EGFP Cell Line Products

An EGFP Cell Line is a genetically engineered cell line designed to express Enhanced Green Fluorescent Protein (EGFP), a bright and stable fluorescent marker derived from jellyfish. EGFP emits a strong green fluorescence when exposed to blue light, making it a powerful tool for visualizing and tracking cellular events in real time. By tagging genes, proteins, or cellular structures with EGFP, researchers can study processes like gene expression, protein localization, cell signaling, and migration with high sensitivity and specificity. EGFP cell lines are widely used in molecular and cellular biology, drug discovery, and live-cell imaging, providing a reliable and non-invasive method for studying complex cellular dynamics.

Advantages of EGFP Cell Lines

High Fluorescence Intensity

Provides a bright, stable fluorescence signal, enhancing visibility and enabling clear observation of cellular structures, even at low expression levels.

Real-Time Visualization

Permits live-cell imaging, which lets scientists see dynamic cellular processes in real time without interfering with cellular activity.

Non-Invasive Tracking

Non-toxic and does not interfere with normal cell physiology, allowing for continuous monitoring over extended time periods.

Stability and Reproducibility

Provide consistent and reliable expression of the fluorescent protein, resulting in reproducible data and high-quality results across experiments.

High Sensitivity and Specificity

Allows researchers to detect low levels of expression and offers specificity for tagged genes, proteins, or pathways.

Compatibility with Multiplex Imaging

Combined with other fluorescent proteins in multicolor imaging, enabling simultaneous tracking of multiple targets within a single experiment.

Featured Products

You can contact us directly to get more of our EGFP cell lines! Unlocking the power of advanced research with our EGFP cell line products! Engineered for optimal fluorescence, our EGFP cell lines enable precise tracking of cellular processes, dynamic imaging, and effective gene expression studies. Whether you're exploring cellular activation, protein localization, or developmental biology, our high-quality EGFP cell lines provide the reliability and performance you need. Illuminate your discoveries and take your research to the next level with our premium EGFP cell line solutions!

Applications of EGFP Cell Lines

Protein Localization and Trafficking
Allow for real-time visualization of protein locations within cells.
Gene Expression Studies
Monitor gene activity and transcriptional responses.
Cell Tracking and Migration Studies
Track cells over time in migration and invasion assays.
Drug Screening and Toxicology
Valuable in high-throughput drug screening and toxicity testing, providing visible markers for cellular responses.
Signal Transduction Pathway Analysis
Visualize pathway activation, such as response to growth factors or environmental stress, enabling studies on cell signaling dynamics.
Cell Differentiation and Developmental Studies
Examine the processes of cellular development and stem cell differentiation.

Workflow of EGFP Cell Lines

Published Data

Fig.1 Sorting process of EGFP cells. (Koepke, et al., 2020) Fig.1 The figure above illustrates the sorting process of EGFP cells.¹

Contact Us for Custom EGFP Cell Line

Looking for tailored EGFP cell lines to advance your research? As a reliable supplier of custom EGFP cell lines, we are dedicated to providing cell models that meet the specific needs of your study, from enhanced fluorescence stability to optimized expression levels. Our expert team works closely with clients to understand their unique research goals, developing high-quality EGFP cell lines designed for accuracy, reproducibility, and ease of use. For more details on our custom EGFP cell line services or to discuss your project requirements, please reach out to us today. We're excited to work with you to develop EGFP cell lines that will help you succeed.

Reference

Koepke, Lennart et al. "An improved method for high-throughput quantification of autophagy in mammalian cells." Scientific reports vol. 10,1 12241. 22 Jul. Distributed under Open Access license CC BY 4.0, without modification.