Syringe-Filter-G 0.22 / 0.45 μm PES Syringe Filter, 25mm

0.22 / 0.45 μm PES Syringe Filter, 25mm

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17000144 0.2um Sterile Hydrophobic Filter

0.2um Sterile Hydrophobic Filter

Syringe Filter 0.45µm

Syringe Filter 0.45µm

0.22 / 0.45 μm PES Syringe Filter, 25mm

Starting at $69.00

Size:
Grouped product items
Wishlist Product Name Cat# Size Qty
0.22 um PES syringe filter, 25mm
$69.00
SF0.22PES 50/case
0.45 um PES syringe filter, 25mm
$69.00
SF0.45PES 50/case

Description

  • Polyethersulfone (PES) syringe filters
  • Polyproplyene (PP) casing
  • Provide the fastest flow rates, low protein binding and low extractables
  • For use with tissue culture media, buffers, and biological samples preparation
  • Gamma sterilized, DNase, RNase, pyrogen free
  • Individually packaged filters
  • Designed with female luer- lock inlet and male luer slip outlet 
  • 50 per case 

Citations

  1. Bui-Marinos, M. P., Todd, L. A., Douglas, A. J., & Katzenback, B. A. (2022). So, you want to create a frog cell line? A guide to establishing frog skin cell lines from tissue explants. MethodsX9, 101693.

    Article | SF0.22PES

  2. Wijenayake, S., Eisha, S., Tawhidi, Z., Pitino, M. A., Steele, M. A., Fleming, A. S., & McGowan, P. O. (2021). Comparison of methods for pre-processing, exosome isolation, and RNA extraction in unpasteurized bovine and human milk. PloS one16(9), e0257633.

    Article | SF0.45PES | SF0.22PES | PM005-0500

  3. Todd, L. A., Bui-Marinos, M. P., & Katzenback, B. A. (2021). Epigenetic regulation of frog innate immunity: Discovery of frog microRNAs associated with antiviral responses and ranavirus infection using a Xenopus laevis skin epithelial-like cell line. bioRxiv.

    Article | SF0.22PES

  4. Todd, L. A., Bui-Marinos, M. P., & Katzenback, B. A. (2021). Post-transcriptional regulation of frog innate immunity: discovery of frog microRNAs associated with antiviral responses and ranavirus infection using a Xenopus laevis skin epithelial-like cell line. Facets6(1), 2058-2083.

    Article | SF0.22PES

  5. Maghraby, M. K., Li, B., Chi, L., Ling, C., Benmoussa, A., Provost, P., ... & Bandsma, R. H. (2021). Extracellular vesicles isolated from milk can improve gut barrier dysfunction induced by malnutrition. Scientific reports11(1), 1-14.

    Article | SF0.22PES

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