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bacteria:t3e:xopn [2020/08/09 20:27] jvicente |
bacteria:t3e:xopn [2020/08/09 20:32] (current) jvicente |
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=== Regulation === | === Regulation === | ||
- | Start codon of //xopN// was found downstream of a conserved cis-regulatory element, the plant-inducible promoter (PIP) box (TTCGG-N15-TTCTG). //xopN// is regulated by //hrpX// and //hrpG// genes (Cheong | + | Start codon of //xopN// was found downstream of a conserved cis-regulatory element, the plant-inducible promoter (PIP) box (TTCGG-N15-TTCTG). //xopN// is regulated by //hrpX// and //hrpG// genes (Jiang //et al// |
qRT-PCR revealed that transcript levels of 15 out of 18 tested non-TAL effector genes (as well as the regulatory genes //hrpG// and //hrpX//) were significantly reduced in the // | qRT-PCR revealed that transcript levels of 15 out of 18 tested non-TAL effector genes (as well as the regulatory genes //hrpG// and //hrpX//) were significantly reduced in the // | ||
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* XopN has been shown to play a role in host defence systems causing the reduction of PAMP-triggered immune responses and reduce the callose deposition in the host tissue. Moreover the deletion of // | * XopN has been shown to play a role in host defence systems causing the reduction of PAMP-triggered immune responses and reduce the callose deposition in the host tissue. Moreover the deletion of // | ||
* The role of XopN in X. oryzae pv. oryzae is dependent on leaf stage (Cheong et al., 2013). | * The role of XopN in X. oryzae pv. oryzae is dependent on leaf stage (Cheong et al., 2013). | ||
- | * XopN has been shown to be required for maximal pathogenicity of //X. axonopodis// | + | * XopN has been shown to be required for maximal pathogenicity of //X. axonopodis// |
* A Δ// | * A Δ// | ||
- | * // | + | * // |
* XopN and AvrBS2 were shown to significantly contribute to virulence of //X. oryzae// | * XopN and AvrBS2 were shown to significantly contribute to virulence of //X. oryzae// | ||