3 d.p.i | 7 d.p.i | 11 d.p.i |
---|---|---|
[U1] Pathogenesis-related protein activity, [U2] defense against chitin-containing fungal pathogens | [U1] Pathogenesis-related protein activity, [U2] defense against chitin-containing fungal pathogens | [U1] Pathogenesis-related protein activity, [U2] defense against chitin-containing fungal pathogens |
U3] Pattern recognition receptor activity and PAMP-triggered immunity (PTI) signalling | [U3] Pattern recognition receptor activity and PAMP-triggered immunity (PTI) signalling | [U3] Pattern recognition receptor activity and PAMP-triggered immunity (PTI) signalling |
[U4] ROS production, [U5] scavenging activity | [U4] ROS production, [U5] scavenging activity | [U4] ROS production, [U5] scavenging activity |
[U6] Signal transduction involve in growth, development, reproduction, and differentiation | [U6] Signal transduction involve in growth, development, reproduction, and differentiation | [U6] Signal transduction involve in growth, development, reproduction, and differentiation |
Cell wall formation: [U7] Primary, [U8] Secondary | Cell wall formation: [U7] Primary, [U8] Secondary | Cell wall formation: [U7] Primary, [U8] Secondary |
Cell wall modification: [U9] lignin degradation, [U10] loosening and extension, [U11] O-acetylation of cell wall polymers | Cell wall modification: [U9] lignin degradation, [U10] loosening and extension, [U11] O-acetylation of cell wall polymers | Cell wall modification: [U9] lignin degradation, [U10] loosening and extension, [U11] O-acetylation of cell wall polymers |
Biosynthesis of secondary metabolites: [U12] flavonols, anthocyanidins, catechins and proanthocyanidins, [U13] ascorbate, [U14] anthocyanidins, [U15] brassinosteroid biosynthesis and signalling, [U17] flavonoid metabolism | Biosynthesis of secondary metabolites: [U12] flavonols, anthocyanidins, catechins and proanthocyanidins, [U13] ascorbate, [U14] anthocyanidins, [U16] brassinosteroid signalling, [U17] flavonoid metabolism | Biosynthesis of secondary metabolites: [U12] flavonols, anthocyanidins, catechins and proanthocyanidins, [U13] ascorbate, [U18] ubiquinone, other terpenoid-quinone, phenylpropanoids, [U15] brassinosteroid biosynthesis and signalling, [U17] flavonoid metabolism |
[U19] Repression of early auxin response genes, [U20] auxin transport, [U21] regulation of auxin signalling | [U19] Repression of early auxin response genes, [U20] auxin transport, [U21] regulation of auxin signalling | [U19] Repression of early auxin response genes, [U20] auxin transport, [U21] regulation of auxin signalling |
Binding protein and transport: [U22] heavy-metal, [U23] calcium, [U24] water, [U25] iron | Binding protein and transport: [U22] heavy-metal, [U23] calcium, [U24] water, [U25] iron | Binding protein and transport: [U22] heavy-metal, [U23] calcium, [U24] water, [U25] iron |
[U26] Negative regulation in the proliferation of xylem vessels | [U26] Negative regulation in the proliferation of xylem vessels | [U26] Negative regulation in the proliferation of xylem vessels |
[U27] Conversion of gibberellin and cytokinin from inactive form into bioactive form | [U27] Conversion of gibberellin and cytokinin from inactive form into bioactive form | Â |
[U28] Cytoskeleton organization: [U29] Kinesin, [U30] microtubule | [U28] Cytoskeleton organization: [U29] Kinesin, [U30] microtubule | [U28] Cytoskeleton organization: [U29] Kinesin, [U30] microtubule |
[U31] Nitrogen assimilation, distribution and remobilization within the plant | U33] Adaptation to phosphate starvation | [U32] Biosynthesis of cuticular wax and suberin |
[U33] Adaptation to phosphate starvation | U34] Cell cycle process | [U33] Adaptation to phosphate starvation |
U34] Cell cycle process | [U35] Protection from oxidative damage | U34] Cell cycle process |
[U35] Protection from oxidative damage | Â | Â |
[U36] Fatty acid oxidation | [U36] Fatty acid oxidation | [U36] Fatty acid oxidation |