Full Description
This book explores current omics technologies and provides researchers with a comprehensive understanding of them.
In recent years, technological advances have transformed the life sciences, ushering in the era of "omics" approaches. These methods, which emerged in the wake of the Human Genome Project, are driven by the need to systematically understand genomic diversity and gene expression. They have ushered in the age of big data in the life sciences, revolutionising the way biological questions are asked and experimental results are handled.
Omics approaches cover a wide range of applications, from mapping environmental biodiversity to characterising molecular interactions and small molecules. Despite the current accessibility of these technologies, most researchers and students in the life sciences have had limited exposure to the field, preventing them from fully grasping the power and limitations of the technology, or the critical importance of tailored experimental design and data analysis.
The challenges that are posed by omics technologies are addressed in this book. It provides a comprehensive overview and shows how omics approaches can be effectively used to gain innovative insights into specific biological problems.
The book is divided into three main parts:·
Part I Capturing the Molecular Universe, provides an in-depth exploration of the current technologies, highlighting their potential and limitations.
Part II From Large Scale Data to Biological Insights, offers a practical introduction to the world of data generated by omics methodologies, emphasizing data sharing, management, and analysis, with a focus on readers in the biological sciences.
Part III Application of Omics Approaches, outlines various applications of omics technologies in biomedicine and biotechnology, offering insights into their current use and future potential.
The book is a valuable resource for both seasoned researchers and those entering the field, facilitating a deeper understanding of omics approaches and their transformative impact on the life sciences.
With illustrations by Filipa Santos.
Contents
PART I. Capturing the Molecular Universe.- Chapter 1. Microarrays and the Dawn of Omics Data Analysis.- Chapter 2. Advances in Massive Parallel Sequencing: From Genomics to Spatial Transcriptomics.- Chapter 3. Latest Developments in Mass Spectrometry-based Techniques for Metabolomics Analysis.- Chapter 4. Separative Techniques Coupled to Mass Spectrometry for metabolomic analysis.- Chapter 5. Metabolomics: Fundamentals, Methods, Analysis, Limits and Recommendations.- Chapter 6. Interactomics - Dissecting Protein Networks in Living Systems.- Chapter 7. Functional Genomics - Principles and Methods.- PART II. From Large Scale Data to Biological Insights.- Chapter 8. FAIR Omics Data Management: Overview, Challenges and Best Practices.- Chapter 9. Challenges and Opportunities for Statistics in Omics Data Analysis.- Chapter 10. Key Concepts in Transcriptomics Data Analysis in the Era of Next Gen Sequencing.- Chapter 11. Data Analysis in Extreme Resolution Mass Spectrometry Untargeted Metabolomics.- Chapter 12.- A Primer On Modelling Approaches For Omics Data.- Chapter 13. Functional interpretation of omics data: from pathways to networks.- Chapter 14. Multi-omics data integration.- PART III. Applications of Omics approaches.- Chapter 15. Genomics in Health and Biomedicine.- Chapter 16. Genome Sequencing In Infectious Disease Outbreaks.- Chapter 17. A Journey Into Plant-Microbe Interactions: From Lab To Field For A Sustainable Agriculture.- Chapter 18. Decoding Plant Immunity: Proteomics as a Biotechnological tool for crop improvement.- Chapter 19. Clinical Proteomics Applied to Food Allergy.- Chapter 20. Applications of Metabolomics in the Development of Biomedicine and Biotechnology.
