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      • Metaichmio Publications S.A.

        Metaichmio was founded in 1993 and today is one of the most important and leading publishing companies in Greece, specializing in translated and Greek fiction, as well as in children’s and educational books, academic books, biographies, contemporary comment and graphic novels, both translated and original.   Our list includes many multi-awarded Greek authors and illustrators. Over the years, our original titles (children’s and adult) and our acclaimed contributors have been awarded among others with the following distinctions: The Greek State Prize (for Adult and Children’s Literature) Academy of Athens Novel Prize IBBY awards and nominations Mentions in the White Raven Catalogue of the International Children’s Library of Munich Nominations for the Hans Christian Andersen Illustration Award “Public” Book Awards Literary Prizes awarded by Anagnostis / Dekata literary magazines

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      • Trusted Partner
        June 2021

        The Genetics and Genomics of the Rabbit

        by Luca Fontanesi

        Rabbits have many uses - as well as being cherished pets, they are bred for their meat and fur, and as laboratory animals. Understanding their genetics and genomics is key to their production and, equally, to their care, welfare and health. Beginning with an introduction to the rabbit, including key information on their evolution, domestication and breed types, this book then concentrates on the genetics and genomics of this valuable animal.This book covers:- Cytogenetics, genetic maps and QTL mapping;- Immunogenetics;- Genetics of coat colour, meat, fibre and fur production, reproduction, disease resistance and more.Concluding with practical applications such as creating transgenic and genome edited rabbits, biotechnical applications and the rabbit as a biomedical model, this book brings this important topic fully up-to-date. It provides an indispensable resource for animal and veterinary researchers and students, as well as rabbit breeders and laboratory scientists. Chapter 1: The Evolution, Domestication and World Distribution of the European Rabbit (Oryctolagus cuniculus) Chapter 2: Rabbit Breeds and Lines and Genetic Resources Chapter 3: The Genome of the European Rabbit and Genomic Tools Chapter 4: Cytogenetics, Physical and Genetic Maps and QTL Mapping in the European Rabbit Chapter 5: Immunogenetics in the Rabbit Chapter 6: Genetics and Molecular Genetics of Coat Colour in the European Rabbit Chapter 7: Genetics of Fibre and Fur Production in Rabbits Chapter 8: Genetics and Molecular Genetics of Morphological and Physiological Traits and Inherited Disorders in the European Rabbit Chapter 9: Genetics of Disease Resistance in the European Rabbit Chapter 10: Genetics and Genomics of Growth, Carcass and Meat Production Traits in Rabbits Chapter 11: Biology of Reproduction and Reproduction Technologies in the Rabbit Chapter 12: Genetics of Reproduction in the Rabbit Chapter 13: Genetic Improvement in the Meat Rabbit Chapter 14: Rabbit Research in the Post-genomic Era: Transcriptome, Proteome and Metabolome Analyses Chapter 15: Methods to Create Transgenic and Genome-edited Rabbits Chapter 16: Pluripotent Stem Cells in Rabbits Chapter 17: Biotechnology Applications in the Rabbit Chapter 18: The Rabbit as a Biomedical Model

      • Trusted Partner
        Biotechnology
        November 2010

        Medicinal Plant Biotechnology

        by Suman Chandra, M Georgiev, Aakash Goyal, Renu Goyal, S Dutta Gupta, Suvi T Häkkinen, Ionkova Iliana, Harish C Joshi, Amit C Kharkwal, Hemant Lata, A K Mathur, Archana Mathur, Pradeep Kumar Naik, Rofina Yasmin Othman, Kenneth E Palmer, John R Porter, R S Sangwan, Tetsuya Sakurai, Ashok Sharma, P C Sharma, Bikram Singh, Rajeshwar Verma, Heribert Warzecha, Christoph Wawrosch, Feroz Khan. Edited by Rajesh Arora.

