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Description
In vascular biology and microcirculation research, conventional primary endothelial cell models often lack real-time traceability and fluorescence stability, making it difficult to study dynamic processes such as endothelial migration, angiogenesis, and barrier permeability under physiological or pathological conditions. These limitations are especially significant in ovarian microvascular research, where subtle endothelial responses are critical for understanding tissue-specific vascular regulation.
This GFP-expressing rabbit ovarian microvascular endothelial cell model provides a stable fluorescent system derived from primary ovarian microvascular endothelium. Cells are engineered via lentiviral GFP transduction, producing strong green fluorescence under blue-light excitation, enabling real-time visualization of endothelial behavior including migration, network formation, and vascular remodeling.
Validated by DiI-Ac-LDL uptake functional assay, this model retains key endothelial characteristics and is widely used for vascular biology research, angiogenesis studies, endothelial barrier function assays, and live cell imaging applications in microvascular systems.
Features
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GFP-expressing rabbit ovarian microvascular endothelial cells
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Stable fluorescent vascular tracking system for live imaging
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Validated endothelial phenotype via DiI-Ac-LDL uptake assay
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Gelatin-coated culture compatibility for stable adhesion
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Suitable for angiogenesis and migration assays
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Limited passage primary cell model (3–5 passages)
Specifications
| Cell Type | Rabbit Ovarian Microvascular Endothelial Cells |
| Genetic Label | GFP (Green Fluorescent Protein), lentiviral expression |
| Functional Validation | DiI-Ac-LDL uptake assay |
| Culture System | Gelatin-coated endothelial culture flask |
| Passage Range | 3–5 passages recommended |
| Storage | Liquid nitrogen (-180°C) |
| Shipping | Dry ice (frozen cryovial) |
Applications
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Ovarian microvascular biology research
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Endothelial barrier function studies
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Angiogenesis and vascular remodeling assays
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Live cell imaging and fluorescent tracking
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Microcirculation and vascular permeability studies
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Cardiovascular and vascular disease modeling
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Drug screening on endothelial systems
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Inflammation-induced vascular response studies
Fluorescent GFP Imaging System
The GFP labeling system enables high-resolution real-time imaging of endothelial cell dynamics. Under blue-light excitation, cells emit strong green fluorescence suitable for quantitative analysis of:
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Cell migration behavior
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Angiogenic network formation
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Endothelial barrier integrity changes
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Cell-cell interaction dynamics
Cell Culture System
Gelatin-coated surfaces are recommended to support endothelial adhesion, morphology stability, and physiological behavior during long-term imaging experiments.
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Coating type: gelatin-based extracellular matrix mimic
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Function: enhances endothelial attachment and spreading
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Compatibility: standard endothelial growth medium systems
Storage & Handling
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Store in liquid nitrogen (-180°C) for long-term preservation
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Do not store at -80°C or -20°C
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Avoid repeated freeze-thaw cycles
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Handle under sterile biosafety conditions
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Protect GFP fluorescence from excessive light exposure
Documents
Frequently Asked Questions
What is GFP-expressing rabbit ovarian microvascular endothelial cells used for?
This model is used for ovarian microvascular research, angiogenesis assays, endothelial barrier studies, and live cell fluorescence imaging of vascular dynamics.
Why is GFP labeling important in this endothelial model?
GFP enables real-time visualization of endothelial behavior including migration, network formation, and barrier function changes without additional staining procedures.
How is endothelial functionality validated?
Cells are validated using DiI-Ac-LDL uptake assay, which confirms endothelial metabolic and functional activity.
What is the recommended culture surface?
Gelatin-coated culture flasks are recommended to support endothelial attachment, morphology stability, and physiological function.
How should GFP endothelial cells be stored?
Cells must be stored in liquid nitrogen. Storage at -80°C or -20°C is not recommended due to reduced viability and fluorescence stability.
When can I expect my order to ship?
Most orders are filled and shipped within 2-3 business days from the time they are received.
Our standard shipping usually take 2-5 days.
We also provide express shippping for time-sensitive deliveries.
Email contact@biofargo.com if you have any requirements.

