Your search keyword '"DEMUYNCK, KIRIN"' showing total 30 results

1. Monitoring of drought stress and transpiration rate using proximal thermal and hyperspectral imaging in an indoor automated plant phenotyping platform

Author

Mertens, Stien, Verbraeken, Lennart, Sprenger, Heike, De Meyer, Sam, Demuynck, Kirin, Cannoot, Bernard, Merchie, Julie, De Block, Jolien, Vogel, Jonathan T., Bruce, Wesley, Nelissen, Hilde, Maere, Steven, Inzé, Dirk, and Wuyts, Nathalie

Published

2023

2. Corrigendum: Proximal hyperspectral imaging detects diurnal and drought-induced changes in maize physiology

Author

Mertens, Stien, primary, Verbraeken, Lennart, additional, Sprenger, Heike, additional, Demuynck, Kirin, additional, Maleux, Katrien, additional, Cannoot, Bernard, additional, De Block, Jolien, additional, Maere, Steven, additional, Nelissen, Hilde, additional, Bonaventure, Gustavo, additional, Crafts-Brandner, Steven J., additional, Vogel, Jonathan T., additional, Bruce, Wesley, additional, Inzé, Dirk, additional, and Wuyts, Nathalie, additional

Published

2024

3. Proximal Hyperspectral Imaging Detects Diurnal and Drought-Induced Changes in Maize Physiology.

Author

Mertens, Stien, Verbraeken, Lennart, Sprenger, Heike, Demuynck, Kirin, Maleux, Katrien, Cannoot, Bernard, De Block, Jolien, Maere, Steven, Nelissen, Hilde, Bonaventure, Gustavo, Crafts-Brandner, Steven J., Vogel, Jonathan T., Bruce, Wesley, Inzé, Dirk, and Wuyts, Nathalie

Subjects

PARTIAL least squares regression, PHYSIOLOGY, PLANT variation, VAPOR pressure

Abstract

Hyperspectral imaging is a promising tool for non-destructive phenotyping of plant physiological traits, which has been transferred from remote to proximal sensing applications, and from manual laboratory setups to automated plant phenotyping platforms. Due to the higher resolution in proximal sensing, illumination variation and plant geometry result in increased non-biological variation in plant spectra that may mask subtle biological differences. Here, a better understanding of spectral measurements for proximal sensing and their application to study drought, developmental and diurnal responses was acquired in a drought case study of maize grown in a greenhouse phenotyping platform with a hyperspectral imaging setup. The use of brightness classification to reduce the illumination-induced non-biological variation is demonstrated, and allowed the detection of diurnal, developmental and early drought-induced changes in maize reflectance and physiology. Diurnal changes in transpiration rate and vapor pressure deficit were significantly correlated with red and red-edge reflectance. Drought-induced changes in effective quantum yield and water potential were accurately predicted using partial least squares regression and the newly developed Water Potential Index 2, respectively. The prediction accuracy of hyperspectral indices and partial least squares regression were similar, as long as a strong relationship between the physiological trait and reflectance was present. This demonstrates that current hyperspectral processing approaches can be used in automated plant phenotyping platforms to monitor physiological traits with a high temporal resolution. [ABSTRACT FROM AUTHOR]

Published

2024

4. Cytokinin Promotes Jasmonic Acid Accumulation in the Control of Maize Leaf Growth

Author

Uyehara, Aimee N., primary, Del Valle-Echevarria, Angel R., additional, Hunter, Charles T., additional, Nelissen, Hilde, additional, Demuynck, Kirin, additional, Cahill, James F., additional, Gorman, Zachary, additional, Jander, Georg, additional, and Muszynski, Michael G., additional

Published

2023

5. Monitoring of drought stress and transpiration rate using proximal thermal and hyperspectral imaging in an indoor automated plant phenotyping platform

Author

Mertens, Stien, primary, Verbraeken, Lennart, additional, Sprenger, Heike, additional, De Meyer, Sam, additional, Demuynck, Kirin, additional, Cannoot, Bernard, additional, Merchie, Julie, additional, De Block, Jolien, additional, Vogel, Jonathan T., additional, Bruce, Wesley, additional, Nelissen, Hilde, additional, Maere, Steven G, additional, Inze, Dirk, additional, and Wuyts, Nathalie, additional

