Biotechnology, Multiple Omics, and Precision Breeding in Medicinal Plants
eBook - ePub

Biotechnology, Multiple Omics, and Precision Breeding in Medicinal Plants

  1. 504 pages
  2. English
  3. ePUB (mobile friendly)
  4. Available on iOS & Android
eBook - ePub

Biotechnology, Multiple Omics, and Precision Breeding in Medicinal Plants

About this book

Biotechnology, Multiple Omics, and Precision Breeding in Medicinal Plants explores the various methods for advancing medicinal plant research. It covers a wide range of approaches, including integrated and advanced plant biotechnology, mutagenesis, nanotechnology, genome-wide association studies, multiple omics tools, and high-throughput technologies. The book highlights the significant impact of combining pan-genomics with metabolomics in medicinal plant research, particularly in understanding how genetic diversity influences the profiles of secondary metabolites and the therapeutic potential of these plants.

FEATURES:

  • Explores ways to improve the production of secondary metabolites and bioactive compounds in key medicinal plants
  • Features information on bioinformatics, artificial intelligence models, molecular markers, and genome editing techniques such as CRISPR-assisted precision breeding
  • Promotes specific prebiotic formulas to ward off adverse effects of antibiotics
  • Covers information on epigenetic regulation in boosting secondary metabolite production and the use of speed breeding combined with high-throughput technologies

Proposing a multitude of technologies and methodologies in plant biotechnology with focus on enhancing the production of secondary metabolites and bioactive compounds from medicinal plants, this book is an ideal resource for researchers and academia in plant sciences/breeding, agriculture, and horticulture industries.

Frequently asked questions

Yes, you can cancel anytime from the Subscription tab in your account settings on the Perlego website. Your subscription will stay active until the end of your current billing period. Learn how to cancel your subscription.
At the moment all of our mobile-responsive ePub books are available to download via the app. Most of our PDFs are also available to download and we're working on making the final remaining ones downloadable now. Learn more here.
Perlego offers two plans: Essential and Complete
  • Essential is ideal for learners and professionals who enjoy exploring a wide range of subjects. Access the Essential Library with 800,000+ trusted titles and best-sellers across business, personal growth, and the humanities. Includes unlimited reading time and Standard Read Aloud voice.
  • Complete: Perfect for advanced learners and researchers needing full, unrestricted access. Unlock 1.4M+ books across hundreds of subjects, including academic and specialized titles. The Complete Plan also includes advanced features like Premium Read Aloud and Research Assistant.
Both plans are available with monthly, semester, or annual billing cycles.
We are an online textbook subscription service, where you can get access to an entire online library for less than the price of a single book per month. With over 1 million books across 1000+ topics, we’ve got you covered! Learn more here.
Look out for the read-aloud symbol on your next book to see if you can listen to it. The read-aloud tool reads text aloud for you, highlighting the text as it is being read. You can pause it, speed it up and slow it down. Learn more here.
Yes! You can use the Perlego app on both iOS or Android devices to read anytime, anywhere — even offline. Perfect for commutes or when you’re on the go.
Please note we cannot support devices running on iOS 13 and Android 7 or earlier. Learn more about using the app.
Yes, you can access Biotechnology, Multiple Omics, and Precision Breeding in Medicinal Plants by Jen-Tsung Chen in PDF and/or ePUB format, as well as other popular books in Biological Sciences & Medical Theory, Practice & Reference. We have over one million books available in our catalogue for you to explore.

Table of contents

  1. Cover
  2. Half Title
  3. Title
  4. Copyright
  5. Contents
  6. About the Editor
  7. List of Contributors
  8. Preface
  9. Chapter 1 Breeding Strategies for Stress-Tolerant and Climate-Smart Medicinal Plants
  10. Chapter 2 Speed Breeding Technology for Enhanced Production of Secondary Metabolites in Medicinal Plants
  11. Chapter 3 Strategies for Precision Breeding of Medicinal Plants for Enhanced Secondary Metabolite Production
  12. Chapter 4 Advances in Medicinal Plant Metabolomics and Future Directions
  13. Chapter 5 The Application of Epigenetics in Medicinal Plants
  14. Chapter 6 Pangenomes and Pangenomics in Medicinal Plants
  15. Chapter 7 Advances in CRISPR-Based Approaches in Medicinal Plants
  16. Chapter 8 Enhanced Secondary Metabolite Production by Genome Editing in Medicinal Plants
  17. Chapter 9 Mutagenesis for Enhanced Secondary Metabolites Production in Medicinal Plants
  18. Chapter 10 GWAS Approaches in Medicinal Plants for Enhanced Secondary Metabolite Production
  19. Chapter 11 Advancements in Medicinal Plant Research: Harnessing Artificial Intelligence, Machine Learning, Deep Learning, and Bioinformatics
  20. Chapter 12 Genetic Engineering of Medicinal Plants for Enhanced Secondary Metabolite Production
  21. Chapter 13 Molecular Marker-Assisted Breeding in Medicinal Plants for Enhanced Secondary Metabolites Production
  22. Chapter 14 Bioinformatics Tools for Research on Plant Secondary Metabolites
  23. Chapter 15 Network Pharmacology for Exploring Key Genes and Signaling Networks in Plant Secondary Metabolites
  24. Chapter 16 Nanomaterials for Enhanced Plant Secondary Metabolite Production
  25. Chapter 17 Integrated Molecular Strategies for Improving Traditional Chinese Medicinal Plants
  26. Chapter 18 Integration of Omics and High-Throughput Technologies for Enhancing Plant Secondary Metabolites: A Comprehensive Overview
  27. Chapter 19 Advances in Medicinal Plant Biotechnology and Future Directions
  28. Chapter 20 Integrated Molecular Strategies for Enhanced Production of Anti-Cancer Compounds from Medicinal Plants
  29. Chapter 21 Improved Production of Anti-Cancer Compounds From Medicinal Plants Through Molecular and Biotechnological Mutagenesis Strategies
  30. Chapter 22 Integrated Molecular Strategies for Enhanced Production of Medicinal Plant-Derived Alkaloids
  31. Chapter 23 Integrated Molecular Strategies for Enhanced Production of Medicinal Plant-Derived Flavonoids
  32. Chapter 24 Integrated Molecular Strategies for Enhanced Production of Terpenes, Terpenoids, and Essential Oils from Medicinal Plants
  33. Chapter 25 Advanced Systems and Bioreactors for Large-Scale Secondary Metabolite Production in Medicinal Plants
  34. Chapter 26 Unlocking Medicinal Benefits and Augmenting Secondary Metabolite Synthesis in Cultivated and Wild Legumes
  35. Chapter 27 Genetic Engineering and Genome Remodeling for Enhanced Production of Therapeutic Terpenes and Essential Oils of Lamiaceae
  36. Chapter 28 Integrated Molecular Strategies for Enhanced Production of Anti-Cancer Compounds from Abutilon hirtum (Lam.) Sweet (Malvaceae)
  37. Chapter 29 Network Pharmacology of Ginseng: Modern Insights of a Traditional Medicine
  38. Chapter 30 Occurrence, Functional Properties of Plant Vitamins and Biotechnological Approaches for Their Improved Production
  39. Chapter 31 Designer Medicinal and Aromatic Crops: Development and Characterization of Improved Bioactive Molecules for Viral Diseases
  40. Chapter 32 Roles of Polyploidy in the Metabolic and Genetic Improvement of Medicinal Plants
  41. Index