Scientific Service
- Identification of genes, engaged in plant development and stress resistance control;
- Protein and non-protein markers for assessment of resistance/sensibility to abiotic stress;
- Analysis of CO2 assimilation rate, oxygen evolution rate, electron transport through PS1 and PS2and cyclic electron-transport flow, the activity of antioxidative enzymes, changes in protein and lipid contents of photosynthetic membranes for assessment of the effect of abiotic stress factors;
- Methods for improvement of selection regarding the effectiveness of nutrition, water exchange and quality of economically important cultivars;
- Phytoremediation of contaminated soil and water using new cultivated and medicinal plant lines potentially capable of heavy metals accumulation;
- Non-invasive optical methods for registration of early symptoms of plant stress;
- Molecular basis of mutant genetic diversity and mechanisms for maintaining of genome integrity in wheat cultivars;
- New synthetic or natural biologically-active substances with a selective activity and specific applications;
- Mechanisms of action of new ecologically friendly biologically-active substances;
- Synthesis of new generation plant regulators (nanobio substances), applicable in sustainable agriculture;
- Molecular-genetic mechanisms of socially significant human diseases.
