Genome Engineering for Crop Improvement

In recent years, significant advancements have been made in the management of nutritional deficiency using genome engineering—enriching the nutritional properties of agricultural and horticultural crop plants such as wheat, rice, potatoes, grapes, and bananas. To meet the demands of the rapidly growing world population, researchers are developing a range of new genome engineering tools and strategies, from increasing the nutraceuticals in cereals and fruits, to decreasing the anti-nutrients in crop plants to improve the bioavailability of minerals and vitamins.

Genome Engineering for Crop Improvement provides an up-to-date view of the use of genome editing for crop bio-fortification, improved bioavailability of minerals and nutrients, and enhanced hypo-allergenicity and hypo-immunogenicity. This volume examines a diversity of important topics including mineral and nutrient localization, metabolic engineering of carotenoids and flavonoids, genome engineering of zero calorie potatoes and allergen-free grains, engineering for stress resistance in crop plants, and more. Helping readers deepen their knowledge of the application of genome engineering in crop improvement, this book:

• Presents genetic engineering methods for developing edible oil crops, mineral translocation in grains, increased flavonoids in tomatoes, and cereals with enriched iron bioavailability
• Describes current genome engineering methods and the distribution of nutritional and mineral composition in important crop plants
• Offers perspectives on emerging technologies and the future of genome engineering in agriculture

Genome Engineering for Crop Improvement is an essential resource for academics, scientists, researchers, agriculturalists, and students of plant molecular biology, system biology, plant biotechnology, and functional genomics.

SANTOSH KUMAR UPADHYAY is an Assistant Professor at the Department of Botany, Panjab University, Chandigarh, India. His present research focuses in the area of functional genomics, particularly the characterization of defense and development related genes in bread wheat.

1 An overview of genome engineering methods

2 Distribution of nutritional and mineral components in important crop plants

3 Application of genome engineering methods for quality improvement in important crops

4 Genome engineering for enriching Fe and Zn in rice grain and increasing micronutrient bioavailability

5 Development of carotenoids rich grains by genome engineering

6 CRISPR-Cas9 System for Agriculture crop Improvement

7 Contribution of crop biofortification in mitigating vitamin deficiency globally

8 Genome editing approaches for trait improvement in the hairy root cultures of the economically important plants

9 Phytic acid reduction in cereal grains by genome engineering: Potential targets to achieve low phytate wheat

10 Genome engineering for nutritional improvement in pulses

11 The survey of genetic engineering approaches for oil/fatty acid content improvement in oilseed crops

12 Genome editing mediated improvement of biotic tolerance in crop plants

13 GENOME ENGINEERING AND ESSENTIAL MINERAL ENRICHMENT OF CROPS

14 Genome editing to develop disease resistance in crops

15 Biotechnological approaches for nutritional improvement in Potato (Solanum tuberosum L)

16 Genome engineering strategies for quality improvement in tomato

17 Genome Engineering for Biofortification in Rice: Current Implications and Future Aspects

18 Genome editing for improving abiotic stress tolerance in rice

19 Role of genome engineering for the development of resistant starch-rich, allergen-free and processing quality improved cereal crops

20 Engineering of Plant Metabolic Pathway for Nutritional Improvement: Recent Advances and Challenges

21 Genome engineering for food security

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