Transcription Factors for Biotic Stress Tolerance in Plants
Transcription Factors for Biotic Stress Tolerance in Plants [E-Book]
- 1st ed. 2022.
- VIII, 247 p. 26 illus., 25 illus. in color. online resource.
1. Targeted genome editing techniques in plant defense regulation -- 2. Synthetic promoters in regulating disease gene expression -- 3. Transcription factors associated with defense response against fungal biotrophs -- 4. Transcription factors associated with defense response against fungal necrotrophs -- 5. Transcription factors associated with defense response against viruses -- 6. Role of microbial bio-agents as elicitors in plant defense regulation -- 7. Transcriptional Factors Response under Biotic Stress in Wheat -- 8. Potential Transcription Factors for Biotic Stress Tolerance in Sugarcane -- 9. Role of transcription factors in response to biotic stresses in Maize -- 10. Role of transcription factors in response to biotic stresses in Pearl millet -- 11. Role of transcription factors in response to biotic stresses in Tomato -- 12. Role of transcription factors in response to biotic stresses in potato (Solanum tuberosum L.).
With the erratic changes in climate, crop plants are facing many forms of biotic stresses. When plants are under stress, among several gene families, regulatory genes play a vital role in signal transduction in modulating the expression of genes underpinning several defense pathways and targeting regulatory proteins (viz, transcription factors (TFs)) can be the alternative. Transcription factors directly regulate the downstream R genes and are excellent candidates for disease resistance breeding. Till date, numerous transcription factors have been identified and characterized structurally and functionally. Of them, TF families such as WRKY, NAC, Whirly, Apetala2 (AP2), ethylene responsive elements (ERF) etc. are found to be associated with transcriptional reprogramming of plant defense response. These TFs are responsive to the pathogen's PAMPs/DAMPs - host's PRR protein interactions and specifically binds to the cis-elements of defense genes and regulate their expression. With this background, realizing the importance of TFs in resistance breeding, this book discusses the recent research and developments in this field for various crops.
9783031129902
10.1007/978-3-031-12990-2 doi
Stress (Physiology).
Plants.
Molecular biology.
Agriculture.
Biotechnology.
Plant Stress Responses.
Molecular Biology.
Agriculture.
Biotechnology.
Plant Signalling.
1. Targeted genome editing techniques in plant defense regulation -- 2. Synthetic promoters in regulating disease gene expression -- 3. Transcription factors associated with defense response against fungal biotrophs -- 4. Transcription factors associated with defense response against fungal necrotrophs -- 5. Transcription factors associated with defense response against viruses -- 6. Role of microbial bio-agents as elicitors in plant defense regulation -- 7. Transcriptional Factors Response under Biotic Stress in Wheat -- 8. Potential Transcription Factors for Biotic Stress Tolerance in Sugarcane -- 9. Role of transcription factors in response to biotic stresses in Maize -- 10. Role of transcription factors in response to biotic stresses in Pearl millet -- 11. Role of transcription factors in response to biotic stresses in Tomato -- 12. Role of transcription factors in response to biotic stresses in potato (Solanum tuberosum L.).
With the erratic changes in climate, crop plants are facing many forms of biotic stresses. When plants are under stress, among several gene families, regulatory genes play a vital role in signal transduction in modulating the expression of genes underpinning several defense pathways and targeting regulatory proteins (viz, transcription factors (TFs)) can be the alternative. Transcription factors directly regulate the downstream R genes and are excellent candidates for disease resistance breeding. Till date, numerous transcription factors have been identified and characterized structurally and functionally. Of them, TF families such as WRKY, NAC, Whirly, Apetala2 (AP2), ethylene responsive elements (ERF) etc. are found to be associated with transcriptional reprogramming of plant defense response. These TFs are responsive to the pathogen's PAMPs/DAMPs - host's PRR protein interactions and specifically binds to the cis-elements of defense genes and regulate their expression. With this background, realizing the importance of TFs in resistance breeding, this book discusses the recent research and developments in this field for various crops.
9783031129902
10.1007/978-3-031-12990-2 doi
Stress (Physiology).
Plants.
Molecular biology.
Agriculture.
Biotechnology.
Plant Stress Responses.
Molecular Biology.
Agriculture.
Biotechnology.
Plant Signalling.
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