Published

2023

6. Dynamic Changes in ANGUSTIFOLIA3 Complex Composition Reveal a Growth Regulatory Mechanism in the Maize Leaf

Author

Nelissen, Hilde, Eeckhout, Dominique, Demuynck, Kirin, Persiau, Geert, Walton, Alan, van Bel, Michiel, Vervoort, Marieke, Candaele, Jasper, De Block, Jolien, Aesaert, Stijn, Van Lijsebettens, Mieke, Goormachtig, Sofie, Vandepoele, Klaas, Van Leene, Jelle, Muszynski, Michael, Gevaert, Kris, Inzé, Dirk, and De Jaeger, Geert

Published

2015

7. BREEDIT: a multiplex genome editing strategy to improve complex quantitative traits in maize

Author

Lorenzo, Christian Damian, primary, Debray, Kevin, additional, Herwegh, Denia, additional, Develtere, Ward, additional, Impens, Lennert, additional, Schaumont, Dries, additional, Vandeputte, Wout, additional, Aesaert, Stijn, additional, Coussens, Griet, additional, De Boe, Yara, additional, Demuynck, Kirin, additional, Van Hautegem, Tom, additional, Pauwels, Laurens, additional, Jacobs, Thomas B, additional, Ruttink, Tom, additional, Nelissen, Hilde, additional, and Inzé, Dirk, additional

Published

2022

8. Modulation of the DA1 pathway in maize shows that translatability of information from Arabidopsis to crops is complex

Author

Gong, Pan, primary, Demuynck, Kirin, additional, De Block, Jolien, additional, Aesaert, Stijn, additional, Coussens, Griet, additional, Pauwels, Laurens, additional, Inzé, Dirk, additional, and Nelissen, Hilde, additional

Published

2022

9. BREEDIT: A novel multiplex genome editing strategy to improve complex quantitative traits in maize (Zea mays L.)

Author

Lorenzo, Christian Damian, primary, Debray, Kevin, additional, Herwegh, Denia, additional, Develtere, Ward, additional, Impens, Lennert, additional, Schaumont, Dries, additional, Vandeputte, Wout, additional, Aesaert, Stijn, additional, Coussens, Griet, additional, de Boe, Yara, additional, Demuynck, Kirin, additional, Van Hautegem, Tom, additional, Pauwels, Laurens, additional, Jacobs, Thomas B., additional, Ruttink, Tom, additional, Nelissen, Hilde, additional, and Inzé, Dirk, additional

Published

2022

10. An in situ sequencing approach maps PLASTOCHRON1 at the boundary between indeterminate and determinate cells

Author

Laureyns, Reinout, primary, Joossens, Jessica, additional, Herwegh, Denia, additional, Pevernagie, Julie, additional, Pavie, Benjamin, additional, Demuynck, Kirin, additional, Debray, Kevin, additional, Coussens, Griet, additional, Pauwels, Laurens, additional, Van Hautegem, Tom, additional, Bontinck, Michiel, additional, Strable, Josh, additional, and Nelissen, Hilde, additional

Published

2021

11. SAMBA controls cell division rate during maize development

Author

Gong, Pan, primary, Bontinck, Michiel, additional, Demuynck, Kirin, additional, De Block, Jolien, additional, Gevaert, Kris, additional, Eeckhout, Dominique, additional, Persiau, Geert, additional, Aesaert, Stijn, additional, Coussens, Griet, additional, Van Lijsebettens, Mieke, additional, Pauwels, Laurens, additional, De Jaeger, Geert, additional, Inzé, Dirk, additional, and Nelissen, Hilde, additional

Published

2021

12. BREEDIT: a multiplex genome editing strategy to improve complex quantitative traits in maize.

Author

Lorenzo, Christian Damian, Debray, Kevin, Herwegh, Denia, Develtere, Ward, Impens, Lennert, Schaumont, Dries, Vandeputte, Wout, Aesaert, Stijn, Coussens, Griet, De Boe, Yara, Demuynck, Kirin, Van Hautegem, Tom, Pauwels, Laurens, Jacobs, Thomas B, Ruttink, Tom, Nelissen, Hilde, and Inzé, Dirk

