Stress Combinations and their Interactions in Plants (SCIP) Database
Team Members
E-mail
:
skmuthappa@nipgr.ac.in
National Institute of Plant Genome Research (NIPGR)
New Delhi, India
Scientist
National Institute of Plant Genome Research (NIPGR)
New Delhi, India
- 1. How much do we know about the threat of combined stresses in Indian agriculture? COMMENT
- 2. Low soil moisture predisposes field-grown chickpea plants to dry root rot disease: evidence from simulation modeling and correlation analysis
- 3. CaProDH2-mediated modulation of proline metabolism confers tolerance to Ascochyta in chickpea under drought
- 4. Role of Plant Kinases in Combined Stress
- 5. An efficient, highâthroughput method for the simultaneous exposure of drought stress and bacterial infection in plants
- 6. ath-miR164c influences plant responses to the combined stress of drought and bacterial infection by regulating proline metabolism
- 7.Plant-pathogen interaction in the presence of abiotic stress: What do we know about plant responses?
- 8. AtGBF3 confers tolerance to Arabidopsis thaliana against combined drought and Pseudomonas syringae stress
- 9. Biological Mechanisms of Plant Interactions With a Combination of Biotic and Abiotic Stresses
- 10. Impact of drought stress on simultaneously occurring pathogen infection in field-grown chickpea
- 11. Cross-talk signaling in rice during combined drought and bacterial blight stress
- 12. Current understanding of regulation of GBF3 under abiotic and biotic stresses and its potential role in combined stress tolerance
- 13. Morpho-physiological traits and molecular intricacies associated with tolerance to combined drought and pathogen stress in plants
- 14. Transcriptome changes in Arabidopsis thaliana infected with Pseudomonas syringae during drought recovery
- 15. Transcriptomic changes under combined drought and nonhost bacteria reveal novel and robust defenses in Arabidopsis thaliana
- 16. Global profiling of phytohormone dynamics during combined drought and pathogen stress in Arabidopsis thaliana reveals ABA and JA as major regulators
- 17. Impact of combined abiotic and biotic stresses on plant growth and avenues for crop improvement by exploiting physio-morphological traits
- 18. Concurrent drought stress and vascular pathogen infection induce common and distinct transcriptomic responses in chickpea
- 19. Plant tolerance to individual and concurrent stresses
- 20. Concurrent Stresses Are Perceived as New State of Stress by the Plants: Overview of Impact of Abiotic and Biotic Stress Combinations
- 21. Plant responses to combined drought and pathogen infection: current understanding on the role of phytohormones
- 22. Understanding the impact of drought on foliar and xylem invading bacterial pathogen stress in chickpea
- 23. Transcriptome analysis of sunflower genotypes with contrasting oxidative stress tolerance reveals individual-and combined-biotic and abiotic stress tolerance mechanisms
- 24. Drought stress predominantly endures Arabidopsis thaliana to Pseudomonas syringae infection
- 25. Global transcriptional analysis reveals unique and shared responses in Arabidopsis thaliana exposed to combined drought and pathogen stress
- 26. Tailored responses to simultaneous drought stress and pathogen infection in plants
- 27. Shared and unique responses of plants to multiple individual stresses and stress combinations: physiological and molecular mechanisms
- 28. The interactive effects of simultaneous biotic and abiotic stresses on plants: mechanistic understanding from drought and pathogen combination
- 29. Impact of concurrent drought stress and pathogen infection on plants
- 30. Drought stress acclimation imparts tolerance to Sclerotinia sclerotiorum and Pseudomonas syringae in Nicotiana benthamiana
CSIR-Senior Research Associate (Scientist-Pool)
NIPGR
CSIR-Senior Research Associate (Scientist-Pool)
NIPGR
Research associate III
NIPGR
Senior Research Fellow
NIPGR
Project Associate I
NIPGR
Senior Research Fellow
NIPGR