        There have been rapid advances in the field of plant biotechnology in recent years, increasing the potential for medical application. Covering the latest advances in the use of plants to produce medicinal drugs and vaccines, this volume examines topics including plant tissue culture, secondary metabolite production, metabolomics and metabolic engineering, bioinformatics, molecular farming and future biotechnological directions, with contributors from key researchers in the field. Medicinal Plant Biotechnology is an essential text for researchers in plant biology and biotechnology, medical sciences and pharmacology.

      • Trusted Partner
        Mycology, fungi (non-medical)
        August 2009

        Applied Mycology

        by Edited by Mahendra Rai, Paul Dennis Bridge

        The fungal kingdom consists of a wide variety of organisms with a diverse range of forms and functions. Fungi have been utilized for thousands of years and their importance in agriculture, medicine, food production and the environmental sciences is well known. New advances in genomic and metabolomic technologies have allowed further developments in the use of fungi in industry and medicine, increasing the need for a compilation of new applications, developments and technologies across the mycological field. Applied Mycology brings together a range of contributions, highlighting the diverse nature of current research. Chapters include discussions of fungal associations in the environment, agriculture and forestry, long established and novel applications of fungi in fermentation, the use of fungi in the pharmaceutical industry, the growing recognition of fungal infections, current interests in the use fungal enzymes in biotechnology and the new and emerging field of myconanotechnology. Demonstrating the broad coverage and importance of mycological research, this book will be of interest to researchers and students in all biological sciences.

      • Trusted Partner
        Technology, Engineering & Agriculture
        October 2016

        Strawberry

        Growth, Development and Diseases

        by Amjad M. Husaini, Davide Neri

        Methods of strawberry cultivation have undergone extensive modification and this book provides an up-to-date, broad and balanced scientific review of current research and emerging challenges. Subjects covered range from plant propagation, architecture, genetic resources, breeding, abiotic stresses and climate change, to evolving diseases and their control. These topics are examined in three sections: - Genetics, Breeding and Omics - covering genetic resources, breeding, metabolomics, transcriptomics, and genetic transformation of strawberry. - Cultivation Systems and Propagation - discusses plant architecture, replanting problems and plant propagation techniques. - Disease and Stress Management - deals with traditional and emerging fungal diseases, their diagnosis and modern biocontrol strategies, and biotechnological interventions for dealing with the challenges of climate change. Strawberry: Growth, Development and Diseases is written by an international team of specialists, using figures and tables to make the subject comprehensible and informative. It is an essential resource for academics and industry workers involved in strawberry research and development, and all those interested in the commercial cultivation of strawberries. ; This book includes up-to-date information on all aspects from plant propagation, architecture, genetic resources, breeding, abiotic stresses and climate change, to evolving diseases and their control. It is written by an international team of specialists and covers current knowledge and emerging challenges. ; 1: Strawberries: a General AccountPART I: GENETICS, BREEDING AND OMICS2: Genetic Resources of the Strawberry3: Strawberry Breeding4: Chilean White Strawberry: Phenolic Profiling of its Different Parts5: Role of Fungal Avirulent Pathogens in the Defence Response of Strawberry6: Agrobacterium-mediated Genetic Transformation of StrawberryPART II: CULTIVATION SYSTEMS AND PROPAGATION7: Plant Architecture in Different Cultivation Systems8: Strawberry Root Growth and Architecture in Relation to Organic Residues and Replanting Problems9: Plant Propagation Techniques and Type of PlantsPART III: DISEASE AND STRESS MANAGEMENT10: Fungal Diseases of Strawberry and their Diagnosis11: New Biocontrol Strategies for Strawberry Fungal Pathogens12: Emerging Diseases in Strawberry Crop: Charcoal Rot and Fusarium Wilt13: Induced Systemic Resistance to Fusarium Wilt and Antioxidative Ability in Mycorrhizal Strawberry Plants14: Challenges of Climate Change to Strawberry Cultivation: Uncertainty and Beyond15: Molecular and Physiological Responses of Strawberry Plants to Abiotic Stress

