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This volume discusses popular methods to achieve different types of mutagenesis and forward/reverse genetics in Medicago truncatula. Several studies on genetic control of developmental and metabolic processes in this model legume are also described. The chapters in this book cover topics such as Targeting Induced Local Lesions IN Genomes (TILLING), Fast Neutron Bombardment (FNB), Tnt1 insertional mutagenesis, Virus-Induced Gene Silencing (VIGS), stable inactivation of microRNAs in roots, gene editing by CRISPR-Cas9, etc. This book also contains reviews on the specific use of these techniques in functional studies on the genetic control of seed, leaf, root, nodule, floral and fruit development in M. truncatula. Written for the highly successful Methods in Molecular Biology series format, chapters contain the kind of detailed description and implementation advice needed to promote success in the lab. Cutting-edge and thorough, Functional Genomics in Medicago truncatula: Methods and Protocols is a valuable resource for anyone interested in learning more about this developing field.
Medicago truncatula Functional Genomics - An Invaluable Resource for Studies on Agriculture Sustainability.
This book focuses on the discoveries in M. truncatula genomic research which has been undertaken in the last two decades. Legumes are important for their economic values as food, feed, and fodder and also serve as the pillar of sustainable agriculture because of its biological nitrogen fixation capacity. Medicago truncatula was established as a model legume in the 1990s and has been well adopted as a model internationally since then. M. truncatula is an autogamous, diploid (2n = 16) species with a short generation time, and relatively small genome size (~375 Mbp). The M. truncatula genome was initially sequenced by the International Medicago Genome Annotation Group (IMGAG) in 2011 and has been well-annotated. M. truncatula research benefits from the availability of several genetic and genomic tools, such as gene expression atlas (MtGEA), insertion and neutron bombardment mutant populations, and a HapMap panel containing 384 sequenced inbred lines for genome-wide association studies. This book covers the current status and latest advancements of the M. truncatula genomics and transcriptomics resources along with a glimpse of newly developed tools that makes M. truncatula a front runner model in functional genomic studies.
This book titled "Functional Genomics" contains a selection of chapters focused on crucial topics in functional genomics, from the analysis of the genetic code, to the understanding of the role of the different genes and to the proteomic implications. The book provides an overview on basic issues and some of the recent developments in medicinal science and technology. Covering all the aspects involved in such a broad theme as functional genomics and in all its applications would be impossible within the same book. The different chapters represent a brief introduction to the topic, connecting the most promising developments in functional genomics technologies, focusing on specific applications in biomedicine, agro-food technologies and zootechniques.
In this incisive, concise overview of this booming field, the editors -- two of the leading figures in the field with a proven track record -- combine their expertise to provide an invaluable reference on the topic. Following a treatment of transcriptome analysis, the book goes on to discuss replacement and mutation analysis, gene silencing and computational analysis. The whole is rounded off with a look at emerging technologies. Each chapter is accompanied by a concise overview, helping readers to quickly identify topics of interest, while important, carefully selected words and concepts are explained in a handy glossary. Equally accessible to both experienced scientists and newcomers to the field.
The openings offered by functional genomics reconciles organism biology and molecular biology, in order to define an integrative biology that should allow new insights about how a phenotype is built up from a genotype in interaction with its environment. This book covers a wide area of concepts and methods in genomics. This range from international
Cet ouvrage illustre de façon claire et pédagogique les méthodes et les concepts qui sont à la base des progrès de la génomique en biologie végétale (grands programmes internationaux de séquençage, outils de la bio-informatique, méthodes d'analyse de l'expression des gènes incluant leurs produits métaboliques finaux et leur spécificité tissulaire et/ou cellulaire). Il rend compte des applications potentielles de la génomique dans les domaines de la génétique et de l'amélioration des plantes, de l'écophysiologie et de l'agronomie. Ce livre s'adresse aux étudiants de fin d'études universitaires ou agronomiques, aux professeurs de l'enseignement supérieur, aux techniciens, aux ingénieurs et scientifiques qui souhaitent acquérir des connaissances en génomique végétale.
Functional genomics is a young discipline whose origin can be traced back to the late 1980s and early 1990s, when molecular tools became available to determine the cellular functions of genes. Today, functional genomics is p- ceived as the analysis, often large-scale, that bridges the structure and organi- tion of genomes and the assessment of gene function. The completion in 2000 of the genome sequence of Arabidopsis thaliana has created a number of new and exciting challenges in plant functional genomics. The immediate task for the plant biology community is to establish the functions of the approximately 25,000 genes present in this model plant. One major issue that will remain even after this formidable task is c- pleted is establishing to what degree our understanding of the genome of one model organism, such as the dicot Arabidopsis, provides insight into the or- nization and function of genes in other plants. The genome sequence of rice, completed in 2002 as a result of the synergistic interaction of the private and public sectors, promises to significantly enrich our knowledge of the general organization of plant genomes. However, the tools available to investigate gene function in rice are lagging behind those offered by other model plant systems. Approaches available to investigate gene function become even more limited for plants other than the model systems of Arabidopsis, rice, and maize.
Discover cutting-edge knowledge for engineering a more productive and environment-friendly agriculture! In Plant Functional Genomics, you’ll find a cross-section of state-of-the-art research on the biological function of plant genes and how they work together in health and disease. World-leading scientists in the field present breakthrough techniques, discuss the results of projects aimed at dissecting particular plant functions, and provide an overview on the state of functional genomics for several plant and plant-related species. With figures, tables, and illustrations, this book will help scientists, researchers, and advanced students in botany find new ways of creating novel plant forms to better serve the needs of a rapidly expanding human population. Plant Functional Genomics will increase your understanding of gene networks and systems rules, as well as gene expression during specific conditions or development or treatments. This important resource contains a wealth of data generated by various plant genome sequencing projects, including the newest results from experiments with Arabidopsis thaliana—the first plant to be completely sequenced. This book also contains innovative research on: T-DNA mutagenesis transcriptomics and metabolic profiling in plants large-scale yeast two-hybrid analyses the exceptional model system of Chlamydomonas genomics functional genomics in rice, maize, and Physcomitrella prospects for functional genomics in a new model grass chloroplast and plant mitochondrial proteomics plant transporters so much more Plant Functional Genomics will help speed up the identification and isolation of genes that might be of interest with respect to diverse biological questions. This valuable contribution to the field clarifies the challenges yet to be faced and the opportunities that could some day expand the frontiers of plant sciences.
This monograph series is commissioned by the Phytochemical Society of North America (PSNA). The volumes in this series contain articles on developing topics of interest to scientists, students and individuals interested in recent developments in the biochemistry, chemistry and molecular biology of plants. Volume 36 centers on the role of phytochemistry in the rapid developments in biology brought about by the application of large-scale genomics approaches. Several functional genomic approaches discussed in this volume address plant gene function on a large scale. Plants are combinatorial chemists par excellence, and understanding the principles that relate enzyme structure to function will open up unlimited possibilities for the rational design of new enzymes to generate novel biologically active natural products. Knowledge of the molecular genetics of plant natural product pathways will also facilitate the engineering of these pathways for plant improvement and human benefit. Phytochemistry truly has a great future in the genomics and post-genomics eras.