Project information
Signal integration and epigenetic reprograming for plant productivity
(SINGING PLANT)
- Project Identification
- CZ.02.1.01/0.0/0.0/16_026/0008446 (kod CEP: EF16_026/0008446)
- Project Period
- 7/2018 - 12/2022
- Investor / Pogramme / Project type
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Ministry of Education, Youth and Sports of the CR
- Operational Programme Research, Development and Education
- Priority axis 1: Strengthening capacities for high-quality research
- MU Faculty or unit
- Central European Institute of Technology
- Cooperating Organization
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Institute of Analytical Chemistry of the ASCR, v. v. i.
- Responsible person Ing. František Foret, DSc.
- Responsible person Ing. Martin Trtílek
The last food crisis in 60’s of the last century was successfully solved via innovative use of plant breeding, also called ‘the 1st green revolution’. Since that, the humankind is facing another severe challenge. Exponential population growth in a combination with delimited amount of arable land and stormy climate changes are threatening literally the basis of our civilization. Considering the recent prognosis predicting substantial deficit of food production as soon as in 2027, the onset of the ‘2nd green revolution’ must not be postponed.
The main goal of the project is to identify the key regulators allowing integration of environmental, hormonal and stress-related signalling pathways with epigenetic regulations as potential powerful targets useful in the generation of stress-resistant plants. The project aims to describe the genetic variability of key signalling pathways in Arabidopsis and selected crops. The information will be used for the targeted improvement of Brassica sp. and potato with ultimate goal to generate crops with higher survival and yield under (particularly drought) stress conditions.
To achieve the project objectives, we will employ the expertize of the project team in genetics, molecular biology, bioinformatics, analytical chemistry and engineering with up-to-date approaches in the plant phenotyping. The collaboration of academy (CEITEC-Central European Institute of Technology, Masaryk University, Brno, Czech Republic) with local industrial partner (PSI - Photon Systems Instruments, Ltd., Drasov, Czech Republic) and key abroad collaborator (IPK - Leibniz-Institut für Pflanzengenetik und Kulturpflanzenforschung, Gatersleben, Germany) will allow to maximize the mutual synergies generated in frame of the consortium and successfully solve all the project tasks.
Sustainable Development Goals
Masaryk University is committed to the UN Sustainable Development Goals, which aim to improve the conditions and quality of life on our planet by 2030.
Publications
Total number of publications: 69
2022
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Investigation of the impact of supplemental reflective films to improve micro-light climate within tomato plant canopy in solar greenhouses
Frontiers in Plant Science, year: 2022, volume: 13, edition: AUG, DOI
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Laser microirradiation as a versatile system for probing protein recruitment and protein-protein interactions at DNA lesions in plants
New Phytologist, year: 2022, volume: 234, edition: 5, DOI
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Long-Term High-Temperature Stress Impacts on Embryo and Seed Development in Brassica napus
Frontiers in Plant Science, year: 2022, volume: 13, edition: APR, DOI
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MEDIATOR SUBUNIT17 integrates jasmonate and auxin signaling pathways to regulate thermomorphogenesis
Plant Physiology, year: 2022, volume: 189, edition: 4, DOI
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On the trail of auxin: reporters and sensors
The Plant Cell, year: 2022, volume: 34, edition: 9, DOI
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Tick-borne encephalitis virus capsid protein induces translational shutoff as revealed by its structural-biological analysis
JOURNAL OF BIOLOGICAL CHEMISTRY, year: 2022, volume: 298, edition: 11, DOI
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Towards the maximization of energy performance of an energy-saving Chinese solar greenhouse: A systematic analysis of common greenhouse shapes
Solar Energy, year: 2022, volume: 236, edition: APR, DOI
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Virtual Laser Scanning Approach to Assessing Impact of Geometric Inaccuracy on 3D Plant Traits
REMOTE SENSING, year: 2022, volume: 14, edition: 19, DOI
2021
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3D printed device for epitachophoresis
Analytica Chimica Acta, year: 2021, volume: 1154, edition: APR, DOI
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Disruption of NAP1 genes in Arabidopsis thaliana suppresses the fas1 mutant phenotype, enhances genome stability and changes chromatin compaction
The Plant Journal, year: 2021, volume: 106, edition: 1, DOI