. 1993. Cloning and characterization of the ferric enterobactin receptor gene ( pfeA ) of Pseudomonas aeruginosa . J. Bacteriol. 175: 317-324. Dorsey C. W., Tomaras A. P., Connerly P. L., Tolmasky M. E., Crosa J. H., Actis L. A. 2004. The siderophore-mediated iron acquisition systems of Acinetobacter baumannii ATCC 19606 and Vibrio anguillarum 775 are structurally and functionally related. Microbiology 150: 3657-3667. Faraldo-Gómez J. D., Sansom M

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The effect of cold shock on the immune response of the greater wax moth Galleria mellonella after infection with entomopathogenic bacteria Bacillus thuringiensis / Wpływ szoku zimna na odpowiedź immunologiczną barciaka większego Galleria mellonella po zakażeniu bakterią entomopatogenną Bacillus thuringiensis

References 1. Agaisse H., Gominet M., Økstad O. A., Kolstø A. B., and Lereclus D. 1999. PlcR is a pleiotropic regulator of extracellular virulence factor gene expression in Bacillus thuringiensis. Mol. Microbiol. 32: 1043-1053. 2. Bravo A., Likitvivatanavong S., Gill S.S., Soberón M. 2011. Bacillus thuringiensis: A story of a successful bioinsecticide. Insect. Biochem. Mol. Biol. 41: 423-431. 3. Brown S.E., Howard A., Kasprzak A.B., Gordon K.B., East P.D. 2009. A peptidomics study reveals the impressive

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A search for 4 specific markers linked to Pm3 alleles for resistance to powdery mildew (Blumeria graminis) in rye (Secale cereale)

REFERENCES A hmadi H., E smaeili A., G oodarzi D. 2011. Expression of resistance against powdery mildew ( Blumeria graminis f. sp. tritici ) in bread wheat ( Triticum aestivum ). Indian J Agri Sci. 81:700–703. B ojnanska K. 2009. Resistance and genes of resistance against powdery mildew of selected wheat genetic resources. Agriculture (Polnohospodarstvo) 55: 42–48. B onnett D. G., R ebetzke G. J., S pielmeyer W. 2005. Strategies for efficient implantation of molecular markers in wheat breeding. Mol Breed. 15: 75-85. B runner S

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