OMICS Applications in Biomedical, Agricultural, and Environmental Sciences
Coordonnateurs : Barh Debmalya, Zambare Vasudeo, Azevedo Vasco
With the advent of new technologies and acquired knowledge, the number of fields in omics and their applications in diverse areas are rapidly increasing in the postgenomics era. Such emerging fields?including pharmacogenomics, toxicogenomics, regulomics, spliceomics, metagenomics, and environomics?present budding solutions to combat global challenges in biomedicine, agriculture, and the environment. OMICS: Applications in Biomedical, Agricultural, and Environmental Sciences provides valuable insights into the applications of modern omics technologies to real-world problems in the life sciences. Filling a gap in the literature, it offers a broad, multidisciplinary view of current and emerging applications of omics in a single volume.
Written by highly experienced active researchers, each chapter describes a particular area of omics and the associated technologies and applications. Topics covered include:
- Proteomics, epigenomics, and pharmacogenomics
- Toxicogenomics and the assessment of environmental pollutants
- Applications of plant metabolomics
- Nutrigenomics and its therapeutic applications
- Microalgal omics and omics approaches in biofuel production
- Next-generation sequencing and omics technology for transgenic plant analysis
- Omics approaches in crop improvement
- Engineering dark-operative chlorophyll synthesis
- Computational regulomics
- Omics techniques for the analysis of RNA splicing
- New fields, including metagenomics, glycomics, and miRNA
- Breast cancer biomarkers for early detection
- Environomics strategies for environmental sustainability
This timely book explores a wide range of omics application areas in the biomedical, agricultural, and environmental sciences. Throughout, it highlights working solutions as well as open problems and future challenges. Demonstrating the diversity of omics, it introduces readers to state-of-the-art developments and trends in omics-driven research.
The World of Omics and Applications in Biomedical Sciences: Proteomics: Techniques, Applications, and Challenges. Epigenome: Genomic Response to Environmental Eccentricities. Epigenomics: Basics and Applications. Pharmacogenomics for Individualized Therapy. Pharmacogenomic Knowledge to Support Personalized Medicine: The Current State. Toxicogenomics: Techniques, Applications, and Challenges. The World of Noncoding RNAs. Spliceomics: The OMICS of RNA Splicing. Computational Regulomics: Information Theoretic Approaches toward Regulatory Network Inference. Glycomics: Techniques, Applications, and Challenges. Breast Cancer Biomarkers. Use of Protein Biomarkers for the Early Detection of Breast Cancer. The World of Omics and Applications in Plant and Agricultural Sciences:Genomics, Proteomics and Metabolomics: Tools for Crop Improvement under Changing Climatic Scenarios. Application of Next-Generation Sequencing for Abiotic Stress Tolerance. Next-Generation Sequencing and Assembly of Bacterial Genomes. Towards Engineering Dark-Operative Chlorophyll Synthesis Pathways in Transgenic Plastids. Utilization of Omics Technology to Analyze Transgenic Plants. Microalgal Omics and Their Applications. Plant Metabolomics: Techniques, Applications, Trends, and Challenges. Nutraceuticals: Applications in Biomedicine. Genomic Resources of Agriculturally Important Animals, Insects, and Pests. The World of Omics and Applications in Environmental Sciences: Applications of Molecular Spectroscopy in Environmental and Agricultural Omics. Metagenomics: Techniques, Applications, and Challenges. Toxicogenomics in the Assessment of Environmental Pollutants. Omics Approaches in Biofuel Production for a Green Environment. Environomics: Omics for the Environment. Index.
Debmalya Barh is the founder and president of the Institute of Integrative Omics and Applied Biotechnology (IIOAB), India, a global platform for multidisciplinary research and advocacy. He is a consultant biotechnologist and has more than 12 years of rich experience in interdisciplinary omics fields. His research areas include integrative omics–based translational researches, target and targeted drug discovery, biomarkers, pharmacogenomics, neutrigenomics, cancer, neuroscience, cardiovascular diseases, infectious and metabolic diseases, and plant, animal, and environmental biotechnology. As an active scientist in the field, he works with nearly 200 researchers from more than 80 institutes across 25 countries. He has edited a number of research reference books in the areas of omics, biomarkers, and other advanced domains in biology. He also serves as an editorial and review board member for several professional international research journals of global repute.
Vasudeo Zambare is a biochemist. He previously worked at Agharkar Research Institute, India, and the Center for Bioprocessing Research and Development at the South Dakota School of Mines and Technology, USA. His current research concentrates on the use of omics technologies in agriculture, functional food, and environmental sciences. He has published more than 150 peer-reviewed articles and is editor-in-chief, technical editor, associate editor, editorial board member, or advisory member of more than 80 international research journals. He is a fellow member of several international societies, including the Institute of Integrative Omics and Applied Biotechnology (IIOAB).
Vasco Azevedo is a full professor in molecular biology and genetics at the Federal University of Minas Gerais, Brazil. He is a pioneer scientist in lactic acid bacteria and Corynebacterium pseudotuberculosis and a well-known scientist in bacterial genomics, transcriptom
Date de parution : 04-2017
17.8x25.4 cm
Date de parution : 04-2013
17.8x25.4 cm
Mots-clés :
DNA Methylation; Data Set; genomics; Breast Cancer; proteomics; Gm Food; epigenomics; Histone Modications; pharmacogenomics; DNA Microarrays; toxicogenomics; Breast Tumors; spliceomics; Genomic Imprinting; regulomics; Long ncRNAs; glycomics; Metagenomic DNA; metabolomics; NIR Spectroscopy; metagenomics; PGx Information; environomics; Splice Site; microalgal omics; Reference Genome; next-generation sequencing; Reverse Engineering Algorithm; omics for biofuel; Nucleic Acid Protein Programmable Array; omics applications; Diallyl Trisulde; biomedical omics; Complex Glycans; breast cancer biomarkers; Plant Metabolomics; transgenic plants; De Novo Assembly; environmental science; Dep Extract; agricultural science; Drug Induce Qt Interval Prolongation; Plastid Genome; Gm Crop; Clinical Practice