      • Analytical chemistry
        December 2013

        Hot topics in Metabolomics: Food and Nutrition

        by Bernd Markus Lange

        Metabolomics is an emerging technology aimed at providing comprehensive profiles of small-molecule metabolites accumulated in microbes, plants and animals, or in food products derived from these organisms. In this book, experts in the field have contributed eight chapters reviewing the current status of the use of metabolomics in the food and nutritional sciences. Three areas of research are addressed – first, integration of metabolomics into crop improvement programs based upon classical breeding or genetic engineering; second, the role of metabolomics in food quality control, including authentication, safety, predictive modeling of sensory and nutritional attributes, and the analysis of processed foods; finally, the utility of metabolomics in assessing the correlation of dietary composition and human health. Technological advances are continually increasing the utility of metabolomics, and food and nutritional enterprises have much to gain from integrating this technology across the different sectors.

      • Agriculture & farming
        July 2015

        Agriculture Bioinformatics

        by R. Keshavachandran & S. Raji Radhakrishnan

        Biotechnological tools supplement various conventional approaches in conservation, characterization and utilization for increasing production and productivity of agricultural and horticultural crops. The emerging field of bioinformatics is an integrated field arising from merging of biology and informatics. It is a conglomeration of various new frontiers of science like genomics, proteomics, metabolomics etc. The rich warehouse of proteome and genome information nearly doubling every year has significant implications and applications in various areas of science including agriculture, horticulture, forestry and food science. Cheminformatics is specialized to a range of problems in the field of chemistry. Chemical pesticide reduction is possible by adopting cheminformatics methods to identify naturally occurring chemical compounds in crops which act against pests. Bioinformatics has transformed the discipline of life science from a purely lab based science to an information science as well. The present book Agriculture Bioinformatics is a compilation of 17 information packed s authored by working scientists in the respective discipline. In addition to the theoretical information, practical and applied aspects to boost productivity and quality of crops are given.

      • Agronomy & crop production
        October 2021

        Botany and Breeding of Spice Crops

        by Sharangi, A.B., Md. Nasim Ali & Syandan Sinha Ray

        The book throws insights on the concepts of origin and domestication of spice crops. There are elaborative description regarding different modes of reproduction of plants along with crop specific techniques regarding emasculation and pollination techniques. Conventional plant breeding methods has categorically been explained as these concepts would help spice breeders to choose the appropriate breeding tool. Detailed idea from tissue culture to genomics assisted breeding especially the theory and applications of various omics viz., metabolomics, genomics, transcriptomics, proteomics, etc., has been elaborated. Finally, different spice breeding information has been comprehensively documented in this book with some useful references to future directions of spice breeding throughout the world. The book shall pave the way for new age researchers, faculties, plant breeders, policy makers and amateur readers towards theoretical and empirical studies as well.

      • Trusted Partner
        Science & Mathematics
        December 2022

        Plant Omics

        Advances in Big Data Biology

        by Hajime Ohyanagi, Kentaro Yano, Eiji Yamamoto, Ai Kitazumi

        This book provides a comprehensive overview of plant omics and big data in the fields of plant and crop biology. It discusses each omics layer individually, including genomics, transcriptomics, proteomics, and covers model and non-model species. In a section on advanced topics, it considers developments in each specialized domain, including genome editing and enhanced breeding strategies (such as genomic selection and high-throughput phenotyping), with the aim of providing tools to help tackle global food security issues. The importance of online resources in big data biology are highlighted in a section summarizing both wet- and dry-biological portals. This section introduces biological resources, datasets, online bioinformatics tools and approaches that are in the public domain. This title: reviews each omics layer individually; focuses on new advanced research domains and technology; and summarizes publicly available experimental and informatics resources. This book is for students, engineers, researchers and academics in plant biology, genetics, biotechnology and bioinformatics.

