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Nunc™ Polycarbonat-Zellkultureinsätze in Multi-Well-Platten
Nunc™ Polycarbonat-Zellkultureinsätze in Multi-Well-Platten
Das tatsächliche Produkt kann abweichen
Nunc™ Polycarbonat-Zellkultureinsätze in Multi-Well-Platten
Nunc™ Polycarbonat-Zellkultureinsätze in Multi-Well-Platten
Thermo Scientific™

Nunc™ Polycarbonat-Zellkultureinsätze in Multi-Well-Platten

Kultivieren Sie die meisten Zelltypen ohne Matrixbeschichtung mit den Thermo Scientific™ Nunc™ Polycarbonat-Membraneinsätzen in Multischalen.
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KatalognummerPorengrößeSchalentypKulturfläche
1406448 μm6-Well-Platte3,14cm2
1406200,4 μm24-Well-Platte0,47 cm2
1406273 μm24-Well-Platte0,47 cm2
1406298 μm24-Well-Platte0,47 cm2
1406400,4 μm6-Well-Platte3,14cm2
1406423 μm6-Well-Platte3,14cm2
1406520,4 μm12-Well-Platte1,13 cm2
1406543 μm12-Well-Platte1,13 cm2
1406568 μm12-Well-Platte1,13 cm2
1406600,4 μm6-Well-Platte4,1cm2
1406633 μm6-Well-Platte4,1cm2
1406688 μm6-Well-Platte4,1cm2
Katalognummer 140644
Preis (EUR)
239,00
Case of 24
Zum Warenkorb hinzufügen
Porengröße:
8 μm
Schalentyp:
6-Well-Platte
Kulturfläche:
3,14cm2
Preis (EUR)
239,00
Case of 24
Zum Warenkorb hinzufügen
Kultivieren Sie die meisten Zelltypen ohne Matrixbeschichtung mit den Thermo Scientific™ Nunc™ Polycarbonat-Membraneinsätzen in Multischalen.
Merkmale:
  • Gewebekulturbehandelte poröse Membran für optimierte Zelladhäsion
  • Drei Porengrößen: 0,4, 3 und 8 Mikrometer
  • Vorgepackt in sterilen Nunclon™ Delta-behandelten Multiwellplatten
  • Nicht toxisch und pyrogenfrei

Anwendungen:

  • Tumormigration und Invasionsassays
  • Epitheliale (z. B. CaCO-2) und endotheliale (z. B. mikrovaskuläre Zellen im Gehirn) blockieren Assays
  • Dermale/epidermale und epitheliale Gewebemodelle (z. B. künstliche Hautmodelle)
  • Chemotaxisstudien
  • Co-Kultur

Garantie: 90 Tage

 

Aufhebung der Nutzungsbeschränkung auf interne Forschungszwecke: Jegliche dem Käufer auferlegte Beschränkung, das/die Produkt(e) nur zu internen Forschungszwecken zu nutzen, gilt nicht für das/die Produkt(e) auf Webseiten, die diese Erklärung enthalten.

Allgemeine Referenzen:

  1. Mardi A Crane-Godreau et.al (2005). CCL20/macrophage Inflammatory Protein 3alpha and Tumor Necrosis Factor Alpha Production by Primary Uterine Epithelial Cells in Response to Treatment With Lipopolysaccharide or Pam3Cys. PMID: 15618187
  2. Rettinger CL et. al (2018). Quantitative Assessment of Retina Explant Viability in a Porcine Ex Vivo Neuroretina Model. PMID: 29924674
  3. Mardi A Crane-Godreau et.al (2004). Effect of Escherichia coli and Lactobacillus rhamnosus on macrophage inflammatory protein 3 alpha, tumor necrosis factor alpha, and transforming growth factor beta release by polarized rat uterine epithelial cells in culture. PMID: 15039305
  4. Soboll G et. al (2006). Effect of oestradiol on PAMP-mediated CCL20/MIP-3 alpha production by mouse uterine epithelial cells in culture. PMID: 16771853
  5. Mardi A Crane-Godreau et. al (2009). Exposure to Cigarette Smoke Disrupts CCL20-Mediated Antimicrobial Activity in Respiratory Epithelial Cells. PMID: 19966927
  6. Wildemann B et. al (2005). Differences in the fusion and resorption activity of human osteoclasts after stimulation with different growth factors released from a polylactide carrier. PMID: 15477999
  7. Sugita Y et. al (1997). Pigment epithelium-derived factor (PEDF) has direct on the metabolism and proliferation of microglia and indirect effects on astrocytes. PMID: 9335258
  8. van Schilfgaarde M et. al (1999). Haemophilus influenzae localized in epithelial cell layers is shielded from antibiotics and antibody-mediated bactericidal activity. PMID: 10222210
  9. Chung HC et. al (2014). Inhibition of porcine endogenous retrovirus in PK15 cell line by efficient multitargeting RNA interference. PMID: 24138389
  10. Ode A et. al (2010). Toward biomimetic materials in bone regeneration: functional behavior of mesenchymal stem cells on a broad spectrum of extracellular matrix components. PMID: 20878902
Specifications
FarbeKlar
BeschreibungPolycarbonat-Zellkultureinsätze mit einer Porengröße von 8 Mikrometer in 6-Well-Mikrotiterplatte
Schalentyp6-Well-Platte
Anzahl pro Karton24
Anzahl pro Packung6
OberflächenbehandlungCell ID
Kulturfläche3,14cm2
Zur Verwendung mitMultischale 6
Einsätze pro Platte6
MaterialPolycarbonat (Membran)
Anzahl Wells6
Porendichte< 0,85 x 10^5
Porengröße8 μm
SterilitätSteril
TypKultureinsatz
Arbeitsvolumen (metrisch)1.5mL
Unit SizeCase of 24

Häufig gestellte Fragen (FAQ)

What is the difference between the 24-well plate format for the Nunc Polycarbonate Cell Culture Inserts in Multi-Well Plates (Cat. No. 140620) and the 24-well plate format for the Nunc Cell Culture Inserts in Carrier Plate Systems (Cat. No. 141002)?

The difference between the two 24-well plate formats is as follows:

  • Nunc Polycarbonate Cell Culture Inserts in Multi-Well Plates (Cat. No. 140620): There are only 12 inserts in the 24-well multi-well plate, leaving every second column free without an insert. This is a preferred configuration for some co-culture experiments, as it makes it easy to access the culture grown in the multi-well plate for media changes, etc., by placing the insert in the empty well next to it. The inserts are placed directly into the wells here, leaving a 0.9 mm gap between the bottom of the well and the insert membrane.
  • Nunc Cell Culture Inserts in Carrier Plate Systems (Cat. No. 141002): There are 24 inserts in the 24-well carrier plate. The carrier plate with the hanging slots allows for adjustment of the insert height. The three hanging positions in the carrier plate allow for distance of approximately 0.9 mm, 3.3 mm, or 6.3 mm between the well-bottom and insert growth surface for both 12- and 24-well plate formats. This configuration is preferred when customer needs more versatility, for example to facilitate air-liquid interface culture, and other co-culture applications.


Note: details on plate configuration can also be found within the following product brochure (pg 3).

With the Nunc Polycarbonate Cell Culture Inserts in Multi-Well Plates, what is the distance between the cell culture membrane and the bottom of the multi-well dish?

The membrane is approximately 1.0 mm above the bottom of the dish for the Nunc Polycarbonate Cell Culture Inserts.

Can I observe cells on the cell culture membrane when the Nunc Polycarbonate Cell Culture Insert is inside of a multi-well plate?

Due to the large pore size of the Nunc polycarbonate inserts, spots or holes are observed and they represent the membrane. In this plane of focus, the most visible cells are the ones located on the membrane, whereas the slightly blurred backdrop are the cells on the dish that are in a different plane of focus. These cells do not photograph with great resolution due to the slightly opaque quality of the membrane. However, these cells are visible in culture.

What is the recommended Multidish chamber media volume per carrier plate insert and height position?

Low position: 2 mL (12-well), 1 mL (24-well), Medium position: 3 mL (12-well), 1.5 mL (24-well), High position: 4 mL (12-well), 2 mL (24-well). Some optimization may be necessary for development purposes.

Why are only 12 inserts provided with standard membrane insert products in the 24-well format?

This has emerged as the industry standard. In many cases having empty wells facilitates media changes and other experimental steps.

View all Nunc™ Polycarbonat-Zellkultureinsätze in Multi-Well-Platten FAQs