Published

2023

13. SAMBA controls the rate of cell division in maize development through APC/C interaction

Author

Gong, Pan, primary, Bontinck, Michiel, additional, Demuynck, Kirin, additional, De Block, Jolien, additional, Gevaert, Kris, additional, Eeckhout, Dominique, additional, Persiau, Geert, additional, Aesaert, Stijn, additional, Coussens, Griet, additional, Van Lijsebettens, Mieke, additional, Pauwels, Laurens, additional, De Jaeger, Geert, additional, Inzé, Dirk, additional, and Nelissen, Hilde, additional

Published

2021

14. Drought affects the rate and duration of organ growth but not inter-organ growth coordination

Author

Verbraeken, Lennart, primary, Wuyts, Nathalie, additional, Mertens, Stien, additional, Cannoot, Bernard, additional, Maleux, Katrien, additional, Demuynck, Kirin, additional, De Block, Jolien, additional, Merchie, Julie, additional, Dhondt, Stijn, additional, Bonaventure, Gustavo, additional, Crafts-Brandner, Steven, additional, Vogel, Jonathan, additional, Bruce, Wesley, additional, Inzé, Dirk, additional, Maere, Steven, additional, and Nelissen, Hilde, additional

Published

2021

15. Proximal Hyperspectral Imaging Detects Diurnal and Drought-Induced Changes in Maize Physiology

Author

Mertens, Stien, primary, Verbraeken, Lennart, additional, Sprenger, Heike, additional, Demuynck, Kirin, additional, Maleux, Katrien, additional, Cannoot, Bernard, additional, De Block, Jolien, additional, Maere, Steven, additional, Nelissen, Hilde, additional, Bonaventure, Gustavo, additional, Crafts-Brandner, Steven J., additional, Vogel, Jonathan T., additional, Bruce, Wesley, additional, Inzé, Dirk, additional, and Wuyts, Nathalie, additional

Published

2021

16. SAMBA controls cell division rate during maize development.

Author

Pan Gong, Bontinck, Michiel, Demuynck, Kirin, De Block, Jolien, Gevaert, Kris, Eeckhout, Dominique, Persiau, Geert, Aesaert, Stijn, Coussens, Griet, Van Lijsebettens, Mieke, Pauwels, Laurens, De Jaeger, Geert, Inzé, Dirk, and Nelissen, Hilde

Published

2022

17. From laboratory to field: yield stability and shade avoidance genes are massively differentially expressed in the field

Author

Nelissen, Hilde, primary, Sprenger, Heike, additional, Demuynck, Kirin, additional, De Block, Jolien, additional, Van Hautegem, Tom, additional, De Vliegher, Alex, additional, and Inzé, Dirk, additional

Published

2019

18. Growth rate rather than growth duration drives growth heterosis in maize B104 hybrids

Author

Feys, Kim, Demuynck, Kirin, De Block, Jolien, Bisht, Anchal, De Vliegher, Alex, Inzé, Dirk, and Nelissen, Hilde

Subjects

ZEA-MAYS L, EXPRESSION, fungi, PLASTOCHRON1, CELL-DIVISION, food and beverages, Biology and Life Sciences, GRAIN-YIELD, plant biotechnology, maize, LEAF GROWTH, EMBRYOS, INBRED LINES, heterosis, GA20-oxidase, TROPICAL MAIZE, AGROBACTERIUM-MEDIATED TRANSFORMATION, ENVIRONMENTS

