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Product Notice
- Made to order product – estimated lead time: 1–2 months
- Primary cell limitation: limited expansion capacity typical of primary microvascular endothelial cells
- Passaging: not recommended for long-term culture; use within early validated passages only
Description
In ovarian vascular biology and angiogenesis research, conventional endothelial cell lines often fail to replicate the complex microvascular environment required for studying follicular development, endocrine regulation, and reproductive tissue remodeling. This limitation restricts accurate modeling of ovarian microcirculation and vascular signaling pathways.
The GFP-expressing canine primary ovarian microvascular endothelial cells (D-6090GFP) provide a physiologically relevant primary endothelial model derived from beagle ovarian tissue. These cells maintain native microvascular characteristics and are stably labeled with green fluorescent protein (GFP), enabling real-time visualization of endothelial dynamics during angiogenesis and vascular remodeling.
Functional endothelial identity is confirmed by DiI-Ac-LDL uptake assay, supporting lipid uptake activity and endothelial phenotype stability. This model is widely used in ovarian angiogenesis research, reproductive vascular biology, endothelial permeability assays, and microcirculation studies.
Features
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Primary canine ovarian microvascular endothelial cells with stable GFP expression
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Physiologically relevant ovarian angiogenesis model
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Real-time fluorescence imaging for vascular dynamics tracking
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Validated endothelial function via DiI-Ac-LDL uptake assay
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Suitable for angiogenesis, permeability, and vascular remodeling studies
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Limited passage primary endothelial system
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Compatible with gelatin-coated endothelial culture conditions
Specifications
| Cell Type | Canine Ovarian Microvascular Endothelial Cells |
| Species | Beagle Dog |
| Genetic Label | GFP (Green Fluorescent Protein), lentiviral expression |
| Functional Validation | DiI-Ac-LDL uptake assay |
| Model Type | Ovarian microvascular / angiogenesis model |
| Storage | Liquid nitrogen (-180°C) |
| Shipping | Dry ice (cryopreserved vial) |
| Catalog No. | D-6090GFP |
Applications
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Ovarian angiogenesis research models
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Reproductive vascular biology studies
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Endothelial permeability and barrier function assays
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Follicular microcirculation research
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Drug screening for reproductive system targeting
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Hormonal regulation of vascular networks
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Inflammation-related vascular response studies
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Live-cell imaging of endothelial migration and remodeling
Ovarian Angiogenesis & Microvascular System
This GFP-labeled endothelial model enables real-time analysis of ovarian vascular remodeling and angiogenic signaling. It is particularly suitable for:
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Endothelial sprouting and vessel formation studies
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Microvascular permeability assays
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Follicle-associated vascular development
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Reproductive tissue vascular interaction studies
Cell Culture System
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Recommended coating: gelatin-based extracellular matrix
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Endothelial growth medium compatible system
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Supports short-term primary culture workflows
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Recommended early-passage experimental use
Storage & Handling
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Store in liquid nitrogen (-180°C) immediately upon arrival
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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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Use sterile biosafety techniques
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Protect GFP fluorescence from prolonged light exposure
Documents
Frequently Asked Questions
What are GFP-expressing canine ovarian microvascular endothelial cells used for?
They are used for ovarian angiogenesis research, reproductive vascular biology, endothelial permeability assays, and microcirculation studies.
Why are ovarian microvascular endothelial cells important?
They regulate follicular development, hormonal transport, and vascular remodeling in the ovarian microenvironment.
What is the benefit of GFP labeling in this model?
GFP enables real-time visualization of endothelial migration, angiogenesis, and vascular remodeling without additional staining.
How is endothelial identity validated?
Endothelial phenotype is confirmed using DiI-Ac-LDL uptake assay, indicating functional lipid uptake activity.
What research fields use this model?
It is widely used in angiogenesis research, reproductive biology, vascular permeability studies, and drug screening.
Can this model be used for drug screening?
Yes, it is suitable for screening compounds targeting ovarian vascular function and angiogenic pathways.
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.

