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Plant Stress Tolerance
Plant Stress Tolerance: Molecular Mechanisms and Breeding Strategies, Volume One provides effective ways for organizing precision and sustainable agriculture. Plant Stress Tolerance: Molecular Mechanisms and Breeding Strategies, Volume Two explores methods of precise management of biotic stressors including pests and pathogens.
CRISPR and Plant Functional Genomics
CRISPR is a crucial technology in plant physiology and molecular biology resulting in more sustainable agricultural practices, including outcomes of better plant stress tolerance and crop improvement. CRISPR and Plant Functional Genomics explores ways to release the potential of plant functional genomics, one of the prevailing topics in plant biology and a critical technology for speed and precision crop breeding. This book presents achievements in plant functional genomics and features information on diverse applications using the emerging CRISPR-based genome editing technologies producing high-yield, disease-resistant, and climate-smart crops. It also includes theories on organizing strate...
Deep Learning in Plant Science and Agricultural Biotechnology
This book introduces the fundamentals of deep learning models and their current applications in a diverse range of subtopics in plant sciences and agriculture. Areas covered include: functional genomics, multiple omics, stress physiology, plant disease diagnosis, plant-microbe interactions, and high-throughput technologies (phenotyping and synthetic biology). Deep-learning models are also being used in developing pest and weed control strategies, the use of unmanned aerial vehicles in agriculture, greenhouse management and strategies for stress-smart and sustainable precision agriculture. This book offers an ideal reference for readers in a range of research fields in plant biology, plant pathology, and agricultural crop sciences. It is designed to be an inspiration for new ideas and future experiments to advance the progress of stress-smart and sustainable agriculture.
Guide to Plant Single-Cell Technology
Guide to Plant Single-Cell Technology: Functional Genomics and Crop Improvement summarizes the current status of single-cell technology in plants involving food and energy crops. Presenting methods and applications of emerging high-throughput technologies performed using the single-cell platform it includes an emphasis on single-cell RNA sequencing and eventually towards single-cell omics, which are highly complementary and effective for profiling the plant cell subject to either environmental factors or pathogenic threats. These technologies can advance the exploration of plant physiology as well as precision crop breeding for future anti-stress and high-yield plants and achieve sustainable...
Plant and Nanoparticles
This book explores the interactions between nanomaterials/nanoparticles and plants and unveils potential applications. The chapters emphasize the implications of nanoparticles in cross-discipline approaches, including agricultural science, plant physiology, plant biotechnology, material science, environmental science, food chemistry, biomedical science, etc. It presents recent advances in experimental and theoretical studies and gives in-depth insights into the interaction between nanoparticles and plant cells. In addition, it discusses the potential applications and concerns of nanoparticles comprehensively. The research field of plant nanotechnology has great potential within plant science...
Biotechnology, Multiple Omics, and Precision Breeding in Medicinal Plants
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 b...
Plant Speed Breeding and High-throughput Technologies
"The emerging research field of "plant speed breeding" is promising to meet the future demand for crop improvement in an efficient and effective manner. The process accelerates breeding and research programs through the shortening of the generation time of crops. This book integrates achievements of plant speed breeding technologies with an emphasis on the fundamental and advanced systems for genome editing, functional genomics, controlled-environment growth chambers, genomic and phenotypic selection methods, and high-throughput technologies and the applications in significant crops, such as Arabidopsis, rice, wheat, maize, and soybean. This book is an ideal reference on plant speed breeding technologies for graduate students, teachers, researchers, and experts in the field of plant sciences, plant breeding as well as agronomy and agriculture"--
Drug Discovery and Antiaging Approaches for Human Longevity
For years, antiaging biology and genetics have been advanced through approaches of molecular biology, particularly the technologies of high-throughput multiple omics, AI- and accelerated-computational biology, and RNA-based tools, such as epigenetic regulation and CRISPR technology. It has led to dramatic progress in drug discovery and the development of antiaging medicines and medical strategies. The field of research on lifespan-extending agents and their underlying molecular mechanisms remains minimal. Traditional herbal medicines, natural compounds, antioxidants, metabolites, kinase inhibitors, nuclear hormone receptors, and G protein-coupled receptor ligands, present promising medical s...
Plant Stress Tolerance
Plant Stress Tolerance: Molecular Mechanisms and Breeding Strategies, Volume Two explores methods of precise management of biotic stressors including pests and pathogens. This is based on advanced molecular technologies including mutagenesis, genetic engineering, genome-wide association study, marker-assisted selection, genomic selection, molecular marker-based platforms, functional genomics, multiple omics tools, high-throughput technologies, computational biology, epigenetic manipulation, and clustered regularly interspaced short palindromic repeats (CRISPR)-based genome editing. This book proposes strategies involving immunity-boosting through releasing genetic resources from naturally re...
Functional RNAs in Plants
Functional RNAs in Plants: Developing Climate-Resilient and Stress-Resistant Crops explores the role of various RNAs, including microRNAs, small interfering RNAs, long non-coding RNAs, circular RNAs, and CRISPR guide RNAs in plant stress responses. These RNAs are crucial for identifying, designing, and analyzing functional aspects that help plants withstand abiotic and biotic stressors under changing climate conditions. The book emphasizes advances in bioinformatics, multiple omics, and high-throughput technologies to understand better and use RNAs for improved agricultural production.The book comprehensively reviews the latest technical achievements and current agricultural applications, fo...