Abstract

Research in maize is often performed using inbred lines that can be readily transformed, such as B104. However, because the B104 line flowers late, the kernels do not always mature before the end of the growing season, hampering routine seed yield evaluations of biotech traits introduced in B104 at many geographical locations. Therefore, we generated five hybrids by crossing B104 with the early-flowering inbred lines CML91, F7, H99, Mo17, and W153R and showed in three consecutive years that the hybrid lines proved to be suitable to evaluate seed yield under field conditions in a temperate climate. By assessing the two main processes driving maize leaf growth, being rate of growth (leaf elongation rate or LER) and the duration of growth (leaf elongation duration or LED) in this panel of hybrids, we showed that leaf growth heterosis was mainly the result of increased LER and not or to a lesser extent of LED. Ectopic expression of the transgenes GA20-oxidase (GA20-OX) and PLASTOCHRON1 (PLA1), known to stimulate the LER and LED, respectively, in the hybrids showed that leaf length heterosis can be stimulated by increased LER, but not by LED, indicating that LER rather than LED is the target for enhancing leaf growth heterosis. To enable transgenic maize research, hybrids between the inbred B104 that can be routinely transformed and early flowering inbreds were evaluated for yield components in three consecutive years. In addition, we show that leaf elongation rate is the main contributor to leaf growth heterosis in these hybrids, which can even be stimulated by overexpressing GA20OXIDASE, a known regulator of leaf elongation rate. Although leaf elongation duration has a limited contribution to the growth heterosis, the effect of the ectopic expression of PLASTOCHRON1, known to enhance leaf elongation duration and leaf growth, is still observed in the hybrids. This detailed understanding of the growth processes driving heterosis will be key to further breed for high yielding hybrids.

Published

2018

19. Cytokinin promotes jasmonic acid accumulation in the control of maize leaf growth

Author

Uyehara, Aimee N., primary, Del Valle-Echevarria, Angel R., additional, Hunter, Charles T., additional, Nelissen, Hilde, additional, Demuynck, Kirin, additional, Cahill, James F., additional, Jander, Georg, additional, and Muszynski, Michael G., additional

Published

2019

20. Functional analysis of Arabidopsis and maize transgenic lines overexpressing the ADP-ribose/NADH pyrophosphohydrolase, AtNUDX7

Author

Njuguna, Elizabeth, primary, Coussens, Griet, additional, Neyt, Pia, additional, Aesaert, Stijn, additional, Storme, Veronique, additional, Demuynck, Kirin, additional, Vanhaeren, Hannes, additional, Dhondt, Stijn, additional, Van Haver, Yolaine, additional, Paul, Linus, additional, Inzé, Dirk, additional, Nelissen, Hilde, additional, and Van Lijsebettens, Mieke, additional

Published

2019

21. Growth rate rather than growth duration drives growth heterosis in maize B104 hybrids

Author

Feys, Kim, primary, Demuynck, Kirin, additional, De Block, Jolien, additional, Bisht, Anchal, additional, De Vliegher, Alex, additional, Inzé, Dirk, additional, and Nelissen, Hilde, additional

Published

2017

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

Author

Nelissen, Hilde, primary, Sun, Xiao-Huan, additional, Rymen, Bart, additional, Jikumaru, Yusuke, additional, Kojima, Mikko, additional, Takebayashi, Yumiko, additional, Abbeloos, Rafael, additional, Demuynck, Kirin, additional, Storme, Veronique, additional, Vuylsteke, Marnik, additional, De Block, Jolien, additional, Herman, Dorota, additional, Coppens, Frederik, additional, Maere, Steven, additional, Kamiya, Yuji, additional, Sakakibara, Hitoshi, additional, Beemster, Gerrit T.S., additional, and Inzé, Dirk, additional

Published

2017

23. Altered expression of maize PLASTOCHRON1 enhances biomass and seed yield by extending cell division duration

Author

Sun, Xiaohuan, primary, Cahill, James, additional, Van Hautegem, Tom, additional, Feys, Kim, additional, Whipple, Clinton, additional, Novák, Ondrej, additional, Delbare, Sofie, additional, Versteele, Charlot, additional, Demuynck, Kirin, additional, De Block, Jolien, additional, Storme, Veronique, additional, Claeys, Hannes, additional, Van Lijsebettens, Mieke, additional, Coussens, Griet, additional, Ljung, Karin, additional, De Vliegher, Alex, additional, Muszynski, Michael, additional, Inzé, Dirk, additional, and Nelissen, Hilde, additional

Published

2017

24. From laboratory to field: yield stability and shade avoidance genes are massively differentially expressed in the field.

