Discusses the mechanisms of plant productivity and the factors limiting net photosynthesis, describing techniques to isolate, characterize and manipulate specific plant genes in order to enhance productivity. The uptake of carbon and the practical aspects of plant nutrition are discussed.

Outlining successful breeding techniques to augment the yields of the world's major crops, this reference analyzes the physiological and genetic basis for past and potential future increases in crop yields.;Covering crops with wide differences in morphology, photosynthetic rates, and nitrogen metabolisms, Genetic Improvement of Field Crops: investigates the changes produced by breeders in the physiological attributes affecting wheat grain yield and nitrogen content during the last century; discusses those crop characteristics of oats that have already been altered or might be manipulated through breeding to further increase yield potential; describes several genetic factors responsible for both yield potential and stress resistance in barley; offers insights into the relationship between increases in the yield potential and stress tolerance of corn; examines the evolution of sunflower crop yields and yield stability and estimates the contribution of improved cultivars; evaluates the effects of breeding on tuber characteristics related to the crop growth and yield of the potato; elucidates the possibilities for simultaneous improvement of yield and fiber strength in cotton; and identifies the features to be considered in the development of high yielding varieties of rice for different agricultural systems.;Providing nearly 1600 key literature citations allowing further in-depth study of particular topics, Genetic Improvement of Field Crops is for plant physiologists and breeders, crop and agricultural scientists, agronomists, biochemists, geneticists, biotechnologists, microbiologists, and upper-level undergraduate and graduate students in these disciplines.

Serves as a comprehensive review to the substantial impact of gene amplification in molecular biology, genetic engineering and medical science. The book covers the mechanism of gene amplification, organization and structure of amplified genes.

Presenting all preclinical and clinical information available on genetically engineered toxins, this unique, single-source reference provides the most up-to-date methods and practical examples for conducting clinical studies in toxin molecular biology.;Reviewing difficult problems and their solutions, Genetically Engineered Toxins discusses techniques for clo;ning, expressing, and purifying recombinant toxins and genetically modified recombinant toxins; documents structure-function relationships in toxins, including comparative information; supplies theory and illustrations of chimeric toxins; delineates the preclinical assessments of new reagents; and summarizes approaches to drug design.;With over 1100 literature citations, Genetically Engineered Toxins is an invaluable resource for biochemists, molecular biologists, biotechnologists, pharmacologists, toxicologists, X-ray crystallographers, enzymologists, oncologists, hematologists, immunologists, rheumatologists, botanists, and graduate-level students in molecular biology, biotechnology, and clinical oncology courses.

This important reference/text provides technologists with the basic informationnecessary to interact scientifically with molecular biologists and get involved in scalinguplaboratory procedures and designing and constructing commercial plants.Requiring no previous training or experience in biology, Genetic EngineeringFundamentals explains the biological and chemical principles of recombinant DNAtechnology ... emphasizes techniques used to isolate and clone specific genes frombacteria, plants, and animals, and methods of scaling-up the formation of the geneproduct for commercial applications ... analyzes problems encountered in scaling-upthe microprocessing of biochemical procedures . .. includes an extensive glossary andnumerous illustrations ... identifies other resource materials in the field ... and more.Presenting the fundamentals of biochemistry and molecular biology to workers andstudents in other fields, this state-of-the-art reference/text is essentiai reading fortechnologists in chemistry and engineering; biomedical, chemical, electrical andelectronics, industrial, mechanical, manufacturing, design, plant, control, civil, genetic,and environmental engineers; chemists, botanists, and zoologists; and advancedundergraduate and graduate courses in engineering, biotechnology, and industrialmicrobiology.

This book examines the making of human cloning as an imaginary practice and scientific fact. It explores the controversies surrounding both therapeutic cloning for stem cell research and reproductive cloning. The authors analyse the cultural production of cloning, how practices and representations play out in the global arena, and its transformation from science fiction to science practice. Case studies are used to illustrate key fore grounded issues:

• the image of the scientist, scientific expertise and institutions
• the governance of science
• the representation of women s bodies as the subjects and objects of biotechnology
• the constitution of publics, both as objects of media debate, and as their intended audience.

Drawing together the Sociology of Scientific Knowledge, with insights from media and cultural studies, this book offers a timely contribution to debates about the public communication of science and the status of scientific truth. This book will be a valuable companion to students on undergraduate courses in media studies, science communication, cultural studies, science and technology studies and sociology.

