Genetik (ikke-medicinsk)

Scientists are racing to unravel the code of life in our DNA sequences. But once we know the code, will we know what life means? Will we know what to do with the powerful - healing, destructive, and marketable - information we will have?Barbara Katz Rothman's warm, learned, passionate, and humorous voice is just the one we need to guide us through some of the most loaded issues and technologies of our time - ones that bear on the most intimate aspects of our lives. Her astute observations about the new genetics are combined with personal reflections: about raising a black child; the risks of cancer; midwives and pregnancy; the social web into which we are born; motherhood; time, growth, chance, and all the indefinable things that make us human. She helps us to think about the place of genetic science in our own lives, its role in our social world, and how we choose to think about human life itself.A genetic map will take us places, but we need an imagination to see the relationship between DNA and public policy, between genes and the society we live in, and to understand why human life can't be reduced to genetics. Rothman inspires that imagination, in a book that is essential reading.

Jacob's Ladder delivers a remarkably lucid explanation of what the sequencing of the human genome really tells us. Decoding the sequence, evolutionary biologist Henry Gee shows, is just the beginning: seeing the letters and words. The next frontier is in understanding snatches of conversation between genes-how they interact to direct the growth of an organism. Gee takes us into the heart of that conversation, illuminating how genes govern a single egg cell's miraculous transformation into a human being, and how they continue to direct that person's day-by-day development throughout a lifetime.Gee tells the story of what we know about the genome today and what we are likely to discover tomorrow. As our knowledge advances, we will be able to direct with increasing authority the conversations between genes: not only performing medical interventions but also creating whole scripts directing birth, ancestry, and diversity in a brave new world.

Tree species are indispensable to human needs. Due to their long life cycle and environmental sensitivity, breeding trees for sustainable production is a formidable challenge in order to meet the demands of growing human population and industries. Fruit crops such as apple, cocoa, mango, citrus, litchi, pear, dates, and coconut or industrial crops including rubber and tea, improving yield under the optimal, sub-optimal and marginal areas call for a unified worldwide effort. While the uniqueness of coconut as 'kalpavriksha' (Sanskrit - meaning tree of life) makes its presence in every continent from Far East to South America, tree crops such as cocoa, oil palm, rubber, apple, peach and walnut prove their environmental sensitivity towards tropical, subtropical and temperate climates. Date palm is quintessential for desert climate. Thus, from soft drinks to breweries to oil to tires, the value addition offers a spectrum of products to human kind, enriched with nutritional, environmental, financial, and trade related attributes. This volume is a compilation of information on breeding of temperate tree species and provides first hand comprehensive knowledge to research, teach, and make policies.

This book offers a unique and comprehensive overview of key RNA-based technologies, as well as their development and applications for the functional genomics of plant coding and non-coding genes. It focuses on the latest as well as classical RNA-based techniques used for studies on small RNAs, long non-coding RNAs and protein-coding genes. These techniques chiefly focus on target mimics (TMs) and short tandem target mimics (STTMs) for small RNAs, and artificial microRNAs (amiRNAs), RNA interference (RNAi) and CRISPR/Cas for genes. Furthermore, the book discusses the latest trends in the field and various modifications of the above-mentioned approaches, and explores how these RNA-based technologies have been developed, applied and validated as essential technologies in plant functional genomics. RNA-based technologies, their mechanisms of action, their advantages and disadvantages, and insights into the further development and applications of these technologies in plants are discussed. These techniques will enable the users to functionally characterize genes and small RNAs through silencing, overexpression and editing. Gathering contributions by globally respected experts, the book will appeal to students, teachers and scientists in academia and industry who are interested in horticulture, genetics, pathology, entomology, physiology, molecular genetics and breeding, in vitro culture & genetic engineering, and functional genomics.

This completely revised edition explores novel discoveries in bacterial genomic research, with a focus on technical and computational improvements as well as methods used for bacterial pangenome analysis, which relies on microbiome studies and metagenomic data. Beginning with up-to-date sequencing methods, the book continues with sections covering methods for deep phylogenetic analysis, the role of metagenomic data in understanding the genomics of the many yet uncultured bacteria, progress in genome-to-phenome inference, as well as computational genomic tools. Written for the highly successful Methods in Molecular Biology series, chapters include the type of practical detail necessary for reproducible results in the lab. Authoritative and up-to-date, Bacterial Pangenomics: Methods and Protocols, Second Edition serves as an ideal guide for both highly qualified investigators in bacterial genomics and for less experienced researchers, including students and teachers, who could use a reference for approaching genomic analysis and genome data.

Nano-enabled Sustainable and Precision Agriculture is the first single-volume resource to cover this important field using a whole systems approach that considers both opportunities and challenges. The book provides a comprehensive understanding of the role of nanotechnology in agriculture from broad aspects, but also includes a comprehensive view of the interaction of nanomaterials with soil-plant systems. It highlights aspects not described in previous books, including the application of nanoinformatics and artificial intelligence in nano-enabled sustainable agriculture, the application of nanotechnology in alternative forms of agriculture such as hydroponics, and regulatory frameworks for this research field. The book addresses all these aspects by including sections on enhanced sustainability, reduced pollution and enhanced ecosystems' health, and the role of nanoinformatics and machine learning.

