Overview
- Wilson, S.P. and Kirshner, N. (1977) J. Neurochem. 28, 687.
- Garcia-Guzman, M. et al. (1995) Eur. J. Neurosci. 7, 647.
- McCann, C.M. et al. (2006) Proc. Natl. Acad. Sci. U.S.A. 103, 5149.
- Live cell imaging of α-Bungarotoxin-ATTO Fluor-550 in differentiated PC-12 cells.Neurite outgrowth was induced in PC-12 cells through 7 days exposure to 100 ng/ml Native mouse NGF 2.5S protein (99%) (#N-240). (A) CellMask™ Actin 1X solution was applied for 30 minutes, resulting in a green fluorescence to visualize cellular membrane. (B) Following this, the same cells underwent incubation with 0.3 µM of α-Bungarotoxin-ATTO Fluor-550 for 60 minutes at 37ºC, followed by PBSX1 wash, leading to orange (seen in red) fluorescence indicative of the distribution of nicotinic ACh channels. (C) Live imaging of the differentiated PC-12 cells allowed observation of α-Bungarotoxin distribution among the cells.
- Unlabeled α-Bungarotoxin successfully blocks nicotinic ACh channels access.Neurite outgrowth was induced in PC-12 cells through 7 days exposure to 100 ng/ml Native mouse NGF 2.5S protein (99%) (#N-240). (A) CellMask™ Actin 1X solution was applied for 30 minutes, resulting in a green fluorescence to visualize cellular membrane. (B) Following this, the same cells underwent incubation with 100 µM of α-Bungarotoxin (#B-100) for 30 minutes at 37ºC, followed by incubation with 0.3 µM of α-Bungarotoxin-ATTO Fluor-550 for 60 minutes at 37ºC, followed by PBSX1 wash. (C) Live imaging of differentiated PC-12 cells demonstrates that α-Bungarotoxin successfully competes with α-Bungarotoxin-ATTO Fluor-550 for binding sites of nicotinic ACh channels.
- Direct flow cytometry of α-Bungarotoxin in live intact rat PC-12 cells.___ PC-12 cells.
___ PC-12 cells + 0.1 µM α-Bungarotoxin (#B-100).
___ PC-12 cells + 0.1 µM α-Bungarotoxin-ATTO Fluor-550 (#B-100-AY). - Alomone Labs α-Bungarotoxin-ATTO Fluor-550 inhibits α7 nAChR heterologously expressed in Xenopus oocytes.A.Time course of α-Bungarotoxin-ATTO Fluor-550 (#B-100-AY) action on α7 nAChR currents, elicited every 50 sec by a transient application of 1 mM ACh + 0.3 µM PNU-120596, while membrane potential was held at -80 mV. Application of 50 nM (green) α-Bungarotoxin-ATTO Fluor-550 significantly inhibits the currