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plant:rice [2020/09/25 10:49] rkoebnik [Resistance gene: //Xa21//] |
plant:rice [2022/12/19 16:50] rkoebnik [Resistance gene: //Xa47//] |
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=== Status (identified, | === Status (identified, | ||
- | Identified (Sidhu //et al.//, 1978). Mapped on chromosome 6 (Lee & Khush, 2000; Porter //et al.//, 2003). | + | Identified (Sidhu //et al.//, 1978). Mapped on chromosome 6 (Lee & Khush, 2000; Porter //et al.//, 2003). Cloned & sequenced (Chen //et al.//, 2021; Luo //et al.//, 2021). |
=== Molecular markers === | === Molecular markers === | ||
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=== Brief description === | === Brief description === | ||
- | //NA// | + | Cognate avirulence genes: |
---- | ---- | ||
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=== Molecular markers === | === Molecular markers === | ||
- | //NA// | + | Intragenic AFLP marker (Hutin |
=== Brief description === | === Brief description === | ||
Line 994: | Line 994: | ||
=== Source === | === Source === | ||
- | //NA// | + | //Oryza glaberrima// accession IRGC 102600B. |
=== Status (identified, | === Status (identified, | ||
Line 1027: | Line 1027: | ||
[[https:// | [[https:// | ||
+ | |||
+ | ---- | ||
+ | |||
+ | ==== Resistance gene: //Xa47// ==== | ||
+ | |||
+ | === Synonyms === | ||
+ | |||
+ | //NA// | ||
+ | === Source === | ||
+ | |||
+ | G252, a BC2F16 generation material of the Yuanjiang common wild rice infiltration line (Lu //et al.//, 2022). | ||
+ | === Status (identified, | ||
+ | |||
+ | Mapped on chromosome 11 (Lu //et al.//, 2022). Cloned and sequenced (Lu //et al.//, 2022). | ||
+ | === Molecular markers === | ||
+ | |||
+ | Hxjy-1F/R and Xa47-12F/R (Lu //et al.//, 2022). | ||
+ | === Brief description === | ||
+ | |||
+ | NB-LRR class protein (Lu //et al.//, 2022). | ||
---- | ---- | ||
Line 1034: | Line 1054: | ||
==== Resistance gene: //Rxo1// ==== | ==== Resistance gene: //Rxo1// ==== | ||
- | === Synonyms | + | Synonyms |
//Rba1//. | //Rba1//. | ||
Line 1054: | Line 1074: | ||
==== Resistance gene: //Xo1// ==== | ==== Resistance gene: //Xo1// ==== | ||
- | === Synonyms | + | Synonyms |
//NA// | //NA// | ||
Line 1070: | Line 1090: | ||
NB-LRR class protein with a zinc finger BED domain (Read //et al//., 2020). Cognate avirulence genes: TAL effector genes. | NB-LRR class protein with a zinc finger BED domain (Read //et al//., 2020). Cognate avirulence genes: TAL effector genes. | ||
+ | |||
+ | ---- | ||
+ | |||
+ | ==== Resistance gene: //Xo2// ==== | ||
+ | |||
+ | Synonyms | ||
+ | |||
+ | //NA// | ||
+ | === Source === | ||
+ | |||
+ | Cultivar BHADOIA 303 (X455) from Bangladesh. | ||
+ | |||
+ | === Status (identified, | ||
+ | |||
+ | Mapped on chromosome 2 (Chen //et al.//, 2022). | ||
+ | === Molecular markers === | ||
+ | |||
+ | //NA// | ||
+ | === Brief description === | ||
+ | |||
+ | Candidate gene: // | ||
---- | ---- | ||
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Cheema KK, Grewal NK, Vikal Y, Sharma R, Lore JS, Das A, Bhatia D, Mahajan R, Gupta V, Bharaj TS, Singh K (2008). A novel bacterial blight resistance gene from //Oryza nivara// mapped to 38 Kb region on chromosome 4L and transferred to //Oryza sativa// L. Genet. Res. 90: 397-407. DOI: [[https:// | Cheema KK, Grewal NK, Vikal Y, Sharma R, Lore JS, Das A, Bhatia D, Mahajan R, Gupta V, Bharaj TS, Singh K (2008). A novel bacterial blight resistance gene from //Oryza nivara// mapped to 38 Kb region on chromosome 4L and transferred to //Oryza sativa// L. Genet. Res. 90: 397-407. DOI: [[https:// | ||
- | Chen H, Wang S, Zhang Q (2002). New gene for bacterial blight | + | Chen S, Feng A, Wang C, Zhao J, Feng J, Chen B, Yang J, Wang W, Zhang M, Chen K, Chen W, Su J, Liu B, Zhu X (2022). Identification and fine-mapping of //Xo2//, a novel rice bacterial leaf streak resistance gene. Theor. Appl. Genet., in press. DOI: [[https:// |
+ | |||
+ | Chen X, Liu P, Mei L, He X, Chen L, Liu H, Shen S, Ji Z, Zheng X, Zhang Y, Gao Z, Zeng D, Qian Q, Ma B (2021). //Xa7//, a new executor //R// gene that confers durable and broad-spectrum | ||
