Products related to Genomics:
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Genomics
Written primarily for 16-19 year old students, this primer aims to extend students' knowledge and inspire them to take their school-level learning further.It explores topics that are familiar from the curriculum and also introduces new ideas, giving students a first taste of the study of biology beyond school-level and demonstrating how concepts frequently encountered at school are relevant to and applied in current research.This is the ideal text to support students who are considering making the transition from studying biology at school to university. This Oxford Biology Primer will introduce students to the field of genomics and its applications.From the early days of the Human Genome Project, sequencing technology has rapidly developed and is now cheaper and more accessible than ever before.The resulting pervasive nature of these technologies make them more likely to be experienced by people as patients, consumers and citizens. The primer introduces the basic principles of genomics and then uses these to consider human genetics, through examples of some of the rare diseases linked to single genes.The impact of these rare diseases is far-reaching and the knowledge gained through genome sequencing is proving invaluable in their diagnosis.Genome sequencing is revolutionising the diagnosis and treatment of cancer, and the primer introduces students to some of the key breakthroughs which have taken place in recent years.These include the identification of specific genes indicating cancer risk, and the sequencing of tumours throughout treatment to identify further mutations and modify treatment accordingly. The primer aims to address a number of the ethical issues which are raised by this rapidly-growing area of biology.Students are challenged to consider some of the decisions they may need to make relating to these technologies in their own lives, and are given opportunities to explore different aspects of these issues in a way which allows discussion to be both informed and meaningful. The study of infectious disease is also feeling the impact of genomics: the primer discusses the concept of pathogen genome sequencing, and illustrates the various ways in which this can be used - for example, enabling us to find different solutions to infections, to track outbreaks of disease to their source, and to identify and possibly ultimately combat antibiotic resistance. Many of the major diseases which impact the global population are caused by parasites, which come in a wide variety of shapes and sizes.The primer introduces students to the importance of understanding parasite genomes.Parasite genome sequencing makes it possible to develop both new medicines, and new treatments such as gene drive systems to wipe out disease-causing mosquito populations. For many years, our views of classification and evolution have been based on observational techniques going back to Darwin and Linnaeus.Focusing on human evolution, the primer will open students' eyes to the ways in which genome sequencing is being used to reveal evolutionary links that have never before been recognised, and to elucidate the way humans spread out of Africa across the world.Students are not always aware of the role technological developments play in enabling the progress of science.The final chapter delves into how genome sequencing technologies have developed, considering both the speed of change in the technology, its implications for usefulness, availability and cost, and the growing issue of big data and how it can be manipulated.The different technologies described in this chapter are referenced throughout the book.
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Plant Genomics
Introduction to the range of molecular techniques to investigate unique facets of plant growth, development, and responses to the environment Plant Genomics introduces the complex relationship between the genome, microbiome, genes, and epigenetics of plants, as well as the range of molecular techniques applicable to investigating the unique facets of plant growth, development, and response to the environment.State-of-the-art science in the field is discussed, as well as future outlooks on what the next decade is likely to bring.This book includes new techniques for modifying the plant genome and their impact on modifying plants to combat the impact of biotic and abiotic stresses, including those associated with climate change, new technologies including long and short read sequencing and proximity ligation and the combination of these technologies for assembling sequence data into chromosomes, a new chapter on the sequences of the chloroplast and mitochondrial genomes, and a dedicated chapter to epigenetics and the importance in gene regulation.Written by a highly qualified author with significant published research contributions to the field, Plant Genomics includes information on: Structure and information content of the chloroplast and mitochondrial genomes and their use in phylogenyUse of transcriptomes from various tissues to identify expressed sequences and their identification as genesFunction of small regulatory RNAs and long non-coding RNAs and involvement of small RNAs in the control of gene expressionEpigenetic silencing of transposable elements and their release by stress and cross-generational contribution of epigenetic variationUse of the pan-genome to assemble a comprehensive germplasm for a particular crop species Plant Genomics is an ideal textbook for undergraduate courses on plant biology, particularly those focusing on molecular descriptions, and a helpful auxiliary text to plant biology laboratory courses.It will also be of interest to students in plant molecular biology, agricultural and food sciences, and plant, food, and crop bioengineering.
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Introduction to Genomics
Our genome is the blueprint for our existence: it encodes all the information we need to develop from a single cell into a hugely complicated functional organism.Yet it is more than a static information store: our genome is a dynamic, tightly-regulated collection of genes, which switch on and off in many combinations to give the variety of cells from which our bodies are formed.But how do we identify the genes that make up our genome?How do we determine their function? And how do different genes form the regulatory networks that direct the processes of life?Introduction to Genomics is the most up-to-date and complete textbook for students approaching the subject for the first time.Lesk's engaging writing style brings a narrative to a disparate field of study and offers a fascinating insight into what can be revealed from the study of genomes.The book covers: the similarities and differences between organisms; how different organisms evolved; how the genome is constructed and how it operates; and what our understanding of genomics means in terms of our future health and wellbeing.The Online Resource Centre accompanying Introduction to Genomics features: For students: - Extensive and imaginative weblems (web-based problems) for each chapter designed to give you practice with the tools required for further study and research in the field- Hints and answers to end-of-chapter problems and exercises support your self-directed learning- Guided tour of websites and major archival databanks in genomics offer a wealth of resources to springboard your own research - Journal club: links to related research articles on topics covered in the book are paired with engaging questions to improve your interpretation of the primary literature- Rotating figures allow you to visualize complex structuresFor registered adopters: - Downloadable figures from the book.
