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bacteria:t3e:xopah [2020/07/09 12:55] rkoebnik |
bacteria:t3e:xopah [2022/01/05 18:30] (current) rkoebnik [References] |
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Prototype: AvrXccC (// | Prototype: AvrXccC (// | ||
RefSeq ID: [[https:// | RefSeq ID: [[https:// | ||
- | Synonym: AvrXccC (// | + | Synonym: AvrXccC (// |
3D structure: Unknown | 3D structure: Unknown | ||
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=== (Experimental) evidence for being a T3E === | === (Experimental) evidence for being a T3E === | ||
- | Secreted XopAH (AvrXccC) proteins were detected in culture fluid from //Xcc// 8004 and //hrcV// mutant complemented strains but not from the //hrcV// mutant (Wang //et al//., 2007). Insertion and deletion mutants affecting the locus (Xcc2109) in the type strain (Xcc 528) resulted in loss of virulence on the host Florida Broad Leaf Mustard (Castenada | + | Secreted XopAH (AvrXccC) proteins were detected in culture fluid from //Xcc// 8004 and //hrcV// mutant complemented strains but not from the //hrcV// mutant (Wang //et al//., 2007). Insertion and deletion mutants affecting the locus (Xcc2109) in the type strain (Xcc 528) resulted in loss of virulence on the host Florida Broad Leaf Mustard (Castañeda |
=== Regulation === | === Regulation === | ||
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=== Phenotypes === | === Phenotypes === | ||
- | This effector is required for full virulence in the susceptible host cabbage (//Brassica oleracea//) (Wang //et al//., 2007) and results in avirulence in the resistant host mustard (//Brassica napiformis// | + | This effector is required for full virulence in the susceptible host cabbage (//Brassica oleracea//) (Wang //et al//., 2007) and results in avirulence in the resistant host mustard (//Brassica napiformis// |
In the interaction // | In the interaction // | ||
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===== References ===== | ===== References ===== | ||
- | Castenada | + | Castañeda |
Cesbron S, Briand M, Essakhi S, Gironde S, Boureau T, Manceau C, Fischer-Le Saux M, Jacques MA (2015). Comparative genomics of pathogenic and nonpathogenic strains of // | Cesbron S, Briand M, Essakhi S, Gironde S, Boureau T, Manceau C, Fischer-Le Saux M, Jacques MA (2015). Comparative genomics of pathogenic and nonpathogenic strains of // | ||
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Desveaux D, Singer AU, Wu AJ, McNulty BC, Musselwhite L, Nimchuk Z, Sondek J, Dangl JL (2007). Type III effector activation via nucleotide binding, phosphorylation, | Desveaux D, Singer AU, Wu AJ, McNulty BC, Musselwhite L, Nimchuk Z, Sondek J, Dangl JL (2007). Type III effector activation via nucleotide binding, phosphorylation, | ||
- | He YQ, Zhang L, Jiang BL, Zhang ZC, Xu RQ, Tang DJ, Qin J, Jiang W, Zhang X, Liao J, Cao JR, Zhang SS, Wei ML, Liang XX, Lu GT, Feng JX, Chen B, Cheng J, Tang JL (2007). Comparative and functional genomics reveals genetic diversity and determinants of host specificity among reference strains and a large collection of Chinese isolates of the phytopathogen // | + | He YQ, Zhang L, Jiang BL, Zhang ZC, Xu RQ, Tang DJ, Qin J, Jiang W, Zhang X, Liao J, Cao JR, Zhang SS, Wei ML, Liang XX, Lu GT, Feng JX, Chen B, Cheng J, Tang JL (2007). Comparative and functional genomics reveals genetic diversity and determinants of host specificity among reference strains and a large collection of Chinese isolates of the phytopathogen // |
Ho YP, Tan CM, Li MY, Lin H, Deng WL, Yang JY (2013). The AvrB_AvrC Domain of AvrXccC of // | Ho YP, Tan CM, Li MY, Lin H, Deng WL, Yang JY (2013). The AvrB_AvrC Domain of AvrXccC of // |