30 results on '"DEMUYNCK, KIRIN"'
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2. Corrigendum: Proximal hyperspectral imaging detects diurnal and drought-induced changes in maize physiology
3. Proximal Hyperspectral Imaging Detects Diurnal and Drought-Induced Changes in Maize Physiology.
4. Cytokinin Promotes Jasmonic Acid Accumulation in the Control of Maize Leaf Growth
5. Monitoring of drought stress and transpiration rate using proximal thermal and hyperspectral imaging in an indoor automated plant phenotyping platform
6. Dynamic Changes in ANGUSTIFOLIA3 Complex Composition Reveal a Growth Regulatory Mechanism in the Maize Leaf
7. BREEDIT: a multiplex genome editing strategy to improve complex quantitative traits in maize
8. Modulation of the DA1 pathway in maize shows that translatability of information from Arabidopsis to crops is complex
9. BREEDIT: A novel multiplex genome editing strategy to improve complex quantitative traits in maize (Zea mays L.)
10. An in situ sequencing approach maps PLASTOCHRON1 at the boundary between indeterminate and determinate cells
11. SAMBA controls cell division rate during maize development
12. BREEDIT: a multiplex genome editing strategy to improve complex quantitative traits in maize.
13. SAMBA controls the rate of cell division in maize development through APC/C interaction
14. Drought affects the rate and duration of organ growth but not inter-organ growth coordination
15. Proximal Hyperspectral Imaging Detects Diurnal and Drought-Induced Changes in Maize Physiology
16. SAMBA controls cell division rate during maize development.
17. From laboratory to field: yield stability and shade avoidance genes are massively differentially expressed in the field
18. Growth rate rather than growth duration drives growth heterosis in maize B104 hybrids
19. Cytokinin promotes jasmonic acid accumulation in the control of maize leaf growth
20. Functional analysis of Arabidopsis and maize transgenic lines overexpressing the ADP-ribose/NADH pyrophosphohydrolase, AtNUDX7
21. Growth rate rather than growth duration drives growth heterosis in maize B104 hybrids
22. The reduction in maize leaf growth under mild drought affects the transition between cell division and cell expansion and cannot be restored by elevated gibberellic acid levels
23. Altered expression of maize PLASTOCHRON1 enhances biomass and seed yield by extending cell division duration
24. From laboratory to field: yield stability and shade avoidance genes are massively differentially expressed in the field.
25. The reduction in maize leaf growth under mild drought affects the transition between cell division and cell expansion and cannot be restored by elevated gibberellic acid levels.
26. Differential Methylation during Maize Leaf Growth Targets Developmentally Regulated Genes
27. A Local Maximum in Gibberellin Levels Regulates Maize Leaf Growth by Spatial Control of Cell Division
28. An in situ sequencing approach maps PLASTOCHRON1 at the boundary between indeterminate and determinate cells.
29. SAMBA controls cell division rate during maize development.
30. Growth rate rather than growth duration drives growth heterosis in maize B104 hybrids.
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