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Computational Genomics with R
Computational Genomics with R provides a starting point for beginners in genomic data analysis and also guides more advanced practitioners to sophisticated data analysis techniques in genomics.The book covers topics from R programming, to machine learning and statistics, to the latest genomic data analysis techniques.The text provides accessible information and explanations, always with the genomics context in the background.This also contains practical and well-documented examples in R so readers can analyze their data by simply reusing the code presented.As the field of computational genomics is interdisciplinary, it requires different starting points for people with different backgrounds.For example, a biologist might skip sections on basic genome biology and start with R programming, whereas a computer scientist might want to start with genome biology.After reading:You will have the basics of R and be able to dive right into specialized uses of R for computational genomics such as using Bioconductor packages. You will be familiar with statistics, supervised and unsupervised learning techniques that are important in data modeling, and exploratory analysis of high-dimensional data. You will understand genomic intervals and operations on them that are used for tasks such as aligned read counting and genomic feature annotation. You will know the basics of processing and quality checking high-throughput sequencing data. You will be able to do sequence analysis, such as calculating GC content for parts of a genome or finding transcription factor binding sites. You will know about visualization techniques used in genomics, such as heatmaps, meta-gene plots, and genomic track visualization. You will be familiar with analysis of different high-throughput sequencing data sets, such as RNA-seq, ChIP-seq, and BS-seq. You will know basic techniques for integrating and interpreting multi-omics datasets. Altuna Akalin is a group leader and head of the Bioinformatics and Omics Data Science Platform at the Berlin Institute of Medical Systems Biology, Max Delbrück Center, Berlin.He has been developing computational methods for analyzing and integrating large-scale genomics data sets since 2002.He has published an extensive body of work in this area.The framework for this book grew out of the yearly computational genomics courses he has been organizing and teaching since 2015.
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What tools, materials, and equipment do teachers work with?
Teachers work with a variety of tools, materials, and equipment in their daily work. Some common tools include whiteboards, markers, and projectors for delivering lessons. Materials such as textbooks, worksheets, and manipulatives are used to support student learning. Equipment like computers, printers, and audio-visual devices are also essential for creating engaging lessons and activities. Overall, teachers rely on a combination of traditional and modern tools to effectively educate their students.
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With which work tools, materials, and equipment do teachers work?
Teachers work with a variety of tools, materials, and equipment in their daily tasks. Some common tools include computers, projectors, whiteboards, and pens. Materials can range from textbooks and worksheets to art supplies and science equipment. Additionally, teachers may use equipment such as printers, laminators, and document cameras to enhance their teaching methods and create engaging learning experiences for students.
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What would be a suitable title for tools, equipment, materials, and workplace safety?
A suitable title for tools, equipment, materials, and workplace safety could be "Ensuring a Safe and Efficient Work Environment." This title encompasses the importance of maintaining a safe workplace while also emphasizing the role of tools, equipment, and materials in achieving efficiency and productivity. It highlights the need for proper safety measures and the use of appropriate tools and equipment to create a conducive work environment.
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With which tools, equipment, materials, and work aids do you work in the daycare?
In the daycare, I work with a variety of tools, equipment, materials, and work aids to ensure the safety and well-being of the children. Some of the tools and equipment I use include toys, books, art supplies, and educational materials. I also utilize safety equipment such as first aid kits, fire extinguishers, and childproofing supplies. Additionally, I work with technology such as computers and tablets for educational purposes. These tools and aids help me create a stimulating and safe environment for the children in my care.
Similar search terms for Genomics:
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Computational Genomics and Structural Bioinformatics in Microbial Science : Microbial Genomics Volume 2
Computational Genomics and Structural Bioinformatics in Microbial Science: Microbial Genomics (Volume 2) covers different aspects of microbial genomics, metagenomics, and functional studies of microbes through informative illustrations of current trends in computational tools and bioinformatics approach in environmental microbiology and clinical diagnosis.This book aims to provide readers with an overview of the microbial genome, computational genomics, and structural bioinformatics in microbial science, as well as the most recent developments in these fields.This book covers a range of topics, including the challenges and opportunities of computational epigenomics, bioinformatics tools for assessing metagenomic data, as well as computed comparative genomics and computational phenotyping of microorganisms relevant to agriculture.Microbial Genomics: Host Adaptation, virulence, and Evolution is a valuable resource for faculty members, researchers, and undergraduate and postgraduate students at universities, medical research labs, that are interested in microbial science specifically related to the microbial genome, computing genomics, and bioinformatics.
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Bacterial Genetics and Genomics
Understanding of bacterial genetics and genomics is fundamental to understanding bacteria and higher organisms, as well.Novel insights in the fields of genetics and genomics are challenging the once clear borders between the characteristics of bacteria and other life.Biological knowledge of the bacterial world is being viewed under a new light with input from genetic and genomics.Replication of bacterial circular and linear chromosomes, coupled (and uncoupled) transcription and translation, multiprotein systems that enhance survival, wide varieties of ways to control gene and protein expression, and a range of other features all influence the diversity of the microbial world.This text acknowledges that readers have varied knowledge of genetics and microbiology.Therefore, information is presented progressively, to enable all readers to understand the more advanced material in the book. This second edition of Bacterial Genetics and Genomics updates the information from the first edition with advances made over the past five years.This includes descriptions for 10 types of secretion systems, bacteria that can be seen with the naked eye, and differences between coupled transcription-translation and the uncoupled runaway transcription in bacteria.Topic updates include advances in bacteriophage therapy, biotechnology, and understanding bacterial evolution. Key FeaturesGenetics, genomics, and bioinformatics integrated in one placeOver 400 full-colour illustrations explain concepts and mechanisms throughout and are available to instructors for downloadA section dedicated to the application of genetics and genomics techniques, including a chapter devoted to laboratory techniques, which includes useful tips and recommendations for protocols, in addition to troubleshooting and alternative strategiesBulleted key points summarize each chapterExtensive self-study questions related to the chapter text and several discussion topics for study groups to explore furtherThis book is extended and enhanced through a range of digital resources that include:Interactive online quizzes for each chapterFlashcards that allow the reader to test their understanding of key terms from the bookUseful links for online resources associated with Chapters 16 and 17
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Essential Genetics and Genomics
Essential Genetics and Genomics is the ideal textbook for the shorter, less comprehensive genetics course.It presents carefully chosen topics that provide a solid foundation to the basic understanding of gene mutation, expression, and regulation.
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Bioinformatics and Functional Genomics
The bestselling introduction to bioinformatics and genomics – now in its third edition Widely received in its previous editions, Bioinformatics and Functional Genomics offers the most broad-based introduction to this explosive new discipline.Now in a thoroughly updated and expanded third edition, it continues to be the go-to source for students and professionals involved in biomedical research. This book provides up-to-the-minute coverage of the fields of bioinformatics and genomics.Features new to this edition include: Extensive revisions and a slight reorder of chapters for a more effective organizationA brand new chapter on next-generation sequencingAn expanded companion website, also updated as and when new information becomes availableGreater emphasis on a computational approach, with clear guidance of how software tools work and introductions to the use of command-line tools such as software for next-generation sequence analysis, the R programming language, and NCBI search utilities The book is complemented by lavish illustrations and more than 500 figures and tables - many newly-created for the third edition to enhance clarity and understanding.Each chapter includes learning objectives, a problem set, pitfalls section, boxes explaining key techniques and mathematics/statistics principles, a summary, recommended reading, and a list of freely available software.Readers may visit a related Web page for supplemental information such as PowerPoints and audiovisual files of lectures, and videocasts of how to perform many basic operations: www.wiley.com/go/pevsnerbioinformatics. Bioinformatics and Functional Genomics, Third Edition serves as an excellent single-source textbook for advanced undergraduate and beginning graduate-level courses in the biological sciences and computer sciences.It is also an indispensable resource for biologists in a broad variety of disciplines who use the tools of bioinformatics and genomics to study particular research problems; bioinformaticists and computer scientists who develop computer algorithms and databases; and medical researchers and clinicians who want to understand the genomic basis of viral, bacterial, parasitic, or other diseases.
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What is the difference between materials and tools?
Materials are the substances or components used to create or build something, such as wood, metal, plastic, or fabric. Tools, on the other hand, are instruments or devices used to manipulate or work with materials, such as hammers, saws, drills, or sewing machines. In other words, materials are the raw elements used in a project, while tools are the instruments used to shape, cut, or assemble those materials.
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What accessories for a play store are useful materials?
Useful materials for a play store include play money, a cash register, shopping baskets or carts, pretend food and groceries, a play kitchen set, and a variety of play household items such as cleaning supplies and cooking utensils. These accessories help children engage in imaginative play, develop their social and communication skills, and learn about the concept of buying and selling. Additionally, having a variety of items allows children to explore different roles and scenarios, enhancing their creativity and problem-solving abilities.
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Which materials and tools are primarily needed in floristry?
In floristry, the primary materials needed include fresh flowers, foliage, and other natural elements like branches or berries. Additionally, tools such as floral foam, wire, tape, scissors, and floral shears are essential for creating arrangements. Vases, containers, and ribbons are also commonly used in floristry to enhance the presentation of the floral designs. Overall, a combination of natural materials and specialized tools are key to creating beautiful and professional floral arrangements.
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What happens to the XYZ materials during equipment?
During equipment, the XYZ materials are typically subjected to various processes such as mixing, heating, cooling, and shaping. These processes are designed to transform the raw XYZ materials into the desired final product. For example, in a manufacturing setting, the XYZ materials may be mixed with other ingredients, heated to a specific temperature, and then molded into a specific shape. Overall, the XYZ materials undergo physical and chemical changes to achieve the desired properties and characteristics during equipment.
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