35 results on '"Moyankova, Daniela"'
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2. Myconoside interacts with the plasma membranes and the actin cytoskeleton and provokes cytotoxicity in human lung adenocarcinoma A549 cells
3. Resurrection Plants—A Valuable Source of Natural Bioactive Compounds: From Word-of-Mouth to Scientifically Proven Sustainable Use
4. An Aquaphotomics Approach for Investigation of Water-Stress-Induced Changes in Maize Plants
5. Author Correction: Water molecular structure underpins extreme desiccation tolerance of the resurrection plant Haberlea rhodopensis
6. Water molecular structure underpins extreme desiccation tolerance of the resurrection plant Haberlea rhodopensis
7. Antioxidant capacity of herbal teas from Bulgarian market.
8. The European Paleoendemic Haberlea rhodopensis (Gesneriaceae) Has an Oligocene Origin and a Pleistocene Diversification and Occurs in a Long-Persisting Refugial Area in Southeastern Europe
9. Chemical Profiling, Antiproliferative and Antimigratory Capacity of Haberlea rhodopensis Extracts in an In Vitro Platform of Various Human Cancer Cell Lines
10. Transcriptome reprogramming during severe dehydration contributes to physiological and metabolic changes in the resurrection plant Haberlea rhodopensis
11. Myconoside Affects the Viability of Polarized Epithelial MDCKII Cell Line by Interacting with the Plasma Membrane and the Apical Junctional Complexes
12. Mitochondrial activity and biogenesis during resurrection of Haberlea rhodopensis
13. Surface electric charge of thylakoid membranes from genetically modified tobacco plants under freezing stress
14. Morphological variation, genetic diversity and genome size of critically endangered Haberlea (Gesneriaceae) populations in Bulgaria do not support the recognition of two different species
15. Fractions of Methanol Extracts from the Resurrection Plant Haberlea rhodopensis Have Anti-Breast Cancer Effects in Model Cell Systems.
16. Methanol extracts from the resurrection plant Haberlea rhodopensis ameliorate cellular vitality in chronologically ageing Saccharomyces cerevisiae cells
17. Proteomics Evidence of a Systemic Response to Desiccation in the Resurrection Plant Haberlea rhodopensis
18. Proteomics Evidence of a Systemic Response to Desiccation in the Resurrection Plant Haberlea Rhodopensis
19. Extracts of the endemic resurrection plant Haberlea rhodopensis stimulate in vitro growth of various Phytophthora spp. pathogens
20. Dynamics of Endogenous Phytohormones during Desiccation and Recovery of the Resurrection Plant Species Haberlea rhodopensis
21. Common and Specific Mechanisms of Desiccation Tolerance in Two Gesneriaceae Resurrection Plants. Multiomics Evidences
22. Recent advancements in plant aquaphotomics – Towards understanding of “drying without dying” phenomenon and its implications
23. Protocol for aquaphotomics monitoring of water molecular structure in leaves of resurrection plants during desiccation and recovery
24. Structural Transformation to Attain Responsible BIOSciences (STARBIOS2): Protocol for a Horizon 2020 Funded European Multicenter Project to Promote Responsible Research and Innovation
25. Structural Transformation to Attain Responsible BIOSciences (STARBIOS2): Protocol for a Horizon 2020 Funded European Multicenter Project to Promote Responsible Research and Innovation (Preprint)
26. Assessment of leaf micromorphology after full desiccation of resurrection plants
27. A stakeholder engagement approach for identifying future research directions in the evaluation of current and emerging applications of GMOs
28. Assessment of leaf micromorphology after full desiccation of resurrection plants.
29. In vivo spectroscopy and NMR metabolite fingerprinting approaches to connect the dynamics of photosynthetic and metabolic phenotypes in resurrection plant Haberlea rhodopensis during desiccation and recovery
30. The European PaleoendemicHaberlea rhodopensis(Gesneriaceae) Has an Oligocene Origin and a Pleistocene Diversification and Occurs in a Long-Persisting Refugial Area in Southeastern Europe
31. Metabolic profiling of the resurrection plant Haberlea rhodopensis during desiccation and recovery
32. Extracts of the endemic resurrection plant Haberlea rhodopensis stimulate in vitro growth of various Phytophthora spp. pathogens
33. Morphological variation, genetic diversity and genome size of critically endangered Haberlea (Gesneriaceae) populations in Bulgaria do not support the recognition of two different species
34. The Mediterranean: a cradle of the resurrection plants in Europe.
35. Haberlea Rhodopensishas Potential as a New Drug Source Based on its Broad Biological Modalities
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