Author

Nelissen, Hilde, Sprenger, Heike, Demuynck, Kirin, De Block, Jolien, Van Hautegem, Tom, De Vliegher, Alex, and Inzé, Dirk

Subjects

DROUGHT tolerance, CYTOKININS, SHADES & shadows, GENES

Published

2020

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.

Author

Nelissen, Hilde, Sun, Xiao‐Huan, Rymen, Bart, Jikumaru, Yusuke, Kojima, Mikko, Takebayashi, Yumiko, Abbeloos, Rafael, Demuynck, Kirin, Storme, Veronique, Vuylsteke, Marnik, De Block, Jolien, Herman, Dorota, Coppens, Frederik, Maere, Steven, Kamiya, Yuji, Sakakibara, Hitoshi, Beemster, Gerrit T. S., and Inzé, Dirk

Subjects

CORN genetics, DROUGHTS, GIBBERELLIC acid, CELL division, GENETIC overexpression, PLANTS

Abstract

Summary: Growth is characterized by the interplay between cell division and cell expansion, two processes that occur separated along the growth zone at the maize leaf. To gain further insight into the transition between cell division and cell expansion, conditions were investigated in which the position of this transition zone was positively or negatively affected. High levels of gibberellic acid (GA) in plants overexpressing the GA biosynthesis gene GA20‐OXIDASE (GA20OX‐1OE) shifted the transition zone more distally, whereas mild drought, which is associated with lowered GA biosynthesis, resulted in a more basal positioning. However, the increased levels of GA in the GA20OX‐1OE line were insufficient to convey tolerance to the mild drought treatment, indicating that another mechanism in addition to lowered GA levels is restricting growth during drought. Transcriptome analysis with high spatial resolution indicated that mild drought specifically induces a reprogramming of transcriptional regulation in the division zone. ‘Leaf Growth Viewer’ was developed as an online searchable tool containing the high‐resolution data. [ABSTRACT FROM AUTHOR]

Published

2018

26. Differential Methylation during Maize Leaf Growth Targets Developmentally Regulated Genes

Author

Candaele, Jasper, primary, Demuynck, Kirin, additional, Mosoti, Douglas, additional, Beemster, Gerrit T.S., additional, Inzé, Dirk, additional, and Nelissen, Hilde, additional

Published

2014

27. A Local Maximum in Gibberellin Levels Regulates Maize Leaf Growth by Spatial Control of Cell Division

Author

Nelissen, Hilde, primary, Rymen, Bart, additional, Jikumaru, Yusuke, additional, Demuynck, Kirin, additional, Van Lijsebettens, Mieke, additional, Kamiya, Yuji, additional, Inzé, Dirk, additional, and Beemster, Gerrit T.S., additional

Published

2012

28. An in situ sequencing approach maps PLASTOCHRON1 at the boundary between indeterminate and determinate cells.

Author

Laureyns R, Joossens J, Herwegh D, Pevernagie J, Pavie B, Demuynck K, Debray K, Coussens G, Pauwels L, Van Hautegem T, Bontinck M, Strable J, and Nelissen H

Subjects

Gene Expression, Plant Proteins genetics, Sequence Analysis, RNA instrumentation, Zea mays genetics, Plant Cells, Plant Proteins chemistry, Sequence Analysis, RNA methods, Zea mays chemistry

