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Merck

Z380059

Sigma-Aldrich

Breathe-Easy®封膜

polyurethane membrane with acrylic adhesive pre-cut to fit standard multiwell plates.

别名:

可呼吸封膜, 多孔封膜, 多孔板, 封膜, 微孔板, 微板, 板封, 板封膜, 组织培养, 细胞培养

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About This Item

分類程式碼代碼:
41122410
NACRES:
NB.22

材料

rectangular transparent membrane (polyurethane)

無菌

sterile

特點

piercable

包裝

pack of 100 ea

製造商/商標名

Diversified Biotech BEM-1

相关类别

一般說明

Breathe-Easy ®膜能渗透氧气、二氧化碳和水蒸气,从多孔板中建立各自高度统一的微培养容器。
该膜采用三明治结构。最底层纸衬片保护粘附层,而最上面的载片层保护高度柔性膜外表面,直到它被放置粘到板上。纸衬片也保证了每个单个膜的无菌。粘性密封每一个孔(不像模塑塑料盖片),能够搅动而不会发生交叉污染或微生物渗透。和大多数腐蚀剂和有机溶剂兼容,在 − 80 到 +100℃ 范围内稳定。
注意:推荐使用 Brayer(Z380067 单独出售),保证均匀粘附力并帮助去除最上面的纸衬片。

特點和優勢

Breathe-Easy® 膜:
  • 无菌&非细胞毒性:经伽马辐照灭菌(没有细胞毒性)
  • 防止污染:膜能够避免膜与膜之间的污染,微生物和病毒污染,蒸发(呼吸性膜除外)和样本溢出
  • 完美的大小和设计:6" x 3.25”方形适合于所有微孔板。使用两个刻度结束标签给膜定位,使用方便
  • 热稳定性:能够承受较广的温度范围
  • 简单的样本检索:可刺穿封膜允许通过移液吸头轻松吸除样本

法律資訊

Breathe-Easy is a registered trademark of Diversified Biotech

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Victoria Hsiao et al.
ACS synthetic biology, 4(2), 150-161 (2014-05-23)
As a field, synthetic biology strives to engineer increasingly complex artificial systems in living cells. Active feedback in closed loop systems offers a dynamic and adaptive way to ensure constant relative activity independent of intrinsic and extrinsic noise. In this
Teng Wang et al.
Nature communications, 11(1), 5589-5589 (2020-11-06)
Conjugative plasmids can mediate the spread and maintenance of diverse traits and functions in microbial communities. This role depends on the plasmid's ability to persist in a population. However, for a community consisting of multiple populations transferring multiple plasmids, the
Adithi R Varadarajan et al.
NPJ biofilms and microbiomes, 6(1), 46-46 (2020-11-01)
Pseudomonas aeruginosa MPAO1 is the parental strain of the widely utilized transposon mutant collection for this important clinical pathogen. Here, we validate a model system to identify genes involved in biofilm growth and biofilm-associated antibiotic resistance. Our model employs a
Nathan A Sallee et al.
SLAS discovery : advancing life sciences R & D, 25(9), 1047-1063 (2020-07-28)
The identification of novel peptide hormones by functional screening is challenging because posttranslational processing is frequently required to generate biologically active hormones from inactive precursors. We developed an approach for functional screening of novel potential hormones by expressing them in
Filipe Pinto et al.
Nature communications, 11(1), 1529-1529 (2020-04-07)
Inteins are protein segments capable of joining adjacent residues via a peptide bond. In this process known as protein splicing, the intein itself is not present in the final sequence, thus achieving scarless peptide ligation. Here, we assess the splicing

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