Comparing nuclear and whole cell transcriptomes

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Explores characterizing cell types based on various modalities and the evolving field of single-cell RNA sequencing in neuroscience.

Transcriptonomics in Mouse Virtual Cortex

Delves into using transcriptonomics to study the mouse virtual cortex and classifying cortical neurons.

Cell types in the brain

Introduces neuronal gene expression data and characterizes neurons based on morphology and connectivity.

Organoids: Model Systems in Tissue Engineering

Explores the development and applications of organoids in tissue engineering and disease modeling using miniature in vitro constructs.

Immune Tissue Engineering: Mechanisms and Applications

Explores immune tissue engineering, focusing on cell manipulation, immune cell types, and adaptive immune response levels, highlighting the importance of engineering immune cells for targeted therapies.

Immunoengineering: Engineering the Immune System

Delves into the complexity of the immune system, immunoengineering applications, and microengraving techniques for cell analysis.

Activation and Differentiation of T Cells

Explores the activation and differentiation of T lymphocytes, focusing on naive T cells recognizing antigens and differentiating into effector and memory cells.

Neuron Classification: Types and Challenges

Explores neuron classification, highlighting the importance of understanding brain complexity and the challenges in defining cell types.

Open-World Learning for Biomedical Data

Explores open-world learning for biomedical data, focusing on leveraging small datasets and discovering novel phenomena.

Immunoengineering: Techniques and Applications

Explores immunoengineering techniques like flow cytometry and microengraving for capturing immune responses and live cell information.