      • Medicine
        2008

        Circulation: Cardiovascular Genetics

        An American Heart Association Journal

        by Edited by Ramachandran S Vasan MD, DM, MBBS

        Bimonthly - 2013 Volume(s) - 4 www.circgenetics.ahajournals.org Circulation: Cardiovascular Genetics publishes articles related to research in human cardiovascular genetics, including studies on Mendelian disorders and complex cardiovascular traits and disorders. Research incorporates the latest clinically relevant analytical modalities (such as haplotype maps), genome-wide association studies, transcriptomics, proteomics, and metabolomics (biomarkers), and their application to diagnostics, prognostics, and therapeutics in genetic determined cardiovascular diseases.  The scope of the journal extends well beyond cardiovascular genetics, with studies evaluating genomics, proteomics, metabolomics, and biomarkers as well. Reports of clinical trials using genetic and other biomarkers are regularly featured.

      • Biology, life sciences
        April 2006

        Application of Toxicogenomics to Cross-Species Extrapolation

        A Report of a Workshop

        by Committee on Applications of Toxicogenomics to Cross-Species Extrapolation, Committee on Emerging Issues and Data on Environmental Contaminants, National Research Council

        Some of what we know about the health effects of exposure to chemicals from food, drugs, and the environment come from studies of occupational, inadvertent, or accident-related exposures. When there is not enough human data, scientists rely on animal data to assess risk from chemical exposure and make health and safety decisions. However, humans and animals can respond differently to chemicals, including the types of adverse effects experienced and the dosages at which they occur. Scientists in the field of toxicogenomics are using new technologies to study the effects of chemicals. For example, in response to a particular chemical exposure, they can study gene expression ("transcriptomics"), proteins ("proteomics") and metabolites ("metabolomics"), and they can also look at how individual and species differences in the underlying DNA sequence itself can result in different responses to the environment. Based on a workshop held in August 2004, this report explores how toxicogenomics could enhance scientists' ability to make connections between data from experimental animal studies and human health.

      • Biology, life sciences
        March 2004

        Promise and Challenges in Systems Microbiology

        Workshop Summary

        by Patricia McAdams, Evonne Tang, National Research Council

        Microbiologists have become interested in applying “systems biology†to understand and harness complex biological processes in microbial communities. A systems approach, which attempts to use comparative, high-throughput assays, and mathematical or computational models, has been used to generate a picture of system-wide activity that can yield insight into processes operating within a single cell. But the concept of integrating advances in genomics, proteomics, and metabolomics and incorporating them into mathematical models can also be applied to microbial ecosystems, which typically occur in consortia of related and unrelated organisms. Research on microbial communities using a system-based approach could provide a broader perspective on controls on biological processes and how they operate in and among microorganisms. The National Academies of Sciences, Engineering, and Medicine held a workshop on “Progress and Promises of Systems Microbiology†in August 2003, with the intent of providing a forum for discussion of the tools, technology, and programs that are needed to advance the study of microorganisms through a systems approach. Participants also discussed ways to encourage collaboration among scientists of different disciplines. This report summarizes the presentations and discussions from the workshop.

      • Oncology
        October 2006

        Developing Biomarker-Based Tools for Cancer Screening, Diagnosis, and Treatment

        The State of the Science, Evaluation, Implementation, and Economics - Workshop Summary

        by Margie Patlak and Sharyl Nass, Rapporteurs

        Research has long sought to identify biomarkers that could detect cancer at an early stage, or predict the optimal cancer therapy for specific patients. Fueling interest in this research are recent technological advances in genomics, proteomics, and metabolomics that can enable researchers to capture the molecular fingerprints of specific cancers and fine-tune their classification according to the molecular defects they harbor. The discovery and development of new markers of cancer could potentially improve cancer screening, diagnosis, and treatment. Given the potential impact cancer biomarkers could have on the cost effectiveness of cancer detection and treatment, they could profoundly alter the economic burden of cancer as well. Despite the promise of cancer biomarkers, few biomarker-based cancer tests have entered the market, and the translation of research findings on cancer biomarkers into clinically useful tests seems to be lagging. This is perhaps not surprising given the technical, financial, regulatory, and social challenges linked to the discovery, development, validation, and incorporation of biomarker tests into clinical practice. To explore those challenges and ways to overcome them, the National Cancer Policy Forum held the conference "Developing Biomarker-Based Tools for Cancer Screening, Diagnosis and Treatment: The State of the Science, Evaluation, Implementation, and Economics" in Washington, D.C., from March 20 to 22, 2006. At this conference, experts gave presentations in one of six sessions. In addition, seven small group discussions explored the policy implications surrounding biomarker development and adoption into clinical practice. Developing Biomarker-based Tools for Developing Cancer Screening, Diagnosis, and Treatment: The State of the Science, Evaluation, Implementation, and Economics-Workshop Summary presents the conference proceedings and will be used by an Institute of Medicine (IOM) committee to develop consensus-based recommendations for moving the field of cancer biomarkers forward.

