GFP-Human Umbilical Artery Endothelial Cells (HUAECs)
BVX-0113GFP
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IncludedProduct Details
Size
1ml
Product Code
BVX-0113GFP
Quick Specifications
- Product Type: Human Endothelial cells
- Storage: Store in liquid nitrogen vapor phase (-196°C) for long-term. Ship on dry ice (-80°C).
- Shelf Life: Very stable in the Liquid Nitrogen Vapor Phase
- Catalog: BVX-0113GFP
- Growth: Primary cells capable of multiple passages when using recommended medium and proper handling
GFP-Human Umbilical Artery Endothelial Cells (HUAECs)
Product Description
GFP-Human Umbilical Artery Endothelial Cells are specialized human umbilical artery endothelial cells genetically engineered to express Green Fluorescent Protein (GFP) for enhanced visualization, imaging, and cell tracking in vitro. These cells preserve characteristic endothelial morphology, adherent monolayer growth, and functional vascular properties while allowing real-time fluorescent monitoring during biological assays.
Umbilical artery endothelial cells are valuable models for studying fetal vascular biology, endothelial signaling, angiogenesis, vascular inflammation, oxidative stress, and developmental cardiovascular mechanisms. GFP expression enables convenient monitoring of proliferation, migration, tube formation, permeability, and co-culture interactions.
These cells are widely used in vascular biology, developmental research, regenerative medicine, and drug screening applications.GFP-Human Umbilical Artery Endothelial Cells are specialized human umbilical artery endothelial cells that have been genetically engineered to express Green Fluorescent Protein (GFP). This modification enhances visualization, imaging, and cell tracking in laboratory studies. These cells maintain their characteristic endothelial morphology, proliferate as an adherent monolayer, and retain functional vascular properties, allowing for real-time fluorescent monitoring during biological assays.
Umbilical artery endothelial cells are valuable models for studying various aspects of fetal vascular biology, including endothelial signaling, angiogenesis, vascular inflammation, oxidative stress, and developmental cardiovascular mechanisms. The expression of GFP facilitates the convenient observation of key processes such as cell proliferation, migration, tube formation, permeability, and co-culture interactions.
These cells are widely utilized in vascular biology, developmental research, regenerative medicine, and drug screening applications.
Key Features & Benefits
- Cell Type: Human Umbilical Artery Endothelial Cells
- Modification: GFP expressing
- Species: Human
- Tissue Origin: Umbilical artery
- Morphology: Typical endothelial cobblestone morphology
- Growth Characteristics: Adherent monolayer culture
- Reporter: Green Fluorescent Protein (GFP)
- Recommended Medium: Endothelial Cell Growth Medium
- Cryopreservation Format: Frozen vial
- Viability: High post-thaw viability under validated conditions
- Quality Control: Sterility tested, mycoplasma negative, identity verified
Quick Facts
Product Type
Human Endothelial cells
Viability
High viability
Storage
Store in liquid nitrogen vapor phase (-196°C) for long-term. Ship on dry ice (-80°C).
Shelf Life
Very stable in the Liquid Nitrogen Vapor Phase
Applications
Technical Specifications
| Product Type | Human Endothelial cells |
|---|---|
| Proliferative Capability | Primary cells capable of multiple passages when using recommended medium and proper handling |
| Storage Conditions | Store in liquid nitrogen vapor phase (-196°C) for long-term. Ship on dry ice (-80°C). |
| Shelf Life | Very stable in the Liquid Nitrogen Vapor Phase |
| Product Code | BVX-0113GFP |
| Size/Format | 1ml |
| Category | Primary Cells |
Primary Applications
Applications & Use Cases
Primary Applications
- Fetal vascular biology studies - Angiogenesis and tube formation assays - Endothelial signaling research - Live-cell fluorescence imaging - Cell migration and proliferation studies - Oxidative stress and inflammation assays - Vascular permeability studies - Drug discovery and toxicology screening - Co-culture vascular models - Tissue engineering research - Cell tracking experiments - Developmental cardiovascular research
Suitable for - fetal vascular biology studies - angiogenesis and tube formation assays - endothelial signaling research - live-cell fluorescence imaging - cell migration and proliferation studies - oxidative stress and inflammation assays - vascular permeability studies - drug discovery and toxicology screening - co-culture vascular models - tissue engineering research - cell tracking experiments - developmental cardiovascular research studies and research applications
Research Use Cases
In Vitro Studies
Cell culture and screening applications
Molecular Biology
Gene expression & signaling studies
Drug Discovery
Screening & validation studies
Technical Support & Documentation
Technical Support
Our experts are available for technical questions and protocol assistance.
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