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bacteria:t3e:avrbs2 [2020/07/13 12:22] rkoebnik [AvrBs2] |
bacteria:t3e:avrbs2 [2020/07/13 14:00] rkoebnik |
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=== Phenotypes === | === Phenotypes === | ||
- | * AvrBs2 has been demonstrated to be required for full virulence | + | * The loss of a functional |
+ | * AvrBs2 has been demonstrated to be required for full virulence of //Xcv//, //X. oryzae// | ||
* Recognition of // | * Recognition of // | ||
* It was shown in pepper and tomato lines without //Bs2 //that mutations of catalytic residues in the glycerolphosphodiesterase did not interfere with the ability of the plant to recognize AvrBs2 through the cognate R gene // | * It was shown in pepper and tomato lines without //Bs2 //that mutations of catalytic residues in the glycerolphosphodiesterase did not interfere with the ability of the plant to recognize AvrBs2 through the cognate R gene // | ||
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Yes (//e.g.//, //X//. // | Yes (//e.g.//, //X//. // | ||
+ | |||
+ | Field strains of //X. euvesicatoria// | ||
=== In other plant pathogens/ | === In other plant pathogens/ | ||
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Coplin DL (1989). Plasmids and their role in the evolution of plant pathogenic bacteria. Ann. Rev. Phytopathol. 27: 187-212. DOI: [[https:// | Coplin DL (1989). Plasmids and their role in the evolution of plant pathogenic bacteria. Ann. Rev. Phytopathol. 27: 187-212. DOI: [[https:// | ||
+ | |||
+ | Gassmann W, Dahlbeck D, Chesnokova O, Minsavage GV, Jones JB, Staskawicz BJ (2000). Molecular evolution of virulence in natural field strains of // | ||
Ghosh P (2004). Process of protein transport by the type III secretion system. Microbiol. Mol. Biol. Rev. 68: 771-795. DOI: [[https:// | Ghosh P (2004). Process of protein transport by the type III secretion system. Microbiol. Mol. Biol. Rev. 68: 771-795. DOI: [[https:// | ||
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Habyarimana F, Ahmer BM (2013). More evidence for secretion signals within the mRNA of type 3 secreted effectors. J. Bacteriol. 195: 2117-2118. DOI: [[https:// | Habyarimana F, Ahmer BM (2013). More evidence for secretion signals within the mRNA of type 3 secreted effectors. J. Bacteriol. 195: 2117-2118. DOI: [[https:// | ||
- | Ignatov AN, Monakhos GF, Dzhalilov FS, Pozmogova GV (2002). Avirulence gene from // | + | Ignatov AN, Monakhos GF, Dzhalilov FS, Pozmogova GV (2002). Avirulence gene from // |
Kearney B, Staskawicz BJ (1990). Widespread distribution and fitness contribution of // | Kearney B, Staskawicz BJ (1990). Widespread distribution and fitness contribution of // | ||
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Roden JA, Belt B, Ross JB, Tachibana T, Vargas J, Mudgett MB (2004). A genetic screen to isolate type III effectors translocated into pepper cells during // | Roden JA, Belt B, Ross JB, Tachibana T, Vargas J, Mudgett MB (2004). A genetic screen to isolate type III effectors translocated into pepper cells during // | ||
- | Timilsina S, Abrahamian P, Potnis N, Minsavage GV, White FF, Staskawicz BJ, Jones JB, Vallad GE, Goss EM (2016). Analysis of sequenced genomes of Xanthomonas perforans identifies candidate targets for resistance breeding | + | Swords KM, Dahlbeck D, Kearney B, Roy M, Staskawicz BJ (1996). Spontaneous and induced mutations |
Wei C, Ding T, Chang C, Yu C, Li X, Liu Q (2019). Global regulator PhoP is necessary for motility, biofilm formation, exoenzyme production and virulence of // | Wei C, Ding T, Chang C, Yu C, Li X, Liu Q (2019). Global regulator PhoP is necessary for motility, biofilm formation, exoenzyme production and virulence of // | ||
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===== Further reading ===== | ===== Further reading ===== | ||
- | Gassmann W, Dahlbeck D, Chesnokova O, Minsavage GV, Jones JB, Staskawicz BJ (2000). Molecular evolution | + | Timilsina S, Abrahamian P, Potnis N, Minsavage GV, White FF, Staskawicz BJ, Jones JB, Vallad GE, Goss EM (2016). Analysis |
- | + | ||
- | Swords KM, Dahlbeck D, Kearney B, Roy M, Staskawicz BJ (1996). Spontaneous and induced mutations | + | |