Genomics in the Clinic: A Practical Guide to Genetic Testing, Evaluation, and Counseling illustrates the current scope of the practice of genetics for healthcare professionals, so they can understand principles applicable to genetic testing and consultation. Written by an authoritative well-balanced team, including experienced clinical geneticists, genetic counselors, and medical subspecialists, this book adopts an accessible, easy-to-follow format. Sections are dedicated to basic genetic principles; clinical genetic and genomic testing; prenatal, clinical and cancer genetic diagnosis and counseling; and ethical and social implications in genomic medicine. Over 100 illustrative cases examine a range of prenatal, pediatric and adult genetic conditions and testing, putting these concepts and approaches into practice. Genomics in the Clinic: A Practical Guide to Genetic Testing, Evaluation, and Counseling is important for primary care providers, as patient care evolves in the current genomic-influenced world of precision medicine.

Insect Anatomy: Structure and Function provides both morphological and anatomical descriptions of insect tissues and organs using updated methods. Insects play important roles in diverse ecosystems, with subsequent, tremendous impacts on human society through disease, agriculture effects, and more. Both beneficial and detrimental insect species continuously challenge agriculture and medicine. Written by international experts of insect morphology and anatomy, this book offers concise descriptions of all part of an insect's anatomy, including the brain and nervous system, tracheal system, blood, reproductive organs, and kidney system.The book also covers external insect parts such as antennae, wings and different forms of insect epidermis. Insect tissues and organs are analyzed as they relate to gene and protein function in distinct types of cells, tissues, and organs.

This volume details protocols on rationale design of therapeutic siRNA molecules and its encapsulation with smart vehicles to overcome the barriers to an effective administration in vivo. 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 cutting-edge, Design and Delivery of SiRNA Therapeutics aims to ensure successful results in the further study of this vital field.

Image Atlas of COVID-19 covers this novel and emerging respiratory infectious disease. Although the gold standard for clinical diagnosis of COVID-19 remains the nucleic acid test for SARS-CoV-2, chest CT scans have been widely used in the diagnosis and treatment of COVID-19 as simple and fast diagnostic methods. The latter has proven crucial when faced with a large volume of symptomatic and asymptomatic patients. The imaging manifestations of COVID-19 have some specific characteristics, hence a better understanding of imaging findings is of great value for detecting lesions, evaluating lesion severity, diagnosis and differential diagnosis, and assessment of therapeutic options and prognosis.

This book represents the first comprehensive compilation of information on all aspects of the medicinal plant Panax ginseng, ranging from its botany to applied aspects in medicine and molecular breeding. In contributions by respected experts, it also discusses the genetic background and biochemical profile of this important medicinal plant. Ginsenoside biosynthesis and metabolic dynamics are also described in detail. Given its scope, the book offers a valuable guide for students, educators and scientists in academia and industry interested in medicinal plants and pharmacy.

This book covers some of the most novel genetic and genomic concepts in epidemiology, such as geospatial statistics and systems biology from a clinical point of view by explaining molecular applications with accessible human studies. Featuring a comprehensive table of contents, it includes chapters from genomics and epidemiology surveillance to transcriptomics and alternative splicing principles.Across 17 well-organized chapters, this book meets attempt to explain easily to clinicians and students with basic principles of the genetics, genomics, molecular biology and its applications to epidemiology and public health. The text is distinct from other literature on the market because it covers useful genomic tools applied in epidemiology for clinicians who may not be experts in this branch of health science. Principles of Genetics and Molecular Epidemiology demystifies the idea that biomedicine is far from being applied in both epidemiology and clinical practice. 

Maize is one of the most economically important food crops worldwide. It is used for livestock feeds and human nutrition. Recent strategies have been adopted for improving maize crops. This book brings together recent advances, breeding strategies, and applications in the biological control, breeding, and genetic improvement of maize genetic resources. It also provides new insights and sheds light on new perspectives and future research work that have been carried out for further improvement of maize crops. This book is a useful resource for students, researchers, and scientists.

Chromatin Readers in Health and Disease, Volume 35, a new release in the Translational Epigenetics series, gathers and makes actionable our current understanding of how chromatin readers regulate access to genetic information, and how their aberrant regulation can contribute to human pathologies. Chromatin readers discussed include 14-3-3 Dinshaw, ADD, Ankyrin, BAH, BET, BIR, BRCT, bromodomains and Kac readers, chromodomains and chromobarrel readers, citrullination readers, macrodomains and poly-ADP-ribose readers, MBT, PHD and double PHD, PWWP, SUMO (H4K12) readers, Tudor and TTD, UDR and ubiquitin, WD40, YEATS (crotonyl reader), MBD, SRA, and Methyl-RNA readers. In the book, more than a dozen leaders in the field examine a range of protein readers, their relationship to human disease, and the early therapeutics that act as chromatin signaling factors to treat cancers and Huntington's disease, among other disorders.