About
Single-cell genomics is transforming our understanding of biology by enabling the study of individual cells within complex tissues. Unlike traditional bulk genomic approaches, single-cell genomics provides high-resolution insights into cellular behavior, function, and disease mechanisms. This 1-month program covers the fundamental techniques of single-cell sequencing, from sample preparation to data analysis, offering a detailed exploration of how single-cell technologies are applied in fields such as oncology, immunology, and developmental biology.
This program also discusses how single-cell genomics is used to uncover cellular heterogeneity, understand disease progression, and develop precision therapies. By the end of the program, learners will be equipped with the skills to apply single-cell technologies in their research and clinical practice.
Aim
This program aims to provide an in-depth understanding of single-cell genomics, focusing on cutting-edge techniques that enable high-resolution analysis of individual cells. Participants will explore the methodologies used to study cellular heterogeneity, discover applications in personalized medicine, and understand how single-cell technologies are reshaping biomedical research.
Program Objectives
- Understand the principles and techniques of single-cell genomics.
- Learn methods for single-cell sequencing and analysis.
- Explore the applications of single-cell genomics in research and medicine.
- Develop skills in bioinformatics for single-cell data interpretation.
- Evaluate the future trends and potential of single-cell technologies.
Program Structure
Week 1: Introduction to Single-Cell Genomics
Overview of Genomics and Single-Cell Technologies.
Differences between bulk and single-cell sequencing.
Sample Preparation Techniques for Single-Cell Analysis.
Platforms for Single-Cell Sequencing: Smart-seq, 10x Genomics, etc.
Week 2: Single-Cell RNA Sequencing and Data Analysis
Introduction to Single-Cell RNA-seq and Transcriptomics.
Methods for Isolating Individual Cells from Complex Tissues.
Data Analysis: Processing and Interpreting Single-Cell RNA-seq Data.
Key Bioinformatics Tools for Single-Cell Genomics: Seurat, Scanpy, and others.
Week 3: Applications of Single-Cell Genomics
Single-Cell Genomics in Cancer Research and Tumor Microenvironments.
Immune Profiling with Single-Cell RNA-seq.
Insights into Stem Cell Biology and Developmental Processes.
Case Studies: Real-World Applications of Single-Cell Technologies in Research.
Week 4: Future Trends and Career Development
Emerging Single-Cell Technologies: Spatial Transcriptomics, Single-Nucleus RNA-seq.
The Role of Single-Cell Genomics in Personalized Medicine.
Preparing for a Career in Single-Cell Genomics: Skills and Knowledge Required.
Ethical Considerations and Challenges in Single-Cell Research.
Participant’s Eligibility
- Undergraduate degree in Biotechnology, Molecular Biology, Bioinformatics, or related fields.
- Professionals in biomedical research, clinical diagnostics, or pharmaceutical industries.
- Individuals with an interest in genomic data analysis and precision medicine.
Program Outcomes
- Mastery of single-cell sequencing techniques.
- Practical knowledge of bioinformatics tools for data analysis.
- Ability to apply single-cell genomics in biomedical research.
- Expertise in interpreting single-cell RNA-seq data.
- Awareness of the future of single-cell technologies in healthcare.
Program Deliverables
- Access to e-LMS
- Real-Time Project for Dissertation
- Project Guidance
- Paper Publication Opportunity
- Self Assessment
- Final Examination
- e-Certification
- e-Marksheet