Omics Technologies and Bio-engineering Volume 2: Towards Improving Quality of Life
Coordonnateurs : Barh Debmalya, Azevedo Vasco Ariston De Car
Omics Technologies and Bio-Engineering: Towards Improving Quality of Life, Volume 2 is a unique reference that brings together multiple perspectives on omics research, providing in-depth analysis and insights from an international team of authors. The book delivers pivotal information that will inform and improve medical and biological research by helping readers gain more direct access to analytic data, an increased understanding on data evaluation, and a comprehensive picture on how to use omics data in molecular biology, biotechnology and human health care.
MICROBIAL, PLANT AND AGRI BT1. Microbial Omics: Applications in Biotechnology
2. Omics Approaches in Viral Biotechnology: Toward Understanding the Viral Diseases, Prevention,Therapy, and Other Applications in Human Betterment
3. Algal Biotechnology: An Update From Industrial and Medical Point of View
4. Omics Approaches in Fungal Biotechnology: Industrial and Medical Point of View
5. Genetic Engineering for Plant Transgenesis: Focus to Pharmaceuticals
6. Agricultural Biotechnology: Engineering Plants for Improved Productivity and Quality
7. Functional Food Biotechnology: The Use of Native and Genetically Engineered Lactic Acid Bacteria
8. Omics and Edible Vaccines
9. Plant Metabolic Engineering
10. Biocontrol Technology: Eco-Friendly Approaches for Sustainable Agriculture
11. Bioengineering Towards Fighting Against Superbugs
12. Nanotechnology in Bioengineering: Transmogrifying Plant Biotechnology
INDUSTRY AND ENV BIOTECH13. Techniques in Biotechnology: Essential for Industry
14. Omics Approaches in Industrial Biotechnology and Bioprocess Engineering
15. Omics Approaches and Applications in Dairy and Food Processing Technology
16. Omics Approaches in Enzyme Discovery and Engineering
17. Biomedical Engineering: The Recent Trends
18. Omics Approaches in Biofuel Technologies: Toward Cost Effective, Eco-Friendly, and Renewable Energy
19. Omics-Based Bioengineering in Environmental Biotechnology
20. Biochar for Carbon Sequestration: Bioengineering for Sustainable Environment
Dr. Vasco Azevedo is a full professor at the Department of Genetics, Ecology, and Evolution, Institute of Biological Sciences, Federal University of Minas Gerais, Brazil. He is a CNPq (Conselho Nacional de Desenvolvimento Científico e Tecnológico) researcher 1A, member of the Brazilian Academy of Sciences, Commander of the Order of Scientific Merit of the MCTI of the genetics advisory committee and the public policy working group on biotechnology and genetic resources of COBRG/CNPq, coordinator of the Associated International Laboratory Bactinfl from INRAE and UFMG, and vice-president of the Brazilian Association of Bioinformatics and Computational Biology. He holds a degree in veterinary medicine from the School of Veterinary Medicine of the Federal University of Bahia (1986), a master's degree (1989), a doctorate (1993) in the genetics of microorganisms from the Institut National Agronomique Paris Grignon, and a doctorate in bioinformatics from UFMG (2017). He did his postdoctorate work with the Department of Microbiology, School of Medicine, University of Pennsylvania, United States (1994). He was a professor at the Institute of Biomedical Sciences of the University of São P
- Covers various aspects of biotechnology and bio-engineering using omics technologies
- Focuses on the latest developments in the field, including biofuel technologies
- Provides key insights into omics approaches in personalized and precision medicine
- Provides a complete picture on how one can utilize omics data in molecular biology, biotechnology and human health care
Date de parution : 03-2018
Ouvrage de 420 p.
19x23.3 cm
Thèmes d’Omics Technologies and Bio-engineering :
Mots-clés :
ART (assisted reproductive technology); Algae products; Alkaloids; Alternative fuels; Antimicrobial nanomaterials; Antimicrobial resistance; Bioactive peptides; Biocatalysts; Biocontrol; Biocontrol agents; Biodiesel; Bioethanol; Biofuel generations; Biofuels; Biomass; Biomaterials; Biomechanics; Biopharmaceutical production; Bioprocess engineering; Biosensors; Biotechnology; Biotic stress tolerance; Biotribology; CRISPR; Cancer; Chloroplast genome engineering; Comparative genomics; Crop residue management; Discovery; Disease; Drought tolerance; Drug-resistant bacteria; Edible vaccines; Engineering; Environmental biotechnology; Environmental stressors; Enzyme; Enzymes; Food safety; Functional foods; Genetic engineering; Genetic manipulation; Genomics; Health; Heart diseases; Human; Immunogenomics; Immunomodulation; Industrial biotechnology; Industrial use; Infectious diseases; Inflammatory bowel disease; Lactic acid bacteria; MDR development; Metabolomics; Metatranscriptome; Microalgae; Microarray; Microbial biotechnology; Microbial ecology; Modern plant breeding; Molecular farming; Molecular markers; NGS (next-generation sequencing); Nanobarcodes; Nanobiotechnology; Nanodiagnostics; Nanomaterial; Nitrogen use efficiency; Noninvasive; Nutraceuticals; Nutritional improvement; Omics; Omics in industry; Omics revolution; Pan-genomics; Paper and pulp industry; Pharmaceuticals; Phenolics; Plant biotechnology; Plant molecular farming; Plantibodies; Probiotics; Proteomics; Pyrolysis; QTL (quantitative trait loci); Recombinant DNA technology; Seaweeds; Secondary metabolites; Secretomics; Soil organic carbon (SOC); Strain improvement; Stress resistance; Structural genomics; Superbugs; Systems biology; Techniques in biotechnology; Terpenoids; Tissue culture; Tissue engineering