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CLS3595

Corning® 96孔经TC处理微孔板

size 96 wells, polystyrene plate, flat bottom, case of 50 (individually wrapped), sterile, lid (low evaporation)

同義詞:

96孔, 多孔板, 未处理, 组织培养板, 细胞培养板

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About This Item

分類程式碼代碼:
41122107
eCl@ss:
32190102
NACRES:
NA.75

材料

clear bottom
flat bottom
polystyrene plate
round clear wells

描述

growth area .32cm2 (low evaporation lid)

無菌

sterile; γ-irradiated by SER-TAIN process
sterile

品質

tissue-culture treated

特點

lid (low evaporation)
skirt

包裝

case of 50 (individually wrapped)

製造商/商標名

Corning 3595

尺寸

96 wells

孔直徑

6.4 mm

孔容積

360 μL

孔有效容積

75-200 μL

顏色

clear

結合類型

Tissue Culture (TC)-treated surface

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相關類別

一般說明

带有凝结环的板盖可防止交叉污染。所有平板具有统一脚标,以及凸出的小珠以助堆放。每个孔均有编码易于识别。除非另行说明,否则材质为聚苯乙烯。

應用

["Corning"]96 孔经TC处理微孔板已用于:
  • 短期类器官生长测定
  • 酶测定
  • 结晶紫生物膜测定

特點和優勢

  • 具有平底,可容纳360 µL总体积。
  • 建议工作体积为75至 200 µL。
  • 可进行处理以改善最佳条件下的细胞附着。
  • 不可倒置的低挥发盖带有冷凝环,以减少污染。
  • 通过伽马辐射灭菌

法律資訊

Corning is a registered trademark of Corning, Inc.
SER-TAIN is a trademark of Sigma-Aldrich Co. LLC

分析證明 (COA)

輸入產品批次/批號來搜索 分析證明 (COA)。在產品’s標籤上找到批次和批號,寫有 ‘Lot’或‘Batch’.。

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Judith Díaz-García et al.
Medical mycology, 57(4), 504-509 (2018-09-12)
The biofilm formation ability of Candida species seems to have a role in the prognosis of patients with candidemia. Biofilm formation is usually tested using 96 well flat bottom polystyrene microtiter plates, although the type of plastic used is not
Enrique Joffre et al.
Scientific reports, 9(1), 108-108 (2019-01-16)
Pathogenic bacteria use specific host factors to modulate virulence and stress responses during infection. We found previously that the host factor bile and the bile component glyco-conjugated cholate (NaGCH, sodium glycocholate) upregulate the colonization factor CS5 in enterotoxigenic Escherichia coli
Fabian Sesterhenn et al.
PLoS biology, 17(2), e3000164-e3000164 (2019-02-23)
Throughout the last several decades, vaccination has been key to prevent and eradicate infectious diseases. However, many pathogens (e.g., respiratory syncytial virus [RSV], influenza, dengue, and others) have resisted vaccine development efforts, largely because of the failure to induce potent
Anna A Gryadunova et al.
Acta biomaterialia, 118, 141-152 (2020-10-13)
Cytoskeleton systems, actin microfilaments, microtubules (MTs) and intermediate filaments (IFs) provide the biomechanical stability and spatial organization in cells. To understand the specific contributions of each cytoskeleton systems to intrinsic properties of spheroids, we've scrutinized the effects of the cytoskeleton

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