Invitrogen™

Invitrolon™ PVDF/Filter Paper Sandwiches, 0.45 μm, 8.5 x 13.5 cm

Katalognummer	Menge
LC2007	16 Membran-/Filterpapier-Sandwiches

Katalognummer LC2007

Preis (EUR)

459,00

Menge:

16 Membran-/Filterpapier-Sandwiches

Preis (EUR)

459,00

Invitrolon PVDF-/Filterpapier-Sandwiches, 0,45 µm, bieten ausgezeichnete Bindungseigenschaften für Western-Blotting, Dot-Blot-Assays und die Proteinsequenzierung. Die Porengröße von 0,45 µm macht diese Membranen ideal für den Transfer von Proteinen > 10 kDa. Das im Lieferumfang enthaltene, extra dicke, saugfähige Blotting-Papier (2,5 mm) eignet sich für den Blotting-Aufbau mit halbtrockenen Transferapparaten.

Alle Membranen und Filterpapiere anzeigen ›

Merkmale:
• Membran: Polyvinylidendifluorid (PVDF)
• Filterpapierdicke: 2,5 mm
• Bindungsvermögen: Ziegen-IgG: 294 µg/cm²; BSA: 131 µg/cm²; Insulin: 85 µg/cm²
• Merkmale der Wiederverwendung: Ja
• Voraktivierung: Erforderlich mit 100 % Alkohol (Methanol)
• Kompatibilität: Kompatibel mit gängigen Transferbedingungen und Nachweismethoden, z. B. Färbung, Chemolumineszenz und Radiomarkierung
• Haltbarkeit: Kompatibel mit den meisten organischen Lösungsmitteln, Säuren und milden Basen

Nur für Forschungszwecke. Nicht zur Verwendung bei diagnostischen Verfahren.

Specifications

Menge16 Membran-/Filterpapier-Sandwiches

VersandbedingungRaumtemperatur

Dimensions (LxW)8,5 cm x 13,5 cm

FormatSandwich

Länge (metrisch)13,5 cm

MaterialPVDF

Porengröße0,45 μm

ProduktlinieInvitrolon, Novex

Dicke2,5 mm

Breite (metrisch)8,5 cm

Unit SizeEach

Inhalt und Lagerung

Bei Raumtemperatur lagern.

Häufig gestellte Fragen (FAQ)

How can I store, strip, and reuse my western blot?

For nitrocellulose or PVDF membrane following Western blot detection using a chemiluminescent or fluorescent substrate system: Following transfer, air dry the membrane and place in an envelope, preferably on top of a supported surface to keep the membrane flat. The blot can be stored indefinitely at -80 degrees C. When ready to reprobe, prewet the PVDF blot with alcohol for a few seconds, followed by a few rinses with pure water to reduce the alcohol concentration. Then proceed as normal with blocking step.

FOR STRIPPING/REPROBING OF MEMBRANES: Harsh protocol (see NOTE below for modifications)

1) Submerge the membrane in stripping buffer (100 mM BME, 2% SDS, 62.5 mM Tris-HCl, pH 6.7) and incubate at 50 degrees C for 30 min with occasional agitation. If more stringent conditions necessary, incubate at 70 degrees C.

2) Wash 2 x 10 min in TBS-T/PBS-T at room temperature.

3) Block the membrane by immersing in 5% blocking reagent TBS-T or PBS-T for 1 hr at room temperature.

4) Immunodetection

NOTE: Often you don't need such harsh conditions to remove antibodies from their proteins. The stringency of one or several of the variables can be decreased: lower the temperature, decrease the time, less BME, less SDS, etc. An especially mild but still often effective stripping protocol is lower pH incubation. Example: pH 2.0 Tris 50-100 mM, 30-60 min incubation (you may do two incubations if you wish). Then rinse and block as usual. If you do not wish to re-use the membrane immediately after stripping, you can store the membrane in plastic wrap (wet, you do not want it to dry out). Another simple, mild stripping buffer is 0.1 M glycine•HCl (pH 2.5-3.0), incubation 30 min to 2 hrs room temperature or 37 degrees C, depending on the antibody.

Find additional tips, troubleshooting help, and resources within our Protein Assays and Analysis Support Center.

How do I destain proteins on a PVDF membrane that were stained with SimplyBlue SafeStain?

After staining with SimplyBlue SafeStain, use deionized water for the less strongly retained protein bands on the PVDF membrane.

Increasing methanol or ethanol concentrations up to 70% should destain any remaining bands. You can leave the membrane in the destain indefinitely.

Find additional tips, troubleshooting help, and resources within our Protein Assays and Analysis Support Center.

I performed a western transfer onto a PVDF membrane and the transfer efficiency was very poor. Can you offer some tips?

Here are possible causes and solutions:

- The membrane may not be properly treated prior to transfer: Make sure that the membrane is pre-wetted with a polar organic solvent such as methanol or ethanol.
- There may be poor gel to membrane contact: Ensure that the filter paper and blotting pads are well saturated with transfer buffer, taking care to remove any bubbles during the assembly of the membrane sandwich. The gel/membrane sandwich must fit securely in the two halves of the blot module. Try adding another pad or replace any pads that have lost their resiliency with fresh ones.
- Over-compression of the gel: A good indication of over-compression is if the gel has been excessively flattened. In the event that the sandwich is over-compressed, remove enough pads so that the blotter can be closed without exerting excess pressure on the gel and the membrane.

Find additional tips, troubleshooting help, and resources within our Protein Electrophoresis and Western Blotting Support Center.

Are your PVDF and nitrocellulose membranes compatible with the Li-COR instrument?

Yes, both our PVDF and nitrocellulose membranes are compatible with the Li-COR instrument.

Find additional tips, troubleshooting help, and resources within our Protein Assays and Analysis Support Center.

I am planning on doing a dot blot and my sample contains acetonitrile. Can your PVDF or nitrocellulose membrane withstand acetonitrile?

Our PVDF can tolerate acetonitrile but our nitrocellulose cannot.

Find additional tips, troubleshooting help, and resources within our Protein Assays and Analysis Support Center.

View all Invitrolon™ PVDF/Filter Paper Sandwiches, 0.45 μm, 8.5 x 13.5 cm FAQs