What should individuals and society do when genetic screening becomes widely available and with its impact on current and future generations still uncertain? How can our education systems around the world respond to these developments? Reproductive and genetic technologies (RGTs) are increasingly controversial and political. We are entering an era where we can design future humans, firstly, by genetic screening of "undesirable" traits or indeed embryos, but perhaps later by more radical genetic engineering. This has a profound effect on what we see as normal, acceptable and responsible. This book argues that these urgent and biopolitical issues should be central to how biology is taught as a subject. Debate about life itself has always been at the forefront of connected molecular, genetic and social/personal identity levels, and each of these levels requires processes of communication and debate, what Anthony Giddens called in passing life politics. In this book Padraig Murphy opens the term up, with examples from field research in schools, student responses to educational films exploring the future of RGTs, and science studies of strategic biotechnology and the lab practices of genetic screening. Life political debate is thoroughly examined and is identified as a way of connecting mainstream education of biology with future generations. Biotechnology, Education and Life Politics will appeal to post-graduates and academics involved with science education, science communication, communication studies and the sociology of education.

Plant Transformation via Agrobacterium Tumefaciens compiles fundamental and specific information and procedures involving in vitro soybean transformation, which forms the basis for the Agrobacterium-mediated genetic manipulation of soybean using plant tissue culture. This method serves as one of the most preferred, reliable and cost-effective mechanism of transgene expression in both leguminous recalcitrant species and non-legume crops. The technology is favoured due to its simplicity, feasibility and high transformation rates that are so far achieved mostly in monocot plants and a few dicot genotypes. This book provides a comprehensive review of plant transformation which remains necessary for many researchers who are still facing protocol-related hurdles. Among some of the major topics covered in Plant Transformation via Agrobacterium Tumefaciens are the history and discovery of Agrobacterium bacterium, longstanding challenges causing transformation inefficiencies, types and conditions of explants, development of transgenic plants for stress resistance, and the role of transgenic plants on animal/human health, including the environment. Plant Transformation via Agrobacterium Tumefaciens helps the reader to understand how soybean, like many other orphan legume crops, faces the risk of overexploitation which may render the currently available varieties redundant and extinct should its narrow gene pool not improve. Plant transformation serves as a key technique in improving the gene pool, while developing varieties that are drought tolerant, have enhanced nutritional value, pest resistant and reduce the destruction by disease causing microorganims. This book is an essential foundation tool that is available for researchers and students to reinforce the application of Agrobacterium-mediated genetic transformation in soybean.

History will mark the twenty-first century as the dawn of the age of precise genetic manipulation. Breakthroughs in genome editing are poised to enable humankind to fundamentally transform life on Earth. Those familiar with genome editing understand its potential to revolutionize civilization in ways that surpass the impact of the discovery of electricity and the development of gunpowder, the atomic bomb, or the Internet. Significant questions regarding how society should promote or hinder genome editing loom large in the horizon. And it is up to humans to decide the fate of this powerful technology. Rewriting Nature is a compelling, thought-provoking interdisciplinary exploration of the law, science, and policy of genome editing. The book guides readers through complex legal, scientific, ethical, political, economic, and social issues concerning this emerging technology, and challenges the conventional false dichotomy often associated with science and law, which contributes to a growing divide between both fields.

History will mark the twenty-first century as the dawn of the age of precise genetic manipulation. Breakthroughs in genome editing are poised to enable humankind to fundamentally transform life on Earth. Those familiar with genome editing understand its potential to revolutionize civilization in ways that surpass the impact of the discovery of electricity and the development of gunpowder, the atomic bomb, or the Internet. Significant questions regarding how society should promote or hinder genome editing loom large in the horizon. And it is up to humans to decide the fate of this powerful technology. Rewriting Nature is a compelling, thought-provoking interdisciplinary exploration of the law, science, and policy of genome editing. The book guides readers through complex legal, scientific, ethical, political, economic, and social issues concerning this emerging technology, and challenges the conventional false dichotomy often associated with science and law, which contributes to a growing divide between both fields.

Technology for modifying the genotypes and phenotypes of insects and other arthropods has steadily progressed with the development of more precise and powerful methods, most prominently transgenic modification. For many insect pests, there is now almost unlimited ability to modify phenotypes to benefit human health and agriculture. Precise DNA modifications and gene drive have the power to make wild-type populations less harmful in ways that could never have been performed with previous transgenic approaches. This transition from primarily laboratory science to greater application for field use has also necessitated greater development of modeling, ethical considerations and regulatory oversight. The 2nd Edition of Transgenic Insects contains chapters contributed by experts in the field that cover technologies and applications that are now possible. This edition includes increased attention to associated challenges of risk assessment, regulation, and public engagement. Featuring: Up-to-date analysis of molecular techniques, such as gene editing. Consideration of public attitudes and regulatory aspects associated with transgenic insects. Many examples of the wide range of applications of transgenic insects. This book will be very valuable to students and researchers in entomology, molecular biology, genetics, public health and agriculture, and will also appeal to practitioners who are implementing the technology, and to regulators, stakeholders and ethicists.

