服務內容
利用奈米級流式細胞儀(Nano Flow Cytometry)分析細胞外囊泡(Extracellular Vesicles, EVs)可偵測直徑約為40-150nm大小的EVs。
Nano Flow Cytometry分析服務可以獲得:
Nano Flow Cytometry分析服務可以獲得:
- 表面蛋白(Surface markers):了EVs的Surface marker的占比(%)
- 若有感興趣表面蛋白(Ex: CD147+, PD-L1...)可以提供客製化染色服務
樣品需求
Nano Flow cytometry-Surface markers analysis
收樣條件:提供純化後分泌囊泡、Human來源的EVs、濃度需>1 X 10^10 particles/mL、體積>0.25 mL,保存在PBS (-80度)
服務交期:12個工作天;樣品超過5個,每增加一個樣本多1個工作天
服務流程:
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)
備註:提供純化後的Extracellular Vesicles、提供input樣品量、用什麼方法純化(Kit, Methods...)
*再進行Surface markers染色前,會先經過Size & Concentration (QC)的分析,來確定樣品是否符合允收標準
*若有客製化染色服務需求,請提供:抗體、貨號、批號、抗體濃度、抗體dye或螢光波長Ex/Em(如下),並洽詢專員
*建議使用抗體Dye:
收樣條件:提供純化後分泌囊泡、Human來源的EVs、濃度需>1 X 10^10 particles/mL、體積>0.25 mL,保存在PBS (-80度)
服務交期:12個工作天;樣品超過5個,每增加一個樣本多1個工作天
服務流程:
備註:提供純化後的Extracellular Vesicles、提供input樣品量、用什麼方法純化(Kit, Methods...)
*再進行Surface markers染色前,會先經過Size & Concentration (QC)的分析,來確定樣品是否符合允收標準
*若有客製化染色服務需求,請提供:抗體、貨號、批號、抗體濃度、抗體dye或螢光波長Ex/Em(如下),並洽詢專員
*建議使用抗體Dye:
- Green Filter (525/40nm): FITC/GFP/AF488
- Red Filter (670/30nm): PE-Cy5/PerCp/PE-AF647/APC
染色列表
類別 | 粒徑/濃度 | 磷脂質染色 | 表面蛋白染色 | 雙染 | 客製化服務 | |||||
物種 | 顆粒濃度檢測 (Particle/mL) |
粒徑大小檢測 3個標準品:S16M、S17M、S23M |
膜染劑-PKH67 | EV標定-CFSE | 膜染劑- Red stain (EV Membrane Red Stains) | 表面抗原:CD9, CD63, CD81 FITC抗體 | 雙染: 1)膜染劑(Red stain)+表面抗原 2)表面抗原(CD9-FITC or CD63-FITC or CD81-FITC )抗體 |
雙染: EV標定CFSE與表面抗原 (CD9-APC or CD63-APC orCD81-APC )抗體 |
雙染: 表面抗原 CD9, CD63, CD81 FITC與APC抗體雙染 |
客製化染劑及抗體染色技術服務 (需討論評估) |
人類 | V | V | V | V | V | V | V | V | V | V |
非人哺乳類 | V | V | V | NA | V | NA | NA | NA | NA | V |
植物 | V | V | V | NA | NA | NA | NA | NA | NA | V |
細菌 | V | V | V | NA | NA | NA | NA | NA | NA | V |
出貨規格
- Nano Flow Cytometry分析報告