      • Agriculture & farming
        June 2009

        Abiotic Stress Tolerance in Crop Plants

        Breeding and Biotechnology

        by Bidhan Roy & Asit Kumar Basu

        Abiotic stresses have become an integral part of crop production. One or other persist either in soil, water or in atmosphere. The information in the areas of injury and tolerant mechanisms, variability for tolerance, breeding and biotechnology for improvement of crop plants against abiotic stresses are lying unorganized in different articles of journals and edited books. This information is presented in this book in organized way with up-to-date citations, which will provide comprehensive literatures of recent advances. More emphasis has been given to elaborate the injury and tolerance mechanisms, and development of improved genotypes against stress environments. This book also deals with the plants symptoms of particular abiotic stress, reclamation of soil and crop/cropping pattern to over come the effect of adverse condition(s). Each has been laid out with systematic approaches to develop abiotic stress tolerant genotypes using biotechnological tools. Use of molecular markers in stress tolerance and development of transgenic also have been detailed. Air pollution and climate change are the hot topic of the days. Thus, the effect of air pollution and climate change on crop plants have been detailed in the final three chapters of this book. Under abiotic stress, plant produces a large quantity of free radicals (oxidants), which have been elaborated in a separate ‘Oxidative Stress. This book has been divided into seven major parts- physical stress (salt), water stresses (drought and waterlogging), temperature stresses (heat and cold), metal toxicities (aluminium, iron, cadmium, lead, nickel, chromium, copper, zinc etc) and non-metal toxicities (boron and arsenic), oxidative stress, and finally atmospheric stresses (air pollution, radiation and climate change). This book will be of greater use for the students and researchers, particularly Plant Breeders and Biotechnologists as well as the Botanists, to understand the injury and tolerance mechanisms, and subsequently improvement of crop genotypes for abiotic stresses.

      • Agronomy & crop production
        June 2021

        Potato: Science and Technology in Sub-Tropics

        by Anand Kumar Singh,Swarup Kumar Chakrabarti, Brajesh Singh,Jagdev Sharma & Vijay Kumar Dua

        This book in its 20 chapters elaborates the latest scientific knowledge and technological achievements for development of potato in sub-tropics and also suggests the future strategies for likely adoption. It is our sincere belief that it would act as a compendium of potato research in the country and similar regions and researchers, students and other stakeholders will benefit from the compiled information in a big way.

      • Zoology & animal sciences
        June 2020

        Impact of Climate Change on Livestock Health and Production

        by Gangadhar Nayak, Kautuk Kumar Sardar, Bhabesh Chandra Das & Debiprasanna Das

        This volume of 30 chapters contributed by reputed authors covers: Diversification of livestock and crops. Integration of livestock systems with forestry and crop production. Drought and heat wave tolerant varieties. Strategies for reduction of Green House Gases emission from ruminants. Application of GIS and remote sensing technologies. Breeds with inherent genetic capabilities to adapt to climate change. This book also takes into account the climate change adaptation, mitigation practices, and policy frameworks for promotion of sustainable livestock and poultry production.

      • Botany & plant sciences
        September 2018

        Abiotic and Biotic Stress Management in Plants

        Volume 01: Abiotic Stress

        by Bhav Kumar Sinha & Reena

        This book deals with an array of topics in the broad area of abiotic stress responses in plants focusing problems and their management by selecting some of the widely investigated themes.

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