In recent decades, livestock producers have moved away from open grazing for a number of reasons, none having to do with the health of consumers. Genetic Resources, Chromosome Engineering, and Crop Improvement: Forage Crops demonstrates how state-of-the-art technology can encourage the raising of livestock in open pastures where they can be fed grasses grown in nature rather than meals enriched with hormones and other by-products. The volume brings together the world's leading innovators in crop science who furnish information on the availability of germplasm resources that breeders can exploit for the improvement of major forage crop varieties including alfalfa, wheatgrass and wildrye grasses, Bahiagrass, birdsfoot trefoil, clover, Bermudagrass, and ryegrass. An introductory chapter outlines the cytogenetic architecture of forage crops, describes the principles and strategies of cytogenetic and breeding manipulations, and summarizes landmark research. Ensuing chapters provide a comprehensive account of each crop: its origin; wild relatives; exploitation of genetic resources in the primary, secondary, and tertiary, and, where feasible, quarternary gene pools through breeding and cytogenetic manipulation; and genetic enrichment using the tools of molecular genetics and biotechnology. . Certain to become the standard reference, this volume- Discusses taxonomy, genomic and chromosomal constitution, and the geographical distribution Stresses the role of germplasm exploration, maintenance, and assimilation for increasing yield Presents practical improvement methodologies including conventional, cytogenetic, mutation, molecular, cell and tissue cultures, and genetic transformation In addition to serving as fodder, forage crops provide ground cover, aid in abetting erosions, yield a number of pharmaceuti

** NEW YORK TIMES NUMBER ONE BESTSELLER ** The Gene is the story of one of the most powerful and dangerous ideas in our history from the author of The Emperor of All Maladies. The story begins in an Augustinian abbey in 1856, and takes the reader from Darwin's groundbreaking theory of evolution, to the horrors of Nazi eugenics, to present day and beyond - as we learn to "read" and "write" the human genome that unleashes the potential to change the fates and identities of our children. Majestic in its scope and ambition, The Gene provides us with a definitive account of the epic history of the quest to decipher the master-code that makes and defines humans - and paints a fascinating vision of both humanity's past and future. For fans of Sapiens by Yuval Noah Harari, A Brief History of Time by Stephen Hawking and Being Mortal by Atul Gwande. 'Siddhartha Mukherjee is the perfect person to guide us through the past, present, and future of genome science' Bill Gates 'A thrilling and comprehensive account of what seems certain to be the most radical, controversial and, to borrow from the subtitle, intimate science of our time...Read this book and steel yourself for what comes next' Sunday Times

Advances in genetic technology in general and medical genetics in particular will enable us to intervene in the process of human biological development which extends from zygotes and embryos to people. This will allow us to control to a great extent the identities and the length and quality of the lives of people who already exist, as well as those we bring into existence in the near and distant future. "Genes and Future People" explores two general philosophical questions, one metaphysical, the other moral: (1) How do genes, and different forms of genetic intervention (gene therapy, genetic enhancement, presymptomatic genetic testing of adults, genetic testing of preimplantation embryos), affect the identities of the people who already exist and those we bring into existence? and (2) How do these interventions benefit or harm the people we cause to exist in the near future and those who will exist in the distant future by satisfying or defeating their interest in having reasonably long and disease-free lives?"Genes and Future People" begins by explaining the connection between genes and disease, placing genetic within a framework of evolutionary biology. It then discusses such topics as how genes and genetic intervention influence personal identity, what genetic testing of individuals and the knowledge resulting from it entails about responsibility to others who may be at risk, as well as how gene therapy and genetic enhancement can affect the identities of people and benefit or harm them. Furthermore, it discusses various moral aspects of cloning human beings and body parts. Finally, it explores the metaphysical and moral implications of genetic manipulation of the mechanisms of aging to extend the human life span.The aim "Genes and Future People" is to move philosophers, bioethicists, and readers in general to reflect on the extent to which genes determine whether we are healthy or diseased, our identities as persons, the quality of our lives, and our moral obligations to future generations of people.

