收藏产品 产品信息
- Genetically modified cell lines best reflect MOA (Mechanism of Action)
- Higher activity and larger assay window for robust and reproducible cell-based bioassay
- Comprehensive application data to support assay development and validation
- Full tracible record, stringent quality control and validated cell passage stability
- Parental cell line legally obtained from internationally recognized cell resource bank and commercially licensed
- Global commercial license assistance whenever regulatory filing is required
描述(Description)
The HEK293/Human SEZ6 Stable Cell Line was engineered to express the receptor full length human SEZ6 (Gene ID: 124925), used to mimic cancer target cells. Surface expression of human SEZ6 was confirmed by flow cytometry.
应用说明(Application)
• Useful for cell-based SEZ6 binding assay
生长特性(Growth Properties)
Adherent
筛选标记(Selection Marker)
Puromycin (2 μg/mL)
培养基(Complete Growth Medium)
DMEM + 10% FBS
冻存液(Freeze Medium)
Serum-free cell cryopreservation medium
装量(Quantity)
1 vial contains at least 5×10^6 cells in 1 mL serum-free cryopreservation medium
存储(Storage)
Frozen in liquid nitrogen.
支原体检测(Mycoplasma Testing)
Negative
无菌检测(Sterility Testing)
Negative
使用说明(Instructions for Use)
See data sheet for detailed culturing and assay protocol.
产品数据图
Receptor Assay
Expression analysis of human SEZ6 on HEK293/Human SEZ6 Stable Cell Line by FACS.
Cell surface staining was performed on HEK293/Human SEZ6 Stable Cell Line or negative control cell using anti-human SEZ6 antibody followed by staining with PE anti-human IgG Fc Antibody.
Protocol
Passage Stability
Passage stability analysis of receptors expression by FACS.
Flow cytometry surface staining of human SEZ6 on HEK293/Human SEZ6 Stable Cell Line demonstrates consistent mean fluorescent intensity across passage 6-20.
Protocol
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背景
May play a role in cell-cell recognition and in neuronal membrane signaling. Seems to be important for the achievement of the necessary balance between dendrite elongation and branching during the elaboration of a complex dendritic arbor. Involved in the development of appropriate excitatory synaptic connectivity.
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