Abstract

The plant shoot apex houses the shoot apical meristem, a highly organized and active stem-cell tissue where molecular signaling in discrete cells determines when and where leaves are initiated. We optimized a spatial transcriptomics approach, in situ sequencing (ISS), to colocalize the transcripts of 90 genes simultaneously on the same section of tissue from the maize (Zea mays) shoot apex. The RNA ISS technology reported expression profiles that were highly comparable with those obtained by in situ hybridizations (ISHs) and allowed the discrimination between tissue domains. Furthermore, the application of spatial transcriptomics to the shoot apex, which inherently comprised phytomers that are in gradual developmental stages, provided a spatiotemporal sequence of transcriptional events. We illustrate the power of the technology through PLASTOCHRON1 (PLA1), which was specifically expressed at the boundary between indeterminate and determinate cells and partially overlapped with ROUGH SHEATH1 and OUTER CELL LAYER4 transcripts. Also, in the inflorescence, PLA1 transcripts localized in cells subtending the lateral primordia or bordering the newly established meristematic region, suggesting a more general role of PLA1 in signaling between indeterminate and determinate cells during the formation of lateral organs. Spatial transcriptomics builds on RNA ISH, which assays relatively few transcripts at a time and provides a powerful complement to single-cell transcriptomics that inherently removes cells from their native spatial context. Further improvements in resolution and sensitivity will greatly advance research in plant developmental biology., (© American Society of Plant Biologists 2021. All rights reserved. For permissions, please email: journals.permissions@oup.com.)

Published

2022

29. SAMBA controls cell division rate during maize development.

Author

Gong P, Bontinck M, Demuynck K, De Block J, Gevaert K, Eeckhout D, Persiau G, Aesaert S, Coussens G, Van Lijsebettens M, Pauwels L, De Jaeger G, Inzé D, and Nelissen H

Subjects

Crops, Agricultural genetics, Crops, Agricultural growth & development, Gene Expression Regulation, Plant, Genes, Plant, Genetic Variation, Genotype, Phenotype, Cell Cycle Proteins genetics, Cell Cycle Proteins metabolism, Cell Division genetics, Zea mays genetics, Zea mays growth & development

Abstract

SAMBA has been identified as a plant-specific regulator of the anaphase-promoting complex/cyclosome (APC/C) that controls unidirectional cell cycle progression in Arabidopsis (Arabidopsis thaliana), but so far its role has not been studied in monocots. Here, we show the association of SAMBA with the APC/C is conserved in maize (Zea mays). Two samba genome edited mutants showed growth defects, such as reduced internode length, shortened upper leaves with erect leaf architecture, and reduced leaf size due to an altered cell division rate and cell expansion, which aggravated with plant age. The two mutants differed in the severity and developmental onset of the phenotypes, because samba-1 represented a knockout allele, while translation re-initiation in samba-3 resulted in a truncated protein that was still able to interact with the APC/C and regulate its function, albeit with altered APC/C activity and efficiency. Our data are consistent with a dosage-dependent role for SAMBA to control developmental processes for which a change in growth rate is pivotal., (© American Society of Plant Biologists 2021. All rights reserved. For permissions, please email: journals.permissions@oup.com.)

Published

2022

30. Growth rate rather than growth duration drives growth heterosis in maize B104 hybrids.

Author

Feys K, Demuynck K, De Block J, Bisht A, De Vliegher A, Inzé D, and Nelissen H

Subjects

Plant Breeding, Plant Leaves growth & development, Plants, Genetically Modified, Zea mays genetics, Hybrid Vigor physiology, Zea mays growth & development

Abstract

Research in maize is often performed using inbred lines that can be readily transformed, such as B104. However, because the B104 line flowers late, the kernels do not always mature before the end of the growing season, hampering routine seed yield evaluations of biotech traits introduced in B104 at many geographical locations. Therefore, we generated five hybrids by crossing B104 with the early-flowering inbred lines CML91, F7, H99, Mo17, and W153R and showed in three consecutive years that the hybrid lines proved to be suitable to evaluate seed yield under field conditions in a temperate climate. By assessing the two main processes driving maize leaf growth, being rate of growth (leaf elongation rate or LER) and the duration of growth (leaf elongation duration or LED) in this panel of hybrids, we showed that leaf growth heterosis was mainly the result of increased LER and not or to a lesser extent of LED. Ectopic expression of the transgenes GA20-oxidase (GA20-OX) and PLASTOCHRON1 (PLA1), known to stimulate the LER and LED, respectively, in the hybrids showed that leaf length heterosis can be stimulated by increased LER, but not by LED, indicating that LER rather than LED is the target for enhancing leaf growth heterosis., (© 2017 The Authors. Plant, Cell & Environment Published by John Wiley & Sons Ltd.)

Published

2018