This book combines an up-to-date summary of how best to genetically engineer viruses with an overview of basic virology. This unique combination makes it an invaluable research tool for virologists and molecular biologists seeking to exploit viruses for a range of applications. Written by highly respected authors, the book also provides comparisons to and guidelines for the use of viruses in difference applications.

Over the last two decades one of the great global emerging technological trends has been the shift from chemistry to biology in agriculture. Bitterly contested and enduringly controversial, the shift to biotechnology has nevertheless led to greater sustainability and promises even greater gains in years to come. This Handbook is an invaluable compendium of detailed case study and insight.' - Mark Lynas, Cornell University, US'This important volume analyses the current state of crop biotechnology development and regulation. It establishes a firm basis for understanding the current level of deployment of crops modified by biotechnology and also the uneven and often unscientific bases that have been used to judge their merits for particular regions. This book is an indispensable reference for anyone concerned with the development of this vital area of agriculture.' - Peter H. Raven, Missouri Botanical Garden, US 'With interest in biotechnology surging, this book is a must-read for anyone who wants to learn more about the potential that advancements in modern agriculture have to offer, how they've already changed agriculture around the world and what s coming down the pipeline. Agriculture is about economics, the environment and feeding the world; so too, at the heart of it, is biotechnology, as this book so clearly demonstrates. The authors have years of experience with biotechnology and their expertise shines through on each page.' - Lorne Hepworth, CropLife Canada This book is a compendium of knowledge, experience and insight on agriculture, biotechnology and development. Beginning with an account of GM crop adoptions and attitudes towards them, the book assesses numerous crucial processes, concluding with detailed insights into GM products. Drawing on expert perspectives of leading authors from 57 different institutions in 16 countries, it provides a unique, global overview of agbiotech following 20 years of adoption. Many consider GM crops the most rapid agricultural innovation adopted in the history of agriculture. This book provides insights as to why the adoption has occurred globally at such a rapid rate. This is a rich and varied collection of research, which will appeal to scholars, academics and practitioners worldwide. An invaluable resource, this book will be a first point of reference to anyone with an interest in agbiotech and studies into agriculture, biotechnology and development. Contributors: A.A. Adenle, P. Aerni, C. Alexander, J.M. Alston, V. Beckmann, J. Bognar, C.G. Borroto, D. Brewin, G. Brookes, J. Carpenter, Y. Carriere, D. Castle, M. Chen, P. Conceicao, B. Dayananda, M. Demont, K. Dillen, D. Eaton, E. Einsiedel, J. Falck-Zepeda, J. Fernandez-Cornejo, G.B. Frisvold, C.V. Gonslaves, D. Gonsalves, M. Gouse, G. Graff, R. Gray, A. Gupta, W.O. Hennessey, J.E. Hobbs, W.E. Huffman, L. A. Jackson, C. Juma, N. Kalaitzandonakes, S. Kaplan, V.J. Karplus, W.A. Kerr, G.G. Khachatourians, E.M. Kikulwe, E. Kim, D.E. Kolady, S.P. Kowalski, J. Kruse, L. Levidow, S. Levine, K. Ludlow, X. Ma, A. Magnier, S. Malla, I. Matuschke, J.J. McCluskey, A. McHughen, J. Medlock, D. Miller, L. Nagarajan, A. Naseem, C. Oguamanam, M. Ouattarra, M. Owen, R. Paarlberg, P. W. B. Phillips, M. Qaim, T. Raney, J.M. Reeves, S.D. Rhodes, S.M.H. Rizvi, C.D. Ryan, D. Schimmelpfennig, G.J. Scoles, G. Skogstad, S. J. Smyth, C. Soregaroli, D.J. Spielman, A.J. Stein, J. Thomson, J. Vitale, G. Vognan, G. Waterfield, S. Wechsler, J. Wesseler, A. Williams, W.W. Wilson, L.L. Wolfenbarger, G. Ye, J. Yorobe Jr, D.Z. Zeng, D. Zilberman

The title of this book derives from C. Wright Mills' classic The Sociological Imagination (Penguin, 1970), in which he sees the essential project of social science as the use of the imagination to 'grasp history and biography and the relations between the two in society'. This enables the social scientist to 'range from the most impersonal and remote transformations to the most intimate features of the human self'. Another of Mills' concerns was the relationship between 'the personal troubles of the milieu' and 'the public issues of social structure' and these are most acutely illustrated in human genetics, the most personal of the new technologies. The chapters in this volume address these issues through discussions of choice and informed decision-making, risks and hazards, the economic and political organization of new technology, and the public as well as the scientist's understanding of science. The methods used range from detailed ethnographies, through deconstruction's of text and action, to surveys and interviews.

