This new 2-volume set explores new research and perspectives in genetic engineering, which enables the precise control of the genetic composition and gene expression of organism. This powerful technology can be used for environmental sustainability, food and nutritional security, medicinal advancement, and more. Genetic Engineering aims to provide a deep understanding of the many aspects of this emerging technology and its diverse applications. Genetic Engineering, Volume 1: Principles, Mechanism, and Expression covers genetic engineering concepts, molecular tools, and technologies utilized in the manipulation, amplification, and introgression of DNA. The volume explains the concepts of genetic engineering, enzymes of genetic engineering, and tools used in genetic engineering. It provides an introduction of recombinant DNA into host cells and discusses the linking of desired gene with DNA vector/gene cloning vector, polymerase chain reactions, the concept and nature of genes, blotting techniques, chromosome jumping, electrophoresis, genetically engineered microorganisms, and molecular markers and their applications. Genetic Engineering, Volume 2: Applications, Bioethics, and Biosafety expresses the various appreciation and challenges of genetic engineering and issues related to bioethics and biosafety. Chapters cover the legal issues of genetic engineering, including intellectual property rights (IPR) and protection (IPP) and the patenting of living organisms, copyrights, trade secrets, and trademarks. The volume considers the safety and benefits of genetic engineering in human welfare, such as in genetically engineered Bt and Bt cotton, along with the biohazards of recombinant DNA technology. Chapters explain genetically modified organisms and microorganisms, genetic engineering of horticultural crops, genetic engineering in the agricultural sciences, and more. This 2-volume book will be a valuable asset to upper-level students in cell biology as well as to faculty and researchers involved in genetics, molecular genetics, biochemistry, biotechnology, botany, zoology and agriculture sciences.

This two-volume book is a valuable resource to students, researchers, scientists, commercial producers, consultants and policymakers interested in agriculture or plant sciences particularly in date palm biotechnology. Date Palm Biotechnology Protocols, Volume 1: Tissue Culture and Applications is comprised of 27 chapters covering adventitious organogenesis, somatic embryogenesis, contamination, hyperhydricity, acclimatization, cell suspension, protoplast and bioreactors, genetic transformation secondary metabolites, and abiotic stress. Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Authoritative and practical, Date Palm Biotechnology Protocols, Volume 1: Tissue Culture and Applications aims to supplement the previous volume and to provide precise stepwise protocols in the field of date palm biotechnology.

This book provides up-to-date knowledge of the promising field of Nanobiotechnology with emphasis on the mitigation approaches to combat plant abiotic stress factors, including drought, salinity, waterlog, temperature extremes, mineral nutrients, and heavy metals. These factors adversely affect the growth as well as yield of crop plants worldwide, especially under the global climate change. Nanobiotechnology is viewed to revolutionize crop productivity in future. The chapters discuss the status and prospects of this cutting-edge technology toward understanding tolerance mechanisms, including signaling molecules and enzymes regulation in addition to the applications of Nanobiotechnology to combat individual abiotic stress factors.

This important reference book is the first comprehensive resource worldwide that reflects research achievements in date palm biotechnology, documenting research events during the last four decades, current status, and future outlook. This book is essential for researchers, policy makers, and commercial entrepreneurs concerned with date palm. The book is invaluable for date palm biotechnology students and specialists. This monument is written by an international team of experienced researchers from both academia and industry. It consists of five sections covering all aspects of date palm biotechnology including A) Micropropagation, B) Somaclonal Variation, Mutation and Selection, C) Germplasm Biodiversity and Conservation, D) Genetics and Genetic Improvement, and E) Metabolites and Industrial Biotechnology. The book brings together the principles and practices of contemporary date palm biotechnology. Each chapter contains background knowledge related to the topic, followed by a comprehensive literature review of research methodology and results including the authors own experience including illustrative tables and photographs."

This important 2-volume reference book is the first comprehensive resource reflecting the current global status and prospects of date palm cultivation by country. This volume covers Asia and Europe. The Asian countries included are: Iran, Saudi Arabia, Iraq, Pakistan, Oman, Yemen, Israel, Kuwait, Qatar, Bahrain, Syria, Palestine and India. Europe is represented by Spain. Topics discussed are: cultivation practices; genetic resources and breeding; conservation and germplasm banks; cultivar classification and identification based on morphological and molecular markers; micropropagation and progress toward scale-up production; and advances in dates processing and marketing. Chapters are supported by tables and color photographs. Appendixes summarize traits and distribution of major cultivars, commercial resources of offshoots and in vitro plants; and institutions and scientific societies concerned with date palm.

Provides a contemporary view of the impact of climate change on cultivation of various fruit species. Offers modern approaches for mitigating the adverse impact of climate change on fruits cultivation. Describes case studies, empirical experiments and observations emphasizing the research progress of understanding and combating the impact of climate change on fruits production. Illustrates presented concepts with relevant figures and tabulated data.

Provides a contemporary view of the impact of climate change on cultivation of various fruit species. Offers modern approaches for mitigating the adverse impact of climate change on fruits cultivation. Describes case studies, empirical experiments and observations emphasizing the research progress of understanding and combating the impact of climate change on fruits production. Illustrates concepts with relevant figures and tabulated data.

This book is the first volume of a comprehensive assemblage of contemporary knowledge relevant to genomics and other omics in date palm. Volume 1 consists of 11 chapters arranged in 3 parts grouped according to subject. Part I, Biology and Phylogeny, focuses on date palm biology, evolution and origin. Part II, Biodiversity and Molecular Identification, covers conformity of in vitro derived plants, molecular markers, barcoding, pollinizer genetics and gender determination. Part III, Genome Mapping and Bioinformatics, addresses genome mapping of nuclear, chloroplast and mitochondrial DNA, in addition to a chapter on progress made in date palm bioinformatics. This volume represents the efforts of 30 international scientists from 10 countries and contains 78 figures and 30 tables to illustrate presented concepts. Volume 2 is published under the title: Omics and Molecular Breeding.

This important 2-volume reference book is the first comprehensive resource reflecting the current global status and prospects of date palm cultivation by country. This volume covers Africa and the Americas. Countries included are: Egypt, Algeria, Sudan, Tunisia, Libya, Morocco, Mauritania, Niger, Cameroon, Djibouti, Chad, Mali Somalia, Ethiopia, Burkina Faso and Senegal, as well as the United States of America and the South American countries Chile and Peru. Topics discussed are: cultivation practices; genetic resources and breeding; conservation and germplasm banks; cultivar classification and identification based on morphological and molecular markers; micropropagation and progress toward scale-up production; and advances in dates processing and marketing. Chapters are supported by tables and color photographs. Appendixes summarize traits and distribution of major cultivars, commercial resources of offshoots and in vitro plants; and institutions and scientific societies concerned with date palm.

This new 2-volume set explores new research and perspectives in genetic engineering, which enables the precise control of the genetic composition and gene expression of organism. This powerful technology can be used for environmental sustainability, food and nutritional security, medicinal advancement, and more. Genetic Engineering aims to provide a deep understanding of the many aspects of this emerging technology and its diverse applications. Genetic Engineering, Volume 1: Principles, Mechanism, and Expression covers genetic engineering concepts, molecular tools, and technologies utilized in the manipulation, amplification, and introgression of DNA. The volume explains the concepts of genetic engineering, enzymes of genetic engineering, and tools used in genetic engineering. It provides an introduction of recombinant DNA into host cells and discusses the linking of desired gene with DNA vector/gene cloning vector, polymerase chain reactions, the concept and nature of genes, blotting techniques, chromosome jumping, electrophoresis, genetically engineered microorganisms, and molecular markers and their applications. Genetic Engineering, Volume 2: Applications, Bioethics, and Biosafety expresses the various appreciation and challenges of genetic engineering and issues related to bioethics and biosafety. Chapters cover the legal issues of genetic engineering, including intellectual property rights (IPR) and protection (IPP) and the patenting of living organisms, copyrights, trade secrets, and trademarks. The volume considers the safety and benefits of genetic engineering in human welfare, such as in genetically engineered Bt and Bt cotton, along with the biohazards of recombinant DNA technology. Chapters explain genetically modified organisms and microorganisms, genetic engineering of horticultural crops, genetic engineering in the agricultural sciences, and more. This 2-volume book will be a valuable asset to upper-level students in cell biology as well as to faculty and researchers involved in genetics, molecular genetics, biochemistry, biotechnology, botany, zoology and agriculture sciences.

This new 2-volume set explores new research and perspectives in genetic engineering, which enables the precise control of the genetic composition and gene expression of organism. This powerful technology can be used for environmental sustainability, food and nutritional security, medicinal advancement, and more. Genetic Engineering aims to provide a deep understanding of the many aspects of this emerging technology and its diverse applications. Genetic Engineering, Volume 1: Principles, Mechanism, and Expression covers genetic engineering concepts, molecular tools, and technologies utilized in the manipulation, amplification, and introgression of DNA. The volume explains the concepts of genetic engineering, enzymes of genetic engineering, and tools used in genetic engineering. It provides an introduction of recombinant DNA into host cells and discusses the linking of desired gene with DNA vector/gene cloning vector, polymerase chain reactions, the concept and nature of genes, blotting techniques, chromosome jumping, electrophoresis, genetically engineered microorganisms, and molecular markers and their applications. Genetic Engineering, Volume 2: Applications, Bioethics, and Biosafety expresses the various appreciation and challenges of genetic engineering and issues related to bioethics and biosafety. Chapters cover the legal issues of genetic engineering, including intellectual property rights (IPR) and protection (IPP) and the patenting of living organisms, copyrights, trade secrets, and trademarks. The volume considers the safety and benefits of genetic engineering in human welfare, such as in genetically engineered Bt and Bt cotton, along with the biohazards of recombinant DNA technology. Chapters explain genetically modified organisms and microorganisms, genetic engineering of horticultural crops, genetic engineering in the agricultural sciences, and more. This 2-volume book will be a valuable asset to upper-level students in cell biology as well as to faculty and researchers involved in genetics, molecular genetics, biochemistry, biotechnology, botany, zoology and agriculture sciences.

