Crop Improvement

1. Front Matter

   Pages i-xviii

   PDF

2. RNA-seq Analysis in Plant–Fungus Interactions

   • Ho Chai-Ling, Wai-Yan Yee

   Pages 1-25

3. Study of Oil Palm Photosynthesis Using Omics Technologies

   • Bee Keat Neoh, Huey Fang Teh, Yick Ching Wong, Tony Eng Keong Ooi, See Siang Cheah, David R. Appleton

   Pages 27-46

4. Molecular Marker Technology for Genetic Improvement of Underutilised Crops

   • Acga Cheng, Hui Hui Chai, Wai Kuan Ho, Aliyu Siise Abdullah Bamba, Aryo Feldman, Presidor Kendabie et al.

   Pages 47-70

5. Transcription Factors Associated with Abiotic Stress and Fruit Development in Oil Palm

   • Siti Nor Akmar Abdullah, Azzreena Mohamad Azzeme, Mortaza Ebrahimi, Engku Ahmad Khairi Engku Ariff, Farah Hanan Abu Hanifiah

   Pages 71-99

6. Sensing Crop Diseases

   • Thangavel Lakshmipriya, Subash C. B. Gopinath, Uda Hashim

   Pages 101-115

7. Development of Genomic Resources and Assessing Their Potential for Accelerated Acacia Breeding

   • Wikneswari Ratnam, Chee Yen Choong, Muhammad Asif Javed

   Pages 117-135

8. Engineering of Secondary Metabolites in Tissue and Cell Culture of Medicinal Plants: An Alternative to Produce Beneficial Compounds Using Bioreactor Technologies

   • Mortaza Ebrahimi, Arash Mokhtari

   Pages 137-167

9. Bioreactor Technology for Sustainable Production of Valuable Plant Metabolites: Challenges and Advances

   • Morteza Khanahmadi, Kee Yoep Paek

   Pages 169-189

10. Cisgenesis and Intragenesis as New Strategies for Crop Improvement

    • Mahdi Moradpour, Siti Nor Akmar Abdullah

    Pages 191-216

11. Use of dsRNA in Crop Improvement

    • Lau Su Ee, Purabi Mazumdar, Pooja Singh, Jennifer Ann Harikrishna

    Pages 217-252

12. Alternative Strategy in Crop Protection: Protease Inhibitors from Turmeric

    • Chan Seow-Neng, Norliza Abu Bakar, Maziah Mahmood, Ho Chai-Ling, Noor Azmi Shaharuddin

    Pages 253-270

13. Sustainable Supply Chains: Utilisation of Whole Crops for New Product Development

    • Rebecca Smith

    Pages 271-286

14. Food Losses in Rice Milling

    • Ye Aung

    Pages 287-303

15. Elicitors and Their Roles in Plant Defence Against Pathogens Particularly Basidiomycetes

    • Sathyapriya Hamid, Mui-Yun Wong

    Pages 305-334

16. Induction of Systemic Resistance for Disease Suppression

    • Kalaivani K. Nadarajah

    Pages 335-357

17. Tools and Targeted Genes for Plant Disease Detection

    • Umaiyal Munusamy, Siti Nor Akmar Abdullah

    Pages 359-379

18. Back Matter

    Pages 381-388

    PDF

The book covers the latest development in the biosciences field covering key topics in crop improvement including ‘omic approaches to improving sustainable crop production, advancement in marker technology, strategies in genetic manipulation, crop quality and sustainability and plant microbe interaction detailing on proven technologies to address critical issue for agricultural sustainability which are beneficial for researchers and students. The book also includes aspects of preserving crops after harvest as this is a key factor in promoting sustainable crop quality in terms of addressing waste, choosing the appropriate packaging and moving crops through the food and industrial supply chain. 

