Aim

This course trains learners to perform end-to-end gene expression analysis using R—covering data cleaning, normalization, exploratory analysis, differential expression, functional enrichment, and visualization. Participants will gain hands-on experience with commonly used Bioconductor workflows and learn to interpret results in a biologically meaningful way for research and publication-ready reporting.

Program Objectives

• Build R + Bioconductor Confidence: Use R effectively for transcriptomics data analysis and reporting.
• Understand Expression Data Types: Learn microarray vs RNA-seq basics, count matrices, and metadata design.
• Run Differential Expression (DE): Perform DE analysis and interpret fold change, p-values, and FDR.
• Visualize Clearly: Generate heatmaps, volcano plots, PCA, clustering, and publication-ready figures.
• Biological Interpretation: Conduct GO/KEGG/pathway enrichment and interpret gene sets and networks.
• Hands-on Capstone: Complete a mini transcriptomics analysis project with a reproducible report.

Participant Eligibility

• UG/PG/PhD students in Biotechnology, Genetics, Bioinformatics, Molecular Biology, or related fields
• Researchers working with transcriptomics or gene expression studies
• Life science professionals who want to learn R-based omics analysis
• Data science learners interested in biological datasets (basic biology helpful)
• Anyone aiming to build reproducible gene expression analysis skills

Program Outcomes

• End-to-End Transcriptomics Workflow: Ability to run and explain a complete gene expression analysis pipeline.
• DE Analysis Skills: Confidence in finding differentially expressed genes and interpreting statistical outputs.
• Biological Interpretation: Ability to connect DE results to pathways and gene ontology insights.
• Visualization Proficiency: Create clean, publication-ready plots and heatmaps.
• Reproducible Reporting: Generate a structured report suitable for academic submission or publications.

Program Deliverables

• Access to e-LMS: Full access to course slides, notebooks, datasets (sample), and resources.
• Hands-on Assignments: Weekly practice tasks with guided interpretation steps.
• Project Guidance: Support for your thesis/dissertation transcriptomics analysis (where applicable).
• Reusable Templates: QC checklist, DE workflow template, enrichment reporting format, plotting scripts.
• Final Assessment: Certification after completing assignments + final project submission.
• e-Certification and e-Marksheet: Digital credentials provided upon successful completion.

Future Career Prospects

• Bioinformatics Analyst (Transcriptomics)
• Computational Biologist (Gene Expression)
• Genomics Data Analyst
• Research Associate (Omics & Data Science)
• Biostatistics / Data Analysis Associate (Life Sciences)
• Bioconductor / R Analyst (Life Science Analytics)

Job Opportunities

• Biotech & Pharma: Transcriptomics research, biomarker discovery, and drug response studies.
• Clinical & Genomics Labs: Expression profiling, pipeline analysis, and reporting.
• Research Institutes & Universities: Omics projects, grant-supported research, and publications.
• Bioinformatics Service Providers: Contract analysis, multi-omics pipelines, and consulting.
• HealthTech / AI-Bio Startups: Genomics analytics, data-driven diagnostics support, and platform development.