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Cell Counting and Image Cytometry

Transfection and Transduction

Section

Celigo Applications

Cell Counting Method Selection

Cell Counting and Image Cytometry FAQs

Cell-based Assays for Bioprocessing

Cell-based Assays for Gene Therapy Development

Cellometer Applications

Modern Virology Assays

Sub Section

Cell Line Development

3D Cell Models

Assays for Virology Research

Brightfield Applications

Celigo Cell Counting Applications

Celigo Fluorescent Assays

Celigo Image Cytometer Direct Cell Counting Assays for Immunotherapy

Cell Line Development

Migration and Invasion Assays

iPSC Reprogramming

Topic

Transfection and Transduction

Single Cell Per Well Verification

Single Colony Identification

Single Tumor Sphere Identification

Transfection and Transduction

Cell line development process

The process of developing a cell line to produce a specific protein or antibody involves multiple stages, all of which can be greatly aided by the Celigo™ image cytometer.

Transfection

Determine transfection efficiency
Monitor stability of transfection

Stabilized outgrowth

Monitor growth in each well
Identify confluent wells for passaging
Increase growth with media optimization

Monoclonality

Verify efficiency of limiting dilution, or single cell dispensing
Identify single cell per well

Colony outgrowth

Confirm single colony

Robotic integration for cell line development

Whole well images: Single cell to single colony

Well with a single cell that grew into a single colony

The Celigo provides an optional robotic API which can be controlled by various automation scheduling software applications. The Celigo is ready for integration with multiple automation partners and can be coupled with robotic arms, automated incubators and liquid handlers.

The Celigo can be used through the whole process of cell line development.

Compatible with 96-, 384- and 1536-well plates.
Identify wells with a single colony to avoid the time-consuming and manual identification of clones by eye.
Measures colony size using brightfield and aids the process of selecting wells for clonal expansion.
Automate cell line generation process with the Celigo robotic integration.

Transfection & transduction optimization

Transfection efficiency

Sample 1 (top) shows moderate transfection efficiency while
sample 2 (bottom) has lower efficiency.

Quickly identify optimal parameters for high-efficiency transfection.

Determine transient and stable transfection rates and evaluate antibiotic induction using live imaging.

Monitor transfection efficiency on the Celigo directly
Acquire both brightfield and green fluorescence cell images
Identify all the cells using brightfield
Produce scatter plot for gating GFP+ cells
Calculate % GFP+ cells automatically
96- or 384-well plates

For research use only. Not for use in diagnostic procedures.

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