Chen S, Wang C, Yang J, Chen B, Wang W, Su J, Feng A, Zeng L, Zhu X (2020). Identification of the novel bacterial blight resistance gene //Xa46 (t)// by mapping and expression analysis of the rice mutant H120. Sci. Rep. 10: 12642. DOI: [[https:// | Chen S, Wang C, Yang J, Chen B, Wang W, Su J, Feng A, Zeng L, Zhu X (2020). Identification of the novel bacterial blight resistance gene //Xa46 (t)// by mapping and expression analysis of the rice mutant H120. Sci. Rep. 10: 12642. DOI: [[https:// | ||
+ | |||
+ | Chen H, Wang S, Zhang Q (2002). New gene for bacterial blight resistance in rice located on chromosome 12 identified from Minghui 63, an elite restorer line. Phytopathology 92: 750-754. DOI: [[https:// | ||
Chu Z, Yuan M, Yao J, Ge X, Yuan B, Xu C, Li X, Fu B, Li Z, Bennetzen JL, Zhang Q, Wang S (2006). Promoter mutations of an essential gene for pollen development result in disease resistance in rice. Genes Dev. 20: 1250-1255. DOI: [[https:// | Chu Z, Yuan M, Yao J, Ge X, Yuan B, Xu C, Li X, Fu B, Li Z, Bennetzen JL, Zhang Q, Wang S (2006). Promoter mutations of an essential gene for pollen development result in disease resistance in rice. Genes Dev. 20: 1250-1255. DOI: [[https:// | ||
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He Q, Li D, Zhu Y, Tan M, Zhang D, Lin X (2006). Fine mapping of //Xa2//, a bacterial blight resistance gene in rice. Mol. Breed. 17: 1-6. DOI: [[https:// | He Q, Li D, Zhu Y, Tan M, Zhang D, Lin X (2006). Fine mapping of //Xa2//, a bacterial blight resistance gene in rice. Mol. Breed. 17: 1-6. DOI: [[https:// | ||
+ | |||
+ | Hopkins CM, White FF, Choi SH, Guo A, Leach JE (1992). Identification of a family of avirulence genes from // | ||
Hu K, Cao J, Zhang J, Xia F, Ke Y, Zhang H, Xie W, Liu H, Cui Y, Cao Y, Sun X, Xiao J, Li X, Zhang Q, Wang S (2017). Improvement of multiple agronomic traits by a disease resistance gene via cell wall reinforcement. Nat. Plants 3: 17009. DOI: [[https:// | Hu K, Cao J, Zhang J, Xia F, Ke Y, Zhang H, Xie W, Liu H, Cui Y, Cao Y, Sun X, Xiao J, Li X, Zhang Q, Wang S (2017). Improvement of multiple agronomic traits by a disease resistance gene via cell wall reinforcement. Nat. Plants 3: 17009. DOI: [[https:// | ||
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Liu Q, Yuan M, Zhou Y, Li X, Xiao J, Wang S (2011). A paralog of the MtN3/saliva family recessively confers race-specific resistance to // | Liu Q, Yuan M, Zhou Y, Li X, Xiao J, Wang S (2011). A paralog of the MtN3/saliva family recessively confers race-specific resistance to // | ||
+ | |||
+ | Luo D, Huguet-Tapia JC, Taylor Raborn R, White FF, Brendel VP, Yang B (2021). The //Xa7// resistance gene guards the susceptibility gene //SWEET14// of rice against exploitation by bacterial blight pathogen. Nat. Commun., in press. DOI: [[https:// | ||
Mew TW (1987). Current status and future prospects of research on bacterial blight of rice. Annu. Rev. Phytopathol. 25: 359-382. DOI: [[https:// | Mew TW (1987). Current status and future prospects of research on bacterial blight of rice. Annu. Rev. Phytopathol. 25: 359-382. DOI: [[https:// | ||
Miao LL, Wang CL, Zheng C, Che JY, Gao Y, Wen YC, Li GQ, Zhao K (2010). Molecular mapping of a new gene for resistance to rice bacterial blight. Sci. Agric. Sin. 43: 3051-3058. | Miao LL, Wang CL, Zheng C, Che JY, Gao Y, Wen YC, Li GQ, Zhao K (2010). Molecular mapping of a new gene for resistance to rice bacterial blight. Sci. Agric. Sin. 43: 3051-3058. | ||
+ | |||
+ | Nanayakkara D, Edirisingha I, Dissanayake L, Weerasinghe D, Suriyagoda L, Herath V, Perera C, Jayatilake D (2020). A novel intragenic marker targeting the ectodomain of bacterial blight-resistance gene //Xa21// for marker-assisted selection in rice. J. Crop Improvem., in press. DOI: [[https:// | ||
Nakai H, Nakamura S, Kuwahara S, Saito M (1988). Genetic studies of an induced rice mutant resistant to multiple races of bacterial leaf blight. Rice Genet. Newsl. 5: 101. Full text @ [[https:// | Nakai H, Nakamura S, Kuwahara S, Saito M (1988). Genetic studies of an induced rice mutant resistant to multiple races of bacterial leaf blight. Rice Genet. Newsl. 5: 101. Full text @ [[https:// | ||
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Read AC, Rinaldi FC, Hutin M, He YQ, Triplett LR, Bogdanove AJ (2016). Suppression of // | Read AC, Rinaldi FC, Hutin M, He YQ, Triplett LR, Bogdanove AJ (2016). Suppression of // | ||
- | Read AC, Hutin M, Moscou MJ, Rinaldi FC, Bogdanove AJ (2020). Cloning of the rice //Xo1 // | + | Read AC, Hutin M, Moscou MJ, Rinaldi FC, Bogdanove AJ (2020). Cloning of the rice //Xo1 // |
+ | <font inherit/ | ||
Ronald PC, Albano B, Tabien R, Abenes L, Wu KS, McCouch S, Tanksley SD (1992). Genetic and physical analysis of the rice bacterial blight disease resistance locus, //Xa21//. Mol. Gen. Genet. 236: 113-120. DOI: [[https:// | Ronald PC, Albano B, Tabien R, Abenes L, Wu KS, McCouch S, Tanksley SD (1992). Genetic and physical analysis of the rice bacterial blight disease resistance locus, //Xa21//. Mol. Gen. Genet. 236: 113-120. DOI: [[https:// | ||
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Yang B, Sugio A, White FF (2006). //Os8N3// is a host disease-susceptibility gene for bacterial blight of rice. Proc Natl. Acad. Sci. U. S. A. 103: 10503-10508. DOI: [[https:// | Yang B, Sugio A, White FF (2006). //Os8N3// is a host disease-susceptibility gene for bacterial blight of rice. Proc Natl. Acad. Sci. U. S. A. 103: 10503-10508. DOI: [[https:// | ||
+ | |||
+ | Yang B, Zhu W, Johnson LB, White FF (2000). The virulence factor AvrXa7 of // | ||
+ | |||
+ | Yang B, White FF (2004). Diverse members of the AvrBs3/PthA family of type III effectors are major virulence determinants in bacterial blight disease of rice. Mol. Plant Microbe Interact. 17: 1192-1200. DOI: [[https:// | ||
Yoshimura A, Mew TW, Khush GS, Omura T (1983). Inheritance of resistance to bacterial blight in rice cultivar Cas 209. Phytopathology 73: 1409-1412. DOI: [[https:// | Yoshimura A, Mew TW, Khush GS, Omura T (1983). Inheritance of resistance to bacterial blight in rice cultivar Cas 209. Phytopathology 73: 1409-1412. DOI: [[https:// | ||
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Chukwu SC, Rafii MY, Ramlee SI, Ismail SI, Hasan MM, Oladosu YA, Magaji UG, Akos I, Olalekan KK (2019). Bacterial leaf blight resistance in rice: a review of conventional breeding to molecular approach. Mol. Biol. Rep. 46: 1519-1532. DOI: [[https:// | Chukwu SC, Rafii MY, Ramlee SI, Ismail SI, Hasan MM, Oladosu YA, Magaji UG, Akos I, Olalekan KK (2019). Bacterial leaf blight resistance in rice: a review of conventional breeding to molecular approach. Mol. Biol. Rep. 46: 1519-1532. DOI: [[https:// | ||
+ | |||
+ | Ercoli MF, Luu DD, Rim EY, Shigenaga A, Teixeira de Araujo A Jr, Chern M, Jain R, Ruan R, Joe A, Stewart V, Ronald P (2022). Plant immunity: Rice XA21-mediated resistance to bacterial infection. Proc. Natl. Acad. Sci. U. S. A. 119: e2121568119. DOI: [[https:// | ||
Helliwell EE, Yang Y (2013). Molecular strategies to improve rice disease resistance. Methods Mol. Biol. 956: 285-309. DOI: [[https:// | Helliwell EE, Yang Y (2013). Molecular strategies to improve rice disease resistance. Methods Mol. Biol. 956: 285-309. DOI: [[https:// | ||
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Jiang N, Yan J, Liang Y, Shi Y, He Z, Wu Y, Zeng Q, Liu X, Peng J (2020). Resistance genes and their interactions with bacterial blight/leaf streak pathogens (// | Jiang N, Yan J, Liang Y, Shi Y, He Z, Wu Y, Zeng Q, Liu X, Peng J (2020). Resistance genes and their interactions with bacterial blight/leaf streak pathogens (// | ||
+ | |||
+ | Joshi JB, Arul L, Ramalingam J, Uthandi S (2020). Advances in the // | ||
Liu W, Liu J, Triplett L, Leach JE, Wang GL (2014). Novel insights into rice innate immunity against bacterial and fungal pathogens. Annu. Rev. Phytopathol. 52: 213-241. DOI: [[https:// | Liu W, Liu J, Triplett L, Leach JE, Wang GL (2014). Novel insights into rice innate immunity against bacterial and fungal pathogens. Annu. Rev. Phytopathol. 52: 213-241. DOI: [[https:// |