Human Liver Sinusoidal Microvascular Endothelial Cells Expressing AEQ-GFP in Mitochondria

BVX-0012AEQ-GFP-Mito

$2,500.00
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Human Liver Sinusoidal Microvascular Endothelial Cells Expressing AEQ-GFP in Mitochondria
Primary Cells 1ml In Stock

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$2,500.00
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$2,500.00
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Size

1ml

Product Code

BVX-0012AEQ-GFP-Mito

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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-0012AEQ-GFP-Mito
  • Growth: Primary cells capable of multiple passages when using recommended medium and proper handling

Human Liver Sinusoidal Microvascular Endothelial Cells Expressing AEQ-GFP in Mitochondria

Product Description

Human Liver Sinusoidal Microvascular Endothelial Cells Expressing AEQ-GFP in Mitochondria are specialized primary endothelial cells isolated from liver sinusoidal microvasculature and genetically modified to express mitochondria-targeted AEQ-GFP reporter proteins. These cells enable real-time monitoring of mitochondrial calcium signaling, intracellular dynamics, oxidative stress responses, and endothelial physiology. They retain characteristic endothelial morphology and grow as adherent monolayers under optimized culture conditions. These cells are widely used in liver biology research, mitochondrial function studies, calcium signaling assays, toxicology screening, and regenerative medicine applications.Human liver sinusoidal microvascular endothelial cells that express AEQ-GFP in their mitochondria are specialized primary endothelial cells isolated from the liver's sinusoidal microvasculature. These cells are genetically modified to express mitochondria-targeted AEQ-GFP reporter proteins, allowing for real-time monitoring of mitochondrial calcium signaling, intracellular dynamics, oxidative stress responses, and overall endothelial physiology. They maintain a typical endothelial morphology and grow as adherent monolayers under optimized culture conditions. These cells are widely used in liver biology research, studies of mitochondrial function, calcium signaling assays, toxicology screening, and regenerative medicine applications.

Key Features & Benefits

• Cell Type: Human Liver Sinusoidal Microvascular Endothelial Cells
• Modification: Mitochondria-targeted AEQ-GFP expressing
• Species: Human
• Tissue Origin: Liver sinusoidal microvasculature
• Morphology: Typical endothelial cobblestone morphology
• Growth Characteristics: Adherent monolayer culture
• Reporter System: AEQ-GFP mitochondrial biosensor
• Recommended Medium: Endothelial Cell Growth Medium
• Cryopreservation Format: Frozen vial
• Viability: High post-thaw viability
• Quality Control: Sterility tested, mycoplasma negative, identity verified
• Passage: Low passage recommended

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
• Mitochondrial calcium signaling studies • Oxidative stress research • Liver endothelial biology studies • Drug toxicity screening • Live-cell fluorescence imaging • Intracellular signaling assays • Cell migration and proliferation studies • Hepatology research • Tissue engineering • Regenerative medicine

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-0012AEQ-GFP-Mito
Size/Format 1ml
Category Primary Cells
Primary Applications
• Mitochondrial calcium signaling studies • Oxidative stress research • Liver endothelial biology studies • Drug toxicity screening • Live-cell fluorescence imaging • Intracellular signaling assays • Cell migration and proliferation studies • Hepatology research • Tissue engineering • Regenerative medicine

Applications & Use Cases

Primary Applications
• Mitochondrial calcium signaling studies • Oxidative stress research • Liver endothelial biology studies • Drug toxicity screening • Live-cell fluorescence imaging • Intracellular signaling assays • Cell migration and proliferation studies • Hepatology research • Tissue engineering • Regenerative medicine

Suitable for • mitochondrial calcium signaling studies • oxidative stress research • liver endothelial biology studies • drug toxicity screening • live-cell fluorescence imaging • intracellular signaling assays • cell migration and proliferation studies • hepatology research • tissue engineering • regenerative medicine 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

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