Eternity Ocean University

Genetics Biotechnology Roadmap

Plan your learning journey with our structured roadmap. Navigate through levels from Beginner to Master, ensuring a comprehensive understanding of genetics-biotechnology.

  • Beginner

    • Introduction to Genetics: Mendelian Inheritance
    • DNA Structure and Function
    • Genes, Alleles, and Genotypes
    • Phenotype and Genotype Relationship
    • Chromosomes and Cell Division (Mitosis & Meiosis)
    • Mutations: Types and Causes
    • Introduction to Biotechnology: Historical Overview
    • Basic Principles of Genetic Engineering
    • Recombinant DNA Technology: Core Concepts
    • Enzymes in Molecular Biology (Restriction Enzymes, Ligases)
    • Plasmids and Vectors for Gene Cloning
    • Bacterial Transformation
    • Gene Expression: Transcription and Translation
    • The Genetic Code
    • Central Dogma of Molecular Biology
    • Introduction to Genomics
    • Introduction to Proteomics
    • Basic Bioinformatics Tools and Databases
    • Ethical Considerations in Genetics and Biotechnology
    • Applications of Biotechnology in Agriculture
    • Applications of Biotechnology in Medicine
    • Applications of Biotechnology in Industry
    • Biotechnology Safety and Regulations
    • DNA Extraction and Purification Methods
    • Gel Electrophoresis for DNA Analysis
    • Polymerase Chain Reaction (PCR): Fundamentals
    • Introduction to Gene Editing Concepts
    • CRISPR-Cas9: Basic Mechanism
    • Biotechnology in Food Production
    • Biotechnology in Environmental Remediation

  • Intermediate

    • Non-Mendelian Inheritance Patterns (Incomplete Dominance, Codominance)
    • Epistasis and Gene Interactions
    • Linkage and Genetic Mapping
    • Sex-Linked Inheritance
    • Extranuclear Inheritance (Mitochondrial and Chloroplast DNA)
    • Population Genetics: Allele Frequencies and Hardy-Weinberg Equilibrium
    • Molecular Basis of Mutations (Point Mutations, Frameshift Mutations)
    • DNA Repair Mechanisms
    • Gene Regulation in Prokaryotes (Operons)
    • Gene Regulation in Eukaryotes (Transcription Factors, Epigenetics)
    • RNA Interference (RNAi) and Gene Silencing
    • Advanced PCR Techniques (RT-PCR, qPCR)
    • DNA Sequencing Technologies (Sanger, Next-Generation Sequencing)
    • Gene Cloning Strategies and Libraries
    • Protein Expression and Purification
    • Western Blotting and Immunodetection
    • Enzyme Kinetics and Assays
    • Metabolic Engineering Principles
    • Bioprocess Engineering Fundamentals
    • Fermentation Technology
    • Cell Culture Techniques (Animal and Plant)
    • Genomic DNA Library Construction
    • cDNA Library Construction
    • Southern Blotting for DNA Detection
    • Northern Blotting for RNA Detection
    • Introduction to Genetic Modification of Organisms (GMOs)
    • Transgenic Plants: Development and Applications
    • Transgenic Animals: Development and Applications
    • Biotechnology in Pharmaceutical Production
    • Biotechnology in Diagnostics

  • Advanced

    • Epigenetic Modifications (DNA Methylation, Histone Acetylation)
    • Chromatin Structure and Function
    • Non-coding RNAs (miRNA, lncRNA) in Gene Regulation
    • Systems Biology Approaches in Genetics
    • Comparative Genomics and Phylogenomics
    • Functional Genomics and Transcriptomics
    • Proteomics and Interactomics
    • Metabolomics and Fluxomics
    • CRISPR-based Gene Editing Applications
    • Synthetic Biology: Design Principles
    • CRISPR-based Gene Drive Technology
    • Advanced Gene Therapy Strategies
    • Personalized Medicine and Pharmacogenomics
    • Bioinformatics for Next-Generation Sequencing Data Analysis
    • Single-Cell Genomics and Transcriptomics

  • Expert

    • Advanced Epigenetic Engineering and Therapeutics
    • CRISPR-based Diagnostics and Therapeutics
    • Synthetic Gene Circuits and Biological Computing
    • CRISPR-based Genome Engineering in Complex Organisms
    • AI and Machine Learning in Genomics and Drug Discovery
    • CRISPR-based Gene Drives for Pest Control and Disease Vector Management
    • Advanced Gene Therapy for Inherited Diseases
    • Development of Novel Biologics and Biosimilars
    • Engineering Microbial Consortia for Industrial Applications
    • Organ-on-a-Chip Technology and Disease Modeling
    • CRISPR-based Epigenome Editing
    • Advanced Bioinformatics for Multi-omics Data Integration
    • CRISPR-based Base Editing and Prime Editing
    • Engineering Photosynthesis for Enhanced Crop Yields
    • CRISPR-based Applications in Livestock Improvement

  • Master

    • De Novo Genome Design and Engineering
    • Engineering Entire Genomes for Novel Functions
    • CRISPR-based Applications in Human Germline Editing (Ethical and Technical Frontiers)
    • Development of Artificial Life Forms
    • Advanced Synthetic Biology for Bio-manufacturing of Complex Molecules
    • CRISPR-based Applications in Ecosystem Engineering
    • Engineering of Complex Biological Systems for Novel Therapies
    • AI-driven Design of Novel Proteins and Enzymes
    • CRISPR-based Applications in Astrobiology and Terraforming
    • Engineering of Immune Systems for Cancer Therapy
    • Advanced Gene Therapy for Neurodegenerative Diseases
    • CRISPR-based Applications in Plant Breeding for Climate Resilience
    • Engineering of Biological Pathways for Sustainable Energy Production
    • CRISPR-based Applications in Conservation Genomics
    • Development of Next-Generation Gene Editing Tools Beyond CRISPR
🧑‍🏫
Original text
Rate this translation
Your feedback will be used to help improve Google Translate