This two-volume book is a valuable resource to students, researchers, scientists, commercial producers, consultants and policymakers interested in agriculture or plant sciences particularly in date palm biotechnology. Chapters in Date Palm Biotechnology Protocols: Volume 2: Germplasm Conservation and Molecular Breeding guides readers through methods and protocols on germplasm in vitro conservation, molecular analysis of in vitro cultures, genetic diversity, cultivar identity, gender identification, genomics, and proteomics. Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Authoritative and practical, Date Palm Biotechnology Protocols: Volume 2: Germplasm Conservation and Molecular Breeding aims to supplement the previous volume and to provide precise stepwise protocols in the field of date palm biotechnology.

This book provides up-to-date knowledge of the promising field of Nanobiotechnology with emphasis on the mitigation approaches to combat plant abiotic stress factors, including drought, salinity, waterlog, temperature extremes, mineral nutrients, and heavy metals. These factors adversely affect the growth as well as yield of crop plants worldwide, especially under the global climate change. Nanobiotechnology is viewed to revolutionize crop productivity in future. The chapters discuss the status and prospects of this cutting-edge technology toward understanding tolerance mechanisms, including signaling molecules and enzymes regulation in addition to the applications of Nanobiotechnology to combat individual abiotic stress factors.

This book examines the development of innovative modern methodologies towards augmenting conventional plant breeding, in individual crops, for the production of new crop varieties under the increasingly limiting environmental and cultivation factors to achieve sustainable agricultural production, enhanced food security, in addition to providing raw materials for innovative industrial products and pharmaceuticals. This is Vol 6, subtitled Industrial and Food Crops, which consists of two parts. Included in Part I are 11 industrial plant species utilized as sources of raw materials for the production of industrial products including pulp and wood crops (acacia), fiber (cotton, jute and ramie), rubber (guayule and rubber tree), oil (jojoba and flax), biofuels and pharmaceutical (agave) and sugar source (sugarcane). Part II covers 7 food plants selected for their utilization in food industries for the production of chocolate (cacao), cooking oil (oil palm, safflower, sesame and sunflower) and natural flavors and aroma (saffron and vanilla). This volume is contributed by 60 internationally reputable scientists from 14 countries. Each chapter comprehensively reviews the modern literature on the subject and reflects the authors own experience.

This two-volume book is a valuable resource to students, researchers, scientists, commercial producers, consultants and policymakers interested in agriculture or plant sciences particularly in date palm biotechnology. Chapters in Date Palm Biotechnology Protocols: Volume 2: Germplasm Conservation and Molecular Breeding guides readers through methods and protocols on germplasm in vitro conservation, molecular analysis of in vitro cultures, genetic diversity, cultivar identity, gender identification, genomics, and proteomics. Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Authoritative and practical, Date Palm Biotechnology Protocols: Volume 2: Germplasm Conservation and Molecular Breeding aims to supplement the previous volume and to provide precise stepwise protocols in the field of date palm biotechnology.

This important 2-volume reference book is the first comprehensive resource reflecting the current global status and prospects of date palm cultivation by country. This volume covers Asia and Europe. The Asian countries included are: Iran, Saudi Arabia, Iraq, Pakistan, Oman, Yemen, Israel, Kuwait, Qatar, Bahrain, Syria, Palestine and India. Europe is represented by Spain. Topics discussed are: cultivation practices; genetic resources and breeding; conservation and germplasm banks; cultivar classification and identification based on morphological and molecular markers; micropropagation and progress toward scale-up production; and advances in dates processing and marketing. Chapters are supported by tables and color photographs. Appendixes summarize traits and distribution of major cultivars, commercial resources of offshoots and in vitro plants; and institutions and scientific societies concerned with date palm.

