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bacteria:t3e:xopac [2020/08/11 14:59] rkoebnik |
bacteria:t3e:xopac [2020/11/29 07:29] jmzhouigdb [Biological function] |
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Author: [[https:// | Author: [[https:// | ||
Internal reviewer: [[https:// | Internal reviewer: [[https:// | ||
- | Expert reviewer: | + | Expert reviewer: |
Class: XopAC\\ | Class: XopAC\\ | ||
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3D structure: Unknown | 3D structure: Unknown | ||
+ | ===== Conservation ===== | ||
+ | |||
+ | === In xanthomonads === | ||
+ | |||
+ | xopAC is present in many //Xcc// strains as well as several // | ||
+ | === In other plant pathogens/ | ||
+ | |||
+ | Yes, //Ralstonia solanacearum// | ||
===== Biological function ===== | ===== Biological function ===== | ||
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* // | * // | ||
* XopAC inhibits BIK1 kinase activity and blocks flg22-induced PTI responses (Feng //et al//., 2012). | * XopAC inhibits BIK1 kinase activity and blocks flg22-induced PTI responses (Feng //et al//., 2012). | ||
- | * XopAC was found to be associated with variations in disease symptoms when testing a set of 45 //Xcc// strains on two natural accessions of // | + | * XopAC was found to be associated with variations in disease symptoms when testing a set of 45 // |
* Mutagenesis of type III effectors in // | * Mutagenesis of type III effectors in // | ||
* When heterologously expressed in virulent //Ralstonia solanacearum// | * When heterologously expressed in virulent //Ralstonia solanacearum// | ||
* Transgenic expression of // | * Transgenic expression of // | ||
+ | * AvrAC recognition requires the RKS1 pseudokinase of the ZRK family and the NLR protein ZAR1, which also recognizes the // | ||
=== Localization === | === Localization === | ||
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=== Enzymatic function === | === Enzymatic function === | ||
- | XopAC presents an uridylyl transferase activity, which depends on residue H< | + | XopAC presents an uridylyl transferase activity, which depends on residue H< |
=== Interaction partners === | === Interaction partners === | ||
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===== References ===== | ===== References ===== | ||
- | Cerutti A, Jauneau A, Auriac M-C, Lauber E, Martinez Y, Chiarenza S, Leonhardt N, Berthomé R, Noël LD (2017). Immunity at cauliflower hydathodes controls infection by // | + | Cerutti A, Jauneau A, Auriac M-C, Lauber E, Martinez Y, Chiarenza S, Leonhardt N, Berthomé R, Noël LD (2017). Immunity at cauliflower hydathodes controls infection by // |
+ | |||
+ | Feng F, Yang F, Rong W, Wu X, Zhang J, Chen S, He C, Zhou JM (2012). A // | ||
+ | |||
+ | Guy E, Genissel A, Hajri A, Chabannes M, David P, Carrère S, Lautier M, Roux B, Boureau T, Arlat M, Poussier S, Noël LD (2013a). Natural genetic variation of // | ||
- | Feng F, Yang F, Rong W, Wu X, Zhang J, Chen S, He C, Zhou JM (2012). A // | + | Guy E, Lautier M, Chabannes M, Roux B, Lauber E, Arlat M, Noël LD (2013b). // |
- | Guy E, Genissel A, Hajri A, Chabannes M, David P, Carrère S, Lautier M, Roux B, Boureau T, Arlat M, Poussier S, Noël LD (2013a). Natural genetic variation | + | Laflamme B, Dillon MM, Martel |
- | Guy E, Lautier M, Chabannes M, Roux B, Lauber E, Arlat M, Noël LD (2013b). //xopAC//-triggered immunity against | + | Schultink A, Qi T, Bally J, Staskawicz |
- | Tan X, Qiu H, Li F, Cheng D, Zheng X, Wang B, Huang M, Li W, Li Y, Sang K, Song B, Du J, Chen H, Xie C (2019). Complete genome sequence of sequevar 14M //Ralstonia solanacearum// | + | Tan X, Qiu H, Li F, Cheng D, Zheng X, Wang B, Huang M, Li W, Li Y, Sang K, Song B, Du J, Chen H, Xie C (2019). Complete genome sequence of sequevar 14M //Ralstonia solanacearum// |
Wang G, Roux B, Feng F, Guy E, Li L, Li N, Zhang X, Lautier M, Jardinaud MF, Chabannes M, Arlat M, Chen S, He C, Noël LD, J.M. Zhou JM (2015). The decoy substrate of a pathogen effector and a pseudokinase specify pathogen-induced modified-self recognition and immunity in plants. Cell Host Microbe 18: 285-295. DOI: [[https:// | Wang G, Roux B, Feng F, Guy E, Li L, Li N, Zhang X, Lautier M, Jardinaud MF, Chabannes M, Arlat M, Chen S, He C, Noël LD, J.M. Zhou JM (2015). The decoy substrate of a pathogen effector and a pseudokinase specify pathogen-induced modified-self recognition and immunity in plants. Cell Host Microbe 18: 285-295. DOI: [[https:// | ||
- | Xu RQ, Blanvillain S, Feng JX, Jiang BL, Li XZ, Wei HY, Kroj T, Lauber E, Roby D, Chen B, He YQ, Lu GT, Tang DJ, Vasse J, Arlat M, Tang JL (2008). AvrAC< | + | Xu RQ, Blanvillain S, Feng JX, Jiang BL, Li XZ, Wei HY, Kroj T, Lauber E, Roby D, Chen B, He YQ, Lu GT, Tang DJ, Vasse J, Arlat M, Tang JL (2008). AvrAC< |