PhD Job Day

À propos Sagar Koirala

  • Vous êtes Etudiant·e en Master
  • Année 1ère année
  • Année de Master 1ère année
  • Etablissement actuel (si doctorant) Université de Lille
  • Etablissement actuel Master (si master) Université de Lille
  • établissement dans lequel j’ai obtenu le doctorat Université de Lille
  • Ecole doctorale
  • Discipline Biologie/santé
  • Votre Projet professionnel

    1. Exploring Genetic Instability in Cancer

    • Objective: Investigate the role of chromosomal instability in tumor progression and therapeutic resistance.
    • Methods: Employ CRISPR-Cas9 gene-editing techniques to model genetic instability in cancer cell lines.
    • Outcome: Identify key genetic drivers and potential therapeutic targets.

    2. Signal Transduction Pathways in Tumorigenesis

    • Objective: Analyze alterations in signaling pathways like PI3K/Akt/mTOR or MAPK in specific cancer types.
    • Methods: Use fluorescence microscopy and proteomics to study pathway activity under different conditions.
    • Outcome: Proposes pathway-specific inhibitors for personalized therapy.

    3. Tumor Microenvironment and Immune Evasion

    • Objective: Understand how cancer cells interact with their microenvironment to evade the immune response.
    • Methods: Study cancer-immune cell interactions using 3D co-culture systems and cytokine profiling.
    • Outcome: Develop strategies to enhance immune-based therapies.

    4. Therapeutic Resistance Mechanisms in Cancer

    • Objective: Investigate mechanisms of resistance to chemotherapy or targeted therapies in cancer cells.
    • Methods: Use RNA-seq and single-cell analysis to profile resistant cancer cells.
    • Outcome: Identify biomarkers and propose combination therapies to overcome resistance.

    5. Advanced Imaging Techniques for Cancer Research

    • Objective: Develop and validate fluorescence microscopy protocols to study live cancer cell behavior.
    • Methods: Optimize imaging techniques to visualize cellular dynamics in real-time.
    • Outcome: Provide quality-controlled methods for cancer research imaging.

    6. Metabolic Reprogramming in Cancer

    • Objective: Explore how cancer cells alter their metabolism to survive in hypoxic tumor microenvironments.
    • Methods: Analyze metabolic profiles using metabolomics and hypoxia-inducible factor (HIF) studies.
    • Outcome: Identify metabolic vulnerabilities for therapeutic intervention.
  • Titre du Master Life Science and Biotechnology
  • Adresse personnelle Tourcoing
  • Code postal 59200
  • Ville Lille
  • Pays France
  • Date de naissance (format JJ/MM/AAAA) 31/12/1998
  • Je comprends et accepte la politique de confidentialité Je comprends et accepte la politique de confidentialité

À propos de moi

🔬Aspiring Cancer Cell Biologist | Life Science & Biotechnology Enthusiast

I am enrolled in my first year at the University of Lille, Cité Scientifique for Life Science and Biotechnology course in the year 2024.

Passionate about unraveling the complexities of cancer biology through research. My interests focus on understanding cellular dynamics, genetic instability, and therapeutic resistance in cancer cells, to contribute to innovative strategies for cancer diagnosis and treatment.

I aim to bridge fundamental science with translational research, leveraging insights into tumorigenesis, signal transduction pathways, and the tumor microenvironment to advance the fight against cancer, currently exploring cutting-edge approaches in cellular and molecular biology to impact oncology research.

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