Plant Small RNA: Biogenesis, Regulation and Application
Editat de Praveen Guleria, Vineet Kumaren Limba Engleză Paperback – 18 feb 2020
- Presents foundational information about small RNA biology and regulation in plants
- Includes small RNA pathway advances
- Describes the application and scope of small RNA technology for agricultural stability
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Specificații
ISBN-13: 9780128171127
ISBN-10: 012817112X
Pagini: 635
Ilustrații: 148 illustrations (93 in full color)
Dimensiuni: 191 x 235 mm
Editura: ELSEVIER SCIENCE
ISBN-10: 012817112X
Pagini: 635
Ilustrații: 148 illustrations (93 in full color)
Dimensiuni: 191 x 235 mm
Editura: ELSEVIER SCIENCE
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Public țintă
Researchers, academics and advanced students seeking to understand the detailed concept of small RNA biogenesis and their role in plant growth and developmentCuprins
Section 1 Basics
1. Introduction to plant small RNAs
2. Diversity and types of small RNA
3.Biogenesis of small RNA: Molecular pathways and regulatory mechanisms
4. Transcriptome-based identification of small RNA in plants: The need for robust prediction algorithms
SECTION 2 Expression and regulation mechanism of small RNA
5. Role of RNA interference in seed germination
6. Importance of small RNA in plant seed germination
7. Importance of small RNA in plant metabolism
8. Small RNA in tolerating various biotic stresses
9. Role of small RNA in regulating plant viral pathogenesis
10. Salt stress tolerance and small RNA
11. Small RNAs and cold stress tolerance
12. Toward elucidating the functions of miRNAs in drought stress tolerance
13. Regulation of photosynthesis and vegetative growth of plants by small RNAs
14. Heat stress tolerance through small RNA
15. Role of small RNA in plant interaction with microbes
16. Plant growth regulation by small RNA-mediated plant-biotic interactions
17. Small RNA and DNA methylation in plants
SECTION 3 Application of small RNA
18. Small RNA manipulation in plants:
Techniques and recent developments
19. MicroRNA-mediated regularity functions under salinity stress in plants
20. Biotic stress-tolerant plants through small RNA technology
21. Application of miRNA in fruit quality improvement
22. Physiological modification of plants through small RNA
23. Small RNA technology for plant abiotic stress tolerance
SECTION 4 Future scope
24. Challenges of small RNA technology
25. Future scope of small RNA technology in crop science
Index
1. Introduction to plant small RNAs
2. Diversity and types of small RNA
3.Biogenesis of small RNA: Molecular pathways and regulatory mechanisms
4. Transcriptome-based identification of small RNA in plants: The need for robust prediction algorithms
SECTION 2 Expression and regulation mechanism of small RNA
5. Role of RNA interference in seed germination
6. Importance of small RNA in plant seed germination
7. Importance of small RNA in plant metabolism
8. Small RNA in tolerating various biotic stresses
9. Role of small RNA in regulating plant viral pathogenesis
10. Salt stress tolerance and small RNA
11. Small RNAs and cold stress tolerance
12. Toward elucidating the functions of miRNAs in drought stress tolerance
13. Regulation of photosynthesis and vegetative growth of plants by small RNAs
14. Heat stress tolerance through small RNA
15. Role of small RNA in plant interaction with microbes
16. Plant growth regulation by small RNA-mediated plant-biotic interactions
17. Small RNA and DNA methylation in plants
SECTION 3 Application of small RNA
18. Small RNA manipulation in plants:
Techniques and recent developments
19. MicroRNA-mediated regularity functions under salinity stress in plants
20. Biotic stress-tolerant plants through small RNA technology
21. Application of miRNA in fruit quality improvement
22. Physiological modification of plants through small RNA
23. Small RNA technology for plant abiotic stress tolerance
SECTION 4 Future scope
24. Challenges of small RNA technology
25. Future scope of small RNA technology in crop science
Index