This book is an outgrowth of a UNESCO regional workshop entitled Culture Collection and Breeding of Edible Mushrooms. The purpose of the workshop is to provide participants with information on the principles and techniques involved in the genetics and breeding of edible mushrooms.

Cosmic Genetic Evolution, Volume 106 in the Advances in Genetics series, highlights new advances in the field, with this new volume presenting interesting chapters on Panspermia, Cometary Panspermia and Origin of Life, The Efficient Lamarckian Spread of Life in the Cosmos, The Sociology of Science and Generality of the DNA/RNA/Protein Paradigm Throughout the Cosmos, The Mutagenic Source and Power of Our Own Evolution, Origin of New Emergent Coronavirus and Candida Fungal Diseases - Terrestrial or Cosmic?, and Future Prospects for Investigation -The Near-Earth Neighborhood and Beyond.

Genetic Engineering: A Primer presents the growing field of biotechnology to non-science majors and other general interest readers. The author examines the natural forces that change genetic information and the ways in which scientists have learned to engineer these genetic changes. With a wealth of information flooding the popular press, including news and controversy surrounding cloning, Genetic Engineering is a timely volume that provides background information to the reader intent on understanding this fascinating development.

Applied Plant Biotechnology for Improvement of Resistance to Biotic Stress applies biotechnology insights that seek to improve plant genomes, thus helping them achieve higher resistance and optimal hormone signaling to increase crop yield. The book provides an analysis of the current state-of-the-art in plant biotechnology as applied to improving resistance to biotic stress. In recent years, significant progress has been made towards understanding the interplay between plants and their hosts, particularly the role of plant immunity in regulating, attenuating or neutralizing invading pathogens. As a result, there is a great need to integrate these insights with methods from biotechnology.

Genomics and Biotechnological Advances in Veterinary, Poultry, and Fisheries is a comprehensive reference for animal biotechnologists, veterinary clinicians, fishery scientists, and anyone who needs to understand the latest advances in the field of next generation sequencing and genomic editing in animals and fish. This essential reference provides information on genomics and the advanced technologies used to enhance the production and management of farm and pet animals, commercial and non-commercial birds, and aquatic animals used for food and research purposes. This resource will help the animal biotechnology research community understand the latest knowledge and trends in this field.

Nanotechnology in Modern Animal Biotechnology: Concepts and Applications discusses the advancement of nanotechnologies in almost every field, ranging from materials science, to food, forensic, agriculture and life sciences, including biotechnology and medicine. Nanotechnology is already being harnessed to address many of the key problems in animal biotechnology, with future applications covering animal biotechnology (e.g. animal nutrition, health, disease diagnosis, and drug delivery). This book provides the tools, ideas and techniques of nanoscale principles to investigate, understand and transform biological systems. Nanotechnology provides the ability to manipulate materials at atomic and molecular levels and also arrange atom-by-atom on a scale of ~1-100 nm to create, new materials and devices with fundamentally new functions and properties arising due to their small scale.

This is the first time that human organs, such as the heart, liver, kidney, stomach, uterus, skin, lung, pancreas and breast can be manufactured automatically and precisely for clinical transplantation, drug screening and metabolism model establishment. Headed by Professor Xiaohong Wang (also the founder and director) in the Center of Organ Manufacturing, Department of Mechanical Engineering, Tsinghua University, this group has focused on organ manufacturing for over ten years. A series of technical bottleneck problems, such as vascular and nerve system establishment in a construct, multiple cell types and material system incorporation, and stem cell sequential engagement, have been overcome one by one. Two technical approaches have been exploited extensively. One is multiple nozzle rapid prototyping (RP), additive manufacturing (AM), or three-dimension (3D) printing. The other is combined mold systems. More than 110 articles and 40 patents with a series of theories and practices have been published consequently. In the future, all the failed organs (including the brain) in the human body can be substituted easily like a small accessory part in a car. Everyone can get benefit from these techniques, which ultimately means that the lifespan of humans, therefore, can be greatly prolonged from this time point. This book examines the progress made in the field and the developments made by these researchers (and authors) in the field.

Das erste Laborhandbuch der Humangenetik. Jedes Kapitel behandelt eine Praxiseinheit. Die Themen reichen von den Grundlagen des menschlichen Erbgutes uber die Genetik von Krankheiten, webbasierte Ressourcen, Bioinformatik und Individualmedizin bis hin zur genetischen Beratung.