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bacteria:t3e:xopo [2020/07/01 10:58] jakubpecenka |
bacteria:t3e:xopo [2020/07/09 11:08] rkoebnik [References] |
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Author: Harrold van den Burg\\ | Author: Harrold van den Burg\\ | ||
- | Internal reviewer: Jakub Pecenka\\ | + | Internal reviewer: |
Expert reviewer: FIXME | Expert reviewer: FIXME | ||
Class: XopO\\ | Class: XopO\\ | ||
Family: XopO\\ | Family: XopO\\ | ||
- | Prototype: XopO (// | + | Prototype: XopO (// |
RefSeq ID: [[https:// | RefSeq ID: [[https:// | ||
3D structure: Unknown | 3D structure: Unknown | ||
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=== How discovered? === | === How discovered? === | ||
- | XopO was discovered by a random transponson insertion (Tn5) screen using a AvrBs2< | + | XopO was identified in a genetic |
=== (Experimental) evidence for being a T3E === | === (Experimental) evidence for being a T3E === | ||
- | XopO fused to the Cya reporter | + | Type III-dependent secretion |
=== Regulation === | === Regulation === | ||
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=== Phenotypes === | === Phenotypes === | ||
- | XopO from Xcv 85-10 inhibits cell death in //N. benthamiana// | + | * Roden et al. did not find significant growth defects of a // |
+ | * XopO from //Xcv// | ||
+ | * XopO suppresses //X. euvesicatoria-// | ||
+ | * XopO failed to inhibit expression of the reporter gene // | ||
+ | * Based on whole genome sequences of //X. euvesicatoria// | ||
=== Localization === | === Localization === | ||
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XopO was shown to interact with tomato 14-3-3- proteins (TFT) (Dubrow //et al//., 2018). | XopO was shown to interact with tomato 14-3-3- proteins (TFT) (Dubrow //et al//., 2018). | ||
+ | |||
===== Conservation ===== | ===== Conservation ===== | ||
=== In xanthomonads === | === In xanthomonads === | ||
- | Yes, in some //Xanthomonads// | + | Yes, in some xanthomonads (//e.g.//, //X. euvesicatoria//, |
=== In other plant pathogens/ | === In other plant pathogens/ | ||
- | Yes (HopK1 from //Pseudomonas syringae// pv. //tomato// HopPtoK, HolPtoAB); N-terminal domain of AvrRps4 from // | + | Yes, //e.g.// // |
===== References ===== | ===== References ===== | ||
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Hajri A, Brin C, Zhao S, David P, Feng JX, Koebnik R, Szurek B, Verdier V, Boureau T, Poussier S (2012). Multilocus sequence analysis and type III effector repertoire mining provide new insights into the evolutionary history and virulence of // | Hajri A, Brin C, Zhao S, David P, Feng JX, Koebnik R, Szurek B, Verdier V, Boureau T, Poussier S (2012). Multilocus sequence analysis and type III effector repertoire mining provide new insights into the evolutionary history and virulence of // | ||
- | Koebnik R, Kruger | + | Koebnik R, Krüger |
+ | |||
+ | Lang JM, Pérez-Quintero AL, Koebnik R, DuCharme E, Sarra S, Doucoure H, Keita I, Ziegle J, Jacobs JM, Oliva R, Koita O, Szurek B, Verdier V, Leach JE (2019). A pathovar of // | ||
+ | |||
+ | Li G, Froehlich JE, Elowsky C, Msanne J, Ostosh AC, Zhang C, Awada T, Alfano JR, (2014). Distinct // | ||
Popov G, Fraiture M, Brunner F, Sessa G (2016). Multiple // | Popov G, Fraiture M, Brunner F, Sessa G (2016). Multiple // | ||
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 // | ||
+ | |||
+ | Sohn KH, Zhang Y, Jones JD (2009). The // | ||
Teper D, Sunitha S, Martin GB, Sessa G (2015). Five // | Teper D, Sunitha S, Martin GB, Sessa G (2015). Five // | ||