Plant Pangenomes and Pangenomics summarizes the current state of plant pangenomes and pangenomics as applied in a wide range of plant biology involving the subtopics of genome evolution, phenotypic evolution, population genetics, and evolutionary developmental biology. Explaining the resources and technologies of pangenomics with plant functional genomics, the book also presents precision molecular breeding of crops to produce improved stress-tolerance and climate-smart capacities in an attempt to improve growth, development, enhanced production, and quality. It covers key critical stressors, including temperature, salt, drought, pollutants, pests, fungi, bacteria, and viruses.This book is an complete guide for students, researchers, experts, and professors with its discussions on all aspects of pangenomes and pangenomics, from fundamental and advanced tools and current applications in the plant sciences to plant functional genomics, plant stress physiology, plant biotechnology, plant pathology, and plant breeding.
- Focuses on advanced tools and recent applications of plant pangenomes and pangenomics and their integration with functional genomics
- Summarizes current achievements of plant pangenomics in stress physiology and an array of major research fields
- Provides the findings of pangenomics in plant evolutionary developmental biology
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ISBN-13
978-0-443-26792-5 (9780443267925)
Schweitzer Klassifikation
1. Plant pangenomes and pangenomics: Current achievements and future directions2. Technological development for analyzing and constructing plant pangenomes3. Bioinformatics tools for plant pangenomics: Analysis, assembly and visualization4. Pangenomics for crop improvement on yield and quality5. Pangenomics for accelerating crop breeding6. Super-pangenomes in plants: Progress and future perspectives7. The impact of whole genome duplication on plant pangenomes8. Pangenomics for combating plant abiotic stress9. Pangenomics for combating plant diseases10. Pangenomics for developing future climate-smart crops11. Pangenomics for developing heat stress-tolerant plants12. Pangenomics for developing cold stress-tolerant plants13. Pangenomics for developing drought stress-tolerant plants14. Pangenomics for developing salinity stress-tolerant plants15. Pangenomics for developing heavy metal stress-tolerant plants16. Pangenomics for developing bacterial disease-resistant plants17. Pangenomics for developing viral disease-resistant plants18. Pangenomics for developing fungal disease-resistant plants19. Pangenomics for developing pest-resistant plants20. Pangenomics for studying plant-microbe interactions21. Pangenomics for plant evolutionary developmental biology22. Pangenomics for studying plant population genetics23. Pangenomics for studying plant genome evolution24. Pangenomics for studying plant phenotypic evolution25. Pangenomics for studying plant secondary metabolism26. Structural variants in plant pangenomes: Current findings and applications27. Plant pangenome graphs: Methods and applications28. Pangenomics for plant growth-promoting microorganisms29. The integration of pangenomics with plant functional and comparative genomics30. Advances in telomere-to-telomere plant genomes31. Applied Pangenomes in Agriculture and Plant Biology