An important strategy to overcome the challenges in providing food for the world population in a sustainable manner is through concerted efforts by crop scientists to embrace new technologies in increasing yield, quality and improving food safety while minimizing adverse environmental impact of the agricultural activities.  Most of the proven molecular and genetic technologies in crop science have been tested and verified in model plants such as Arabidopsis and tomato. The technologies, when deployed on various plant species of importance for human nutrition and industrial applications, including cereals, vegetables, fruits, herbs, fibre and oil crops, face many challenges, not only due to their longer life cycle but many other physiological and environmental factors affecting yield and quality of plant products. Furthermore, major impacts on crop production due to catastrophic diseases and global climate change needs urgent and innovative solutions.  Therefore a systematic approach, employing various leading-edge technologies that enable the functional elucidation of key pathway genes via ‘omics tools, genome wide association with desired phenotypes and development of cost effective and practicable molecular tools for selection, is vital. The International Conference on Crop Improvement was held to address these and other pressing issues.  This volume summarizes the keynote presentations from the meeting and highlights addition discussions that are critical to crop improvement in a challenging time.
 

• Food Crop
• Genetic Manipulation
• Plant Microbe Interaction
• Marker Technology
• Sustainability

• Institute of Plantation Studies, Universiti Putra Malaysia, Serdang, Malaysia

  Siti Nor Akmar Abdullah, Ho Chai-Ling

• Food and Nutritional Sciences, University of Reading Food and Nutritional Sciences, Reading, United Kingdom

  Carol Wagstaff

Siti Nor Akmar Abdullah is currently the Director of the Institute of Plantation Studies and a Professor in Plant Molecular Biology at the Faculty of Agriculture, Universiti Putra Malaysia (UPM). Her current research focuses on functional genomics as well as genetic manipulation and biomarker technology for yield and oil quality improvement, enhancing nutrient uptake and disease tolerance in oil palm. She has led several research projects at the national level and secured research grants from oil palm industry members. She has more than eighty papers in citation-indexed journals and 5 granted patents on oil palm genetic manipulation tools and molecular disease diagnosis. Twenty-five PhD students have graduated under her as the main or co-supervisor. She has delivered several talks as an invited speaker in various countries like Australia, China, India and Indonesia and also served as a reviewer for many international peer-reviewed journals. She has led national and international conferences and workshops on plant biotechnology and molecular biology in collaboration with Wageningen University, University of Reading and the University of Nottingham. She has established an internationally certified core research facility for functional genomics and genetic engineering in UPM.

Ho Chai Ling is a Professor in Plant Molecular Biology at the Faculty of Biotechnology and Biomolecular Sciences, Universiti Putra Malaysia (UPM). She is also a research associate at the Institute of Plantation Studies, UPM. She obtained her PhD from Chiba University, Japan, unravelling the molecular biology of the phosphorylated serine biosynthetic pathway. She was the recipient of several schloraship/fellowships including the MONBUSHO Scholarship and Fulbright Visiting Scholarship. Her current research interests include molecular interactions of oil palm and Ganoderma, transcriptional regulation of rice grain filling process and molecular characterization of transcriptsrelated to seaweed agar biosynthesis. Dr. Ho has published more than 100 papers in citation-indexed journals including Trends in Plant Sciences, Plant Journal, Journal of Biological Chemistry and BMC Genomics. She has supervised six PhD and twenty M.Sc. students. Dr. Ho has served as accessor for many grant applications, and reviewer for many international peer-reviewed journals. She also serves in the organising committee of several national and international conferences and workshops on plant biotechnology, phycology, functional genomics and structural biology.

Carol Wagstaff is presently Professor of Crop Quality for Health in the Department of Food and Nutritional Sciences at the University of Reading and is the Director of The AgriFood Training Partnership. Her research team works on a range of projects spanning the fresh produce supply chain with the overall aim of improving nutrition, flavour and shelf life of fruit and vegetable crops, thereby encouraging consumption of a healthy diet and reducing waste. The research group is best known for its expertise in combining metabolite profiling with a genetic approach to crop improvement, but also has projects based in agronomy, supply chain modelling, innovative processing design and molecular regulation. Funding is currently from BBSRC, Innovate UK, international government schemes and a significant portion is from industry partners who represent crop breeders and processors.

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