This important 2-volume reference book is the first comprehensive resource reflecting the current global status and prospects of date palm cultivation by country. This volume covers Africa and the Americas. Countries included are: Egypt, Algeria, Sudan, Tunisia, Libya, Morocco, Mauritania, Niger, Cameroon, Djibouti, Chad, Mali Somalia, Ethiopia, Burkina Faso and Senegal, as well as the United States of America and the South American countries Chile and Peru. Topics discussed are: cultivation practices; genetic resources and breeding; conservation and germplasm banks; cultivar classification and identification based on morphological and molecular markers; micropropagation and progress toward scale-up production; and advances in dates processing and marketing. Chapters are supported by tables and color photographs. Appendixes summarize traits and distribution of major cultivars, commercial resources of offshoots and in vitro plants; and institutions and scientific societies concerned with date palm.

This book is the first comprehensive assemblage of contemporary knowledge relevant to genomics and other omics in date palm. Volume 2 consists of 11 chapters. Part I, Nutritional and Pharmaceuticals Properties, covers the utilization of date palm as an ingredient of various food products, a source of bioactive compounds and the production of nanomaterials. Part II, Omics Technologies, addresses omics resources, proteomics and metabolomics. Part III, Molecular Breeding and Genome Modification, focuses on genetic improvement technologies based on mutagenesis, quantitative traits loci and genome editing. Part IV, Genomics of Abiotic and Biotic Stress, covers metagenomics of beneficial microbes to enhance tolerance to abiotic stress and the various genomics advances as they apply to insect control. This volume represents the efforts of 34 international scientists from 12 countries and contains 65 figures and 19 tables to illustrate presented concepts. Volume 1 is published under the title: Phylogeny, Biodiversity and Mapping.

This book is the first volume of a comprehensive assemblage of contemporary knowledge relevant to genomics and other omics in date palm. Volume 1 consists of 11 chapters arranged in 3 parts grouped according to subject. Part I, Biology and Phylogeny, focuses on date palm biology, evolution and origin. Part II, Biodiversity and Molecular Identification, covers conformity of in vitro derived plants, molecular markers, barcoding, pollinizer genetics and gender determination. Part III, Genome Mapping and Bioinformatics, addresses genome mapping of nuclear, chloroplast and mitochondrial DNA, in addition to a chapter on progress made in date palm bioinformatics. This volume represents the efforts of 30 international scientists from 10 countries and contains 78 figures and 30 tables to illustrate presented concepts. Volume 2 is published under the title: Omics and Molecular Breeding.

This book is the first comprehensive assemblage of contemporary knowledge relevant to genomics and other omics in date palm. Volume 2 consists of 11 chapters. Part I, Nutritional and Pharmaceuticals Properties, covers the utilization of date palm as an ingredient of various food products, a source of bioactive compounds and the production of nanomaterials. Part II, Omics Technologies, addresses omics resources, proteomics and metabolomics. Part III, Molecular Breeding and Genome Modification, focuses on genetic improvement technologies based on mutagenesis, quantitative traits loci and genome editing. Part IV, Genomics of Abiotic and Biotic Stress, covers metagenomics of beneficial microbes to enhance tolerance to abiotic stress and the various genomics advances as they apply to insect control. This volume represents the efforts of 34 international scientists from 12 countries and contains 65 figures and 19 tables to illustrate presented concepts. Volume 1 is published under the title: Phylogeny, Biodiversity and Mapping.

This book focuses on the recent progress of nanotechnology with emphasis on the interaction between nanoparticles and plants on the cellular level. It is devoted to understanding the pathways of nanomaterials entry into plant cell and their influence on cellular organelle processes and influence on crop yield. It consists of 16 chapters grouped in 3 parts: Part I Cellular mechanisms, Part II Cellular macromolecules, and Part III Implications of nanomaterials. Chapters present the plant response to nanomaterial applications including morphological, physiochemical, and anatomical changes and their effect on plant growth and productivity. The book discusses the mechanisms of absorbance and translocation of nanoparticles and their interaction with the plant cellular biochemical compounds and organelles. It presents the current perspective of nanomaterials influence on cellular processes which include photosynthesis, photorespiration and pigment synthesis and accumulation. In addition, it provides current understanding of the impact of nanomaterials on cellular macromolecules including carbohydrates, lipids, nucleic acids, proteins, hormones, and antioxidant defense activities. Collectively, these processes and biochemical compounds have implications on crop yield. Chapters are written by globally recognized scientists and subjected to a rigorous review process to ensure quality presentation and scientific precision. Chapter begins with an introduction that covers similar contexts and includes a detailed discussion of the topic accompanied by high-quality color images, diagrams, and relevant details and concludes with recommendations for future study directions. Chapter "Impact of Nanomaterials on Plant Secondary Metabolism" is available open access under a Creative Commons Attribution 4.0 International License via link.springer.com.