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2D & 3D Cell Culture Facilities – For studying cellular behavior in controlled and reproducible environments.
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Patient-Derived Models – Integrating diverse, patient-derived samples to strengthen the link between experimental research and clinical relevance.
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Biochemical Techniques – Western blotting, ELISA, and other molecular analysis methods.
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Live Cell Imaging – Capturing dynamic cellular processes in real time.
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Flow Cytometry & Cell sorting –Enabling precise cell characterization and cell isolation.
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Molecular Biology Techniques – Using RT-qPCR and RNAi to study gene expression and function.
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Cell-Penetrating Peptide Design – Exploring strategies for targeted molecular delivery.
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Immunohistochemistry & Cytochemistry – Methods for analyzing cellular and tissue architecture.
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In Vivo Mice Experiments – Studying tumor growth, metastasis, and response to therapies.
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Gene Editing – Utilizing CRISPR/Cas9 for precise genetic modifications.
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Spatial Transcriptomics – Mapping gene activity at the cellular level to uncover tissue complexity.
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DNA and RNA Bulk and Single Cell Sequencing – Providing insights into molecular and cellular diversity and cross talk.
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Mass Spectrometry – Enabling unbiased, high-resolution analysis of proteins and their functions