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Merck
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L4655

Sigma-Aldrich

乳胶珠,羧酸盐改性聚苯乙烯,荧光黄绿色

aqueous suspension, 1.0 μm mean particle size

同義詞:

Fluorescent Latex Beads

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About This Item

MDL號碼:
MFCD00131492
分類程式碼代碼:
12162002
NACRES:
NA.25

形狀

aqueous suspension

品質等級

100

成份

Solids, 2.5%

技術

cell based assay: suitable

平均粒徑

1.0 μm

螢光

λex ~470 nm; λem ~505 nm

適合性

suitable for immunoassay

應用

cell analysis

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應用

乳胶珠、羧酸盐改性聚苯乙烯、荧光黄绿色可以用于:
  • 表皮生长因子缀合物制备,用于间接免疫荧光成像研究
  • 吞噬作用成像研究之前培养小鼠支气管肺泡巨噬细胞和人单核细胞衍生的巨噬细胞
  • 与沙门氏菌表达的绿色荧光蛋白(GFP)并用,用于共聚焦显微镜研究和生物荧光成像

羧基化改性聚苯乙烯乳胶珠被用于收集有关 Carabus lefebvrei(以蜗牛为食的意大利特有步甲,通常用作亚平宁山脉森林栖息地质量的指标)免疫系统的形态功能数据。羧基化改性聚苯乙烯乳胶珠也被用于研究比较鞘翅目Cetonischema aeruginosa成虫和幼虫的免疫防御机制、研究培养的大鼠甲状腺细胞的吞噬活性。

儲存類別代碼

10 - Combustible liquids

水污染物質分類(WGK)

WGK 3

閃點(°F)

Not applicable

閃點(°C)

Not applicable

分析證明 (COA)

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Elin Silverpil et al.
Inflammation, 34(1), 1-9 (2010-03-27)
There is now substantial evidence that the cytokine interleukin-17 orchestrates the accumulation of neutrophils in mammals and thereby contributes to host defense. However, the role of IL-17 in controlling neutrophil turnover is not fully understood. Here, we demonstrate that IL-17
Libin Huang et al.
Ocular immunology and inflammation, 24(6), 684-692 (2016-12-10)
To evaluate the effect of CX3CL1/CX3CR1 signaling on the interaction between mesenchymal stem cells (MSCs) and retinal microglia. Supernatants of homogenized retina were harvested from light-damaged SD rats (ISHR) to stimulated retinal microglia. Stimulated microglia were cocultured with MSCs, CX3CL1
Sarah Triboulet et al.
PloS one, 10(4), e0124496-e0124496 (2015-04-23)
Titanium dioxide and copper oxide nanoparticles are more and more widely used because of their catalytic properties, of their light absorbing properties (titanium dioxide) or of their biocidal properties (copper oxide), increasing the risk of adverse health effects. In this
Micro-shock waves mediated needle-less vaccine delivery
Jagadeesh G, et al.
Clinical Pharmacology Made Incredibly Easy! (2011)
Janardhanraj Subburaj et al.
Journal of biological engineering, 11, 48-48 (2017-12-20)
Needle-free, painless and localized drug delivery has been a coveted technology in the area of biomedical research. We present an innovative way of trans-dermal vaccine delivery using a miniature detonation-driven shock tube device. This device utilizes~2.5 bar of in situ generated
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