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冻存的人外周血单个核细胞

冻存的人原代细胞
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产品号 #70025_C

冻存的人原代细胞

产品优势

  • 从单个供体获取的大量高质量外周血单个核细胞
  • 多种规格可供选择以满足您的研究需求
  • 使用庞大的供体库,以便在更广泛的样本中进行测试
  • 通过定制的产品或采集方案满足特定需求
  • 在进行临床转化研究测试期间,可保存大量冻存的细胞
立即询价
Maximize your savings on high-quality PBMCs! Take advantage of our bulk pricing discounts and price matching offer to get the best value for your purchase. Now available for specific lots, the standard flow cytometry panel provides the exact frequencies of common cell types in each vial of PBMCs. See Figure 1 in the Data Figures section below to view a representative panel. Browse our Frequently Asked Questions for more information.
总览
实验数据
产品说明书及文档
应用领域
相关材料与文献
相关产品

总览

选择即用型、符合伦理的人原代单个核细胞助您轻松开启实验。我们提供个性化的服务、定制产品、灵活的交付周期,并支持提前测试筛选并预留整个批次,以确保您获得所需的细胞。

通过密度梯度离心法和/或红细胞裂解法从外周血白细胞单采术样本中分离细胞,并冻存于不含动物成分的CryoStor® CS10冻存液(产品号 #07930)中。细胞采集遵循符合伦理规范的方案,并已获得机构审查委员会 (IRB) 的批准,符合美国食品药品监督管理局(FDA)的相关法规和指南;或已获得研究伦理委员会(REC)的批准,并符合英国人体组织管理局(HTA)的相关法规和指南。如有需要,可提供其他文档、高分辨率HLA分型(I类和II类等位基因)以及CMV状态。采集过程中添加酸-柠檬酸-葡萄糖溶液A(ACDA)作为抗凝剂。选择产品选项后,供体信息(如BMI范围、吸烟状态、种族等)可以在上面的评论框中查询。所有供体均经过HIV-1/2、乙肝和丙肝筛查。

某些产品仅在特定地区出售。请与您当地的销售代表或产品与科学支持联系techsupport@stemcell.com获取更多信息。

欲了解更多信息,请浏览有关原代细胞的常见问题解答(FAQs)

 

包含
• CryoStor® CS10

分类
冻存

细胞类型
单个核细胞

种属


研究领域
药物发现和毒性检测

细胞和组织来源
外周血

供体状态
正常

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实验数据

Typical Flow Cytometric Analysis Profile of PBMCs

Figure 1. Typical Flow Cytometric Analysis Profile of PBMCs

Representative gating strategy of immune cell populations present in PBMCs. Flow cytometry was performed on the peripheral blood mononuclear cells (PBMCs) post-thaw and can be provided for specific lots. The CD45 plot was gated on viable single cells while all other plots were gated on viable CD45+ single cells. In the above example, the cell frequencies are as follows: leukocytes (CD45+), 99.8%; B cells (CD19+), 10.5%; T Cells (CD3+), 57.2%; helper T cells (CD3+CD4+), 34.4%; Cytotoxic T cells (CD3+CD8+), 19.6%; monocytes (CD14+), 17.9%; and NK cells (CD3-CD56+), 7.91%.

Typical Flow Cytometric Analysis Profile of PBMCs

Figure 2. Mean Percentages of Cell Subpopulations in Cryopreserved PBMCs

Representative chart showing the average frequencies of major immune subsets in STEMCELL’s cryopreserved PBMC products, as measured by flow cytometry post-thaw. Values shown are mean percentages of total viable leukocytes present in PBMCs (n ≥ 183).

产品说明书及文档

请在《产品说明书》中查找相关支持信息和使用说明,或浏览下方更多实验方案。

Document Type
Product Name
Catalog #
Lot #
Language
Document Type
Product Information Sheet
Product Name
Human Peripheral Blood Mononuclear Cells, Frozen
Catalog #
70025.1, 70025.2, 70025.3, 70025
Lot #
All
Language
English

相关材料与文献

技术资料 (8)

Tools for Your Immunology Research
Brochure
Tools for Your Immunology Research
Human Primary Cells
Brochure
Human Primary Cells
How to Quickly Thaw Frozen Cells with the ThawStar® CFT2 Automated Thawing System
1:49
Video
How to Quickly Thaw Frozen Cells with the ThawStar® CFT2 Automated Thawing System
How to Thaw Frozen Human Primary Cells
6:05
Video
How to Thaw Frozen Human Primary Cells
How to Process a Leukopak for Downstream Cell Isolation
13:43
Video
How to Process a Leukopak for Downstream Cell Isolation
Leukopak Processing: Tips & Tricks for Streamlined Cell Isolation
1:01:09
Webinar
Leukopak Processing: Tips & Tricks for Streamlined Cell Isolation
Evaluating the Immuno-Oncology Potential of Compounds Using Human In Vitro TME Models
43:57
Webinar
Evaluating the Immuno-Oncology Potential of Compounds Using Human In Vitro TME Models
Human Immune Cell Isolation Course
On-Demand Training
Human Immune Cell Isolation Course

文献 (12)

Eradication of Triple-Negative Breast Cancer Cells by Targeting Glycosylated PD-L1. C.-W. Li et al. Cancer cell 2018 FEB

Abstract

Protein glycosylation provides proteomic diversity in regulating protein localization, stability, and activity; it remains largely unknown whether the sugar moiety contributes to immunosuppression. In the study of immune receptor glycosylation, we showed that EGF induces programmed death ligand 1 (PD-L1) and receptor programmed cell death protein 1 (PD-1) interaction, requiring beta$-1,3-N-acetylglucosaminyl transferase (B3GNT3) expression in triple-negative breast cancer. Downregulation of B3GNT3 enhances cytotoxic T cell-mediated anti-tumor immunity. A monoclonal antibody targeting glycosylated PD-L1 (gPD-L1) blocks PD-L1/PD-1 interaction and promotes PD-L1 internalization and degradation. In addition to immune reactivation, drug-conjugated gPD-L1 antibody induces a potent cell-killing effect as well as a bystander-killing effect on adjacent cancer cells lacking PD-L1 expression without any detectable toxicity. Our work suggests targeting protein glycosylation as a potential strategy to enhance immune checkpoint therapy.
View publication
Dendritic Cells but Not Macrophages Sense Tumor Mitochondrial DNA for Cross-priming through Signal Regulatory Protein α Signaling. Xu MM et al. Immunity 2017 AUG

Abstract

Inhibition of cytosolic DNA sensing represents a strategy that tumor cells use for immune evasion, but the underlying mechanisms are unclear. Here we have shown that CD47-signal regulatory protein α (SIRPα) axis dictates the fate of ingested DNA in DCs for immune evasion. Although macrophages were more potent in uptaking tumor DNA, increase of DNA sensing by blocking the interaction of SIRPα with CD47 preferentially occurred in dendritic cells (DCs) but not in macrophages. Mechanistically, CD47 blockade enabled the activation of NADPH oxidase NOX2 in DCs, which in turn inhibited phagosomal acidification and reduced the degradation of tumor mitochondrial DNA (mtDNA) in DCs. mtDNA was recognized by cyclic-GMP-AMP synthase (cGAS) in the DC cytosol, contributing to type I interferon (IFN) production and antitumor adaptive immunity. Thus, our findings have demonstrated how tumor cells inhibit innate sensing in DCs and suggested that the CD47-SIRPα axis is critical for DC-driven antitumor immunity.
View publication
Phosphorylation of NEUROG3 Links Endocrine Differentiation to the Cell Cycle in Pancreatic Progenitors. Krentz NAJ et al. Developmental cell 2017 APR

Abstract

During pancreatic development, proliferating pancreatic progenitors activate the proendocrine transcription factor neurogenin 3 (NEUROG3), exit the cell cycle, and differentiate into islet cells. The mechanisms that direct robust NEUROG3 expression within a subset of progenitor cells control the size of the endocrine population. Here we demonstrate that NEUROG3 is phosphorylated within the nucleus on serine 183, which catalyzes its hyperphosphorylation and proteosomal degradation. During progression through the progenitor cell cycle, NEUROG3 phosphorylation is driven by the actions of cyclin-dependent kinases 2 and 4/6 at G1/S cell-cycle checkpoint. Using models of mouse and human pancreas development, we show that lengthening of the G1 phase of the pancreatic progenitor cell cycle is essential for proper induction of NEUROG3 and initiation of endocrine cell differentiation. In sum, these studies demonstrate that progenitor cell-cycle G1 lengthening, through its actions on stabilization of NEUROG3, is an essential variable in normal endocrine cell genesis.
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更多信息
物种 人类
Contains • CryoStor® CS10
细胞与组织来源 外周血
捐献者身份 正常
质量保证:

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