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plant:citrus [2020/07/09 18:17] rkoebnik |
plant:citrus [2020/10/05 21:27] paulamartins [Kumquat (//Citrus japonica//)] |
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Author: Cristina Cameirão\\ | Author: Cristina Cameirão\\ | ||
- | Internal reviewer: | + | Internal reviewer: |
Expert reviewer: FIXME | Expert reviewer: FIXME | ||
- | ====== Kumquat (// | + | ====== Kumquat (// Citrus |
- | ===== Pathogen: // | + | ===== Pathogen: // |
==== Resistance gene: // | ==== Resistance gene: // | ||
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====== Orange (//Citrus sinensis//) ====== | ====== Orange (//Citrus sinensis//) ====== | ||
- | ===== Pathogen: // | + | ===== Pathogen: // |
==== Resistance gene: //CsCAF1// ==== | ==== Resistance gene: //CsCAF1// ==== | ||
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---- | ---- | ||
- | ===== Pathogen: // | + | ===== Pathogen: // |
==== Resistance gene: //CsMAF1// ==== | ==== Resistance gene: //CsMAF1// ==== | ||
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===== References ===== | ===== References ===== | ||
- | Cernadas RA, Camillo LR, Benedetti CE (2008). Transcriptional analysis of the sweet orange interaction with the citrus canker pathogens // | + | Cernadas RA, Camillo LR, Benedetti CE (2008). Transcriptional analysis of the sweet orange interaction with the citrus canker pathogens // |
Chen X, Barnaby J.Y., Sreedharan A, Huang X, Orbovic V. Grosser J.W., Wang N, Dong X, Song W (2013). Over-expression of the citrus gene CtNH1 confers resistance to bacterial canker disease. Physiol. Mol. Plant Pathol. 84: 115-122. DOI: [[https:// | Chen X, Barnaby J.Y., Sreedharan A, Huang X, Orbovic V. Grosser J.W., Wang N, Dong X, Song W (2013). Over-expression of the citrus gene CtNH1 confers resistance to bacterial canker disease. Physiol. Mol. Plant Pathol. 84: 115-122. DOI: [[https:// | ||
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Shi Q, Febres VJ, Jones JB, Moore GA (2016). A survey for FLS2 genes from multiple citrus species identifies candidates for enhancing disease resistance to // | Shi Q, Febres VJ, Jones JB, Moore GA (2016). A survey for FLS2 genes from multiple citrus species identifies candidates for enhancing disease resistance to // | ||
- | Shimo HM, Terassi C, Silva CCL, Zanella JL, Mercaldi GF, Rocco SA, Benedetti CE (2019). Role of the //Citrus sinensis// RNA deadenylase CsCAF1 in citrus canker resistance. Mol. Plant Pathol 20: 1105-1118. DOI: [[https:// | + | Shimo HM, Terassi C, Silva CCL, Zanella JL, Mercaldi GF, Rocco SA, Benedetti CE (2019). Role of the //Citrus sinensis// RNA deadenylase CsCAF1 in citrus canker resistance. Mol. Plant Pathol. 20: 1105-1118. DOI: [[https:// |
Soprano AS, Abe VY, Smetana JHC, Benedetti CE (2013). Citrus MAF1, a repressor of RNA polymerase III, binds the // | Soprano AS, Abe VY, Smetana JHC, Benedetti CE (2013). Citrus MAF1, a repressor of RNA polymerase III, binds the // | ||
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+ | ---- | ||
===== Further reading ===== | ===== Further reading ===== | ||
Canteros BI, Gochez AM, Moschini RC (2017). Management of Citrus canker in Argentina, a success story. Plant Pathol. J. 33: 441-449. DOI: [[https:// | Canteros BI, Gochez AM, Moschini RC (2017). Management of Citrus canker in Argentina, a success story. Plant Pathol. J. 33: 441-449. DOI: [[https:// | ||
+ | |||
+ | Fu H, Zhao M, Xu J, Tan L, Han J, Li D, Wang M, Xiao S, Ma X, Deng Z (2020). Citron C-05 inhibits both the penetration and colonization of // | ||
+ | |||
+ | Martins PMM, de Oliveira Andrade M, Benedetti CE, de Souza AA (2020). // | ||