RanBP1 Agarose Beads (ab211182)
Overview
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Product name
RanBP1 Agarose Beads
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Product overview
Background: Small GTP-binding proteins (or GTPases) are a family of proteins that serve as molecular regulators in signalling transduction pathways. Ran, a 25 kDa protein of the Ras superfamily, regulates a variety of biological response pathways that include DNA synthesis, cell cycle progression, and translocation of RNA/proteins through the nuclear pore complex. Like other small GTPases, Ran regulates molecular events by cycling between an inactive GDP-bound form and an active GTP-bound form. In its active (GTP-bound) state, Ran binds specifically to RanBP1 to control downstream signaling cascades.
Use: Our RanBP1 Agarose beads are designed to pull down only the active form of Ran.
Description: Our RanBP1 Agarose beads are colored for easy visualization, minimizing potential loss during washes and aspirations during Ran-GTP pulldown.
Activity: Product specifically interacts and precipitates GTP-bound Ran from cell lysate.
Concentration: 800 μL of 50% Agarose slurry, 400 μg RanBP1 (full length) in 1X PBS, 50% Glycerol
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Notes
Protocol for the pull down assay:
1. Aliquot 0.5 – 1 mL of cell lysate to a microcentrifuge tube.
2. Adjust the volume of each sample to 1 mL with 1X lysis buffer. 3. Thoroughly resuspend the agarose bead slurry by vortexing or titrating. 4. Quickly add 40 µL of resuspended bead slurry to each tube. 5. Incubate the tubes at 4°C for 1 hour with gentle agitation.
6. Pellet the beads by centrifugation for 10 seconds at 14,000 x g. 7. Aspirate and discard the supernatant, making sure not to disturb/remove the bead pellet.
8. Wash the bead 3 times with 0.5 mL of 1X lysis buffer, centrifuging and aspirating each time. 9. After the last wash, pellet the beads and carefully remove all the supernatant. 10. Resuspend the bead pellet in 40 µL of 2X reducing SDS-PAGE sample buffer. 12. Boil each sample for 5 minutes.
13. Centrifuge each sample for 10 seconds at 14,000 x g.
For best results with these beads, it is important to first determine the amount of cell lysate that is detectable on the blot before performing the pull down. We recommend running a lysate titration on a Western blot to determine the concentration that gives a good signal. For the GTPase assay, you will then want to add 100-fold that amount. For example, if you run 5, 10 and 20ug of lysate on a Western blot and 10ug gives a good signal, you will use 10ug x 100 = 1mg of lysate per pull down.
The activity level of the small GTPase in the sample will determine how much gets pulled down. The beads are designed to only pull down small GTPase in the GTP-bound (active) form. If the majority of the GTPase in the sample is in the GDP-bound form (inactive), it will not get pulled down, regardless of the amount of lysate loaded. The lysate can be preloaded with GTPγS and used as a positive control.
Sequence alignment of a specific small GTPase indicates that there is at most one or two amino acid variation between various species. Therefore, our beads may be used across many species.
Properties
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Storage instructions
Store at -20°C. Please refer to protocols. -
Research areas
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Function
Inhibits GTP exchange on Ran. Forms a Ran-GTP-RANBP1 trimeric complex. Increase GTP hydrolysis induced by the Ran GTPase activating protein RANGAP1. May act in an intracellular signaling pathway which may control the progression through the cell cycle by regulating the transport of protein and nucleic acids across the nuclear membrane. -
Sequence similarities
Belongs to the RANBP1 family.
Contains 1 RanBD1 domain. - Information by UniProt
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Alternative names
- HTF9A
- RAN binding protein 1
- Ran specific GTPase activating protein
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Images
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Ran Activation Assay
Lane 1, NIH 3T3 cell lysate loaded with GDP and incubated with RanBP1 Agarose beads. Lane 2, NIH 3T3 cell lysate loaded with GTPγS and incubated with RanBP1 Agarose beads.
