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bacteria:t3e:xope2 [2020/06/13 08:29] bosis |
bacteria:t3e:xope2 [2020/07/08 18:51] rkoebnik [XopE2] |
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====== XopE2 ====== | ====== XopE2 ====== | ||
- | Author: Jaime Cubero\\ | + | Author: |
- | Internal reviewer: | + | Internal reviewer: |
Expert reviewer: FIXME | Expert reviewer: FIXME | ||
- | Class: | + | Class: |
- | Family: | + | Family: |
- | Prototype: XCV2280 (// | + | Prototype: XCV2280 (// |
RefSeq ID: [[https:// | RefSeq ID: [[https:// | ||
- | 3D structure: Myristoylation motif at their extreme N-terminus. | + | Synonym: AvrXacE3 (// |
+ | 3D structure: Myristoylation motif at the extreme N terminus | ||
===== Biological function ===== | ===== Biological function ===== | ||
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=== Phenotypes === | === Phenotypes === | ||
- | XopE2 proteins were shown to be capable of suppressing the hypersensitive response (HR) of // | + | XopE2 shows an avirulence activity in //Solanum pseudocapsicum// |
=== Localization === | === Localization === | ||
- | XopE2 fused to gfp in a binary vector under control of the Cauliflower mosaic virus 35S promoter expressed in //Nicotiana benthamiana// | + | XopE2 fused to gfp in a binary vector under control of the Cauliflower mosaic virus 35S promoter expressed in //Nicotiana benthamiana// |
=== Enzymatic function === | === Enzymatic function === | ||
- | XopE2 belongs to the HopX effector family, which are part of the transglutaminase superfamily (Nimchuck | + | XopE2 belongs to the HopX effector family, which are part of the transglutaminase superfamily (Nimchuk |
=== Interaction partners === | === Interaction partners === | ||
- | XopE2 was found to physically interact with tomato 14-3-3s (TFT). XopE2 is phosphorylated at multiple residues in planta for maximal binding to TFT10 (Assis //et al// | + | XopE2 was found to physically interact with tomato 14-3-3 (TFT) proteins. XopE2 is phosphorylated at multiple residues |
===== Conservation ===== | ===== Conservation ===== | ||
- | === In xanthomonads | + | **In xanthomonads** |
Yes (//e.g.//, //X. citri, X. campestris, X. phaseoli, X. alfalfa, X. euvesicatoria// | Yes (//e.g.//, //X. citri, X. campestris, X. phaseoli, X. alfalfa, X. euvesicatoria// | ||
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===== References ===== | ===== References ===== | ||
- | Assis RAB, Polloni LC, Patané JSL, Thakur S, Felestrino ÉB, Diaz-Caballero J, Digiampietri LA, Goulart LR, Almeida NF, Nascimento R, Dandekar AM, Zaini PA, Setubal JC, Guttman DS, Moreira LM (2017). Identification and analysis of seven effector protein families with different adaptive and evolutionary histories in plant-associated members of the Xanthomonadaceae. Sci. Rep. 7:16133. DOI: [[https:// | + | Assis RAB, Polloni LC, Patané JSL, Thakur S, Felestrino ÉB, Diaz-Caballero J, Digiampietri LA, Goulart LR, Almeida NF, Nascimento R, Dandekar AM, Zaini PA, Setubal JC, Guttman DS, Moreira LM (2017). Identification and analysis of seven effector protein families with different adaptive and evolutionary histories in plant-associated members of the //Xanthomonadaceae//. Sci. Rep. 7: 16133. DOI: [[https:// |
- | da Silva AC, Ferro JA, Reinach FC, Farah CS, Furlan LR, Quaggio RB, Monteiro-Vitorello CB, Van Sluys MA, Almeida NF, Alves LM, do Amaral AM, Bertolini MC, Camargo LE, Camarotte | + | Bosis E, Salomon D, Sessa G (2011). A simple yeast-based strategy to identify |
- | Dubrow Z, Sunitha S, Kim JG, Aakre CD, Girija | + | da Silva AC, Ferro JA, Reinach FC, Farah CS, Furlan LR, Quaggio RB, Monteiro-Vitorello CB, Van Sluys MA, Almeida NF, Alves LM, do Amaral |
- | Lin RH, Peng CW, Lin YC, Peng HL, Huang HC (2011). The xopE2 effector protein | + | Dubrow Z, Sunitha S, Kim JG, Aakre CD, Girija AM, Sobol G, Teper D, Chen YC, Ozbaki-Yagan N, Vance H, Sessa G, Mudgett MB (2018). Tomato 14-3-3 proteins are required for //Xv3// disease resistance and interact with a subset |
- | Nimchuk ZL, Fisher EJ, Desvaux D, Chang JH, Dangl JL (2007). The HopX (AvrPphE) family | + | Lin RH, Peng CW, Lin YC, Peng HL, Huang HC (2011). The XopE2 effector protein |
- | Popov G, Fraiture M, Brunner F, Sessa G (2016). Multiple | + | Nimchuk ZL, Fisher EJ, Desvaux D, Chang JH, Dangl JL (2007). The HopX (AvrPphE) family of //Pseudomonas syringae// type III effectors |
- | Salomon D, Dar D, Sreeramulu S, Sessa G (2011). Expression of // | + | Popov G, Fraiture M, Brunner F, Sessa G (2016). Multiple |
- | Bosis E, Salomon D, Sessa G. A simple | + | Salomon D, Dar D, Sreeramulu S, Sessa G (2011). Expression of // |
- | Thieme F, Koebnik R, Bekel T, Berger C, Boch J, Büttner D, Caldana C, Gaigalat L, Goesmann A, Kay S, Kirchner O, Lanz C, Linke B, McHardy AC, Meyer F, Mittenhuber G, Nies DH, Niesbach-Klösgen | + | Sonnewald S, Priller JP, Schuster |
- | Thieme F, Szczesny R, Urban A, Kirchner O, Hause G, Bonas U (2007). New type III effectors from // | + | Thieme F, Koebnik R, Bekel T, Berger C, Boch J, Büttner D, Caldana C, Gaigalat L, Goesmann A, Kay S, Kirchner O, Lanz C, Linke B, McHardy AC, Meyer F, Mittenhuber G, Nies DH, Niesbach-Klösgen U, Patschkowski T, Rückert C, Rupp O, Schneiker S, Schuster SC, Vorhölter F, Weber E, Pühler A, Bonas U, Bartels D, Kaiser O (2005). Insights into genome plasticity and pathogenicity of the plant pathogenic bacterium // |
+ | |||
+ | Thieme F, Szczesny R, Urban A, Kirchner O, Hause G, Bonas U (2007). New type III effectors from // | ||
+ | |||
+ | ===== Further reading ===== | ||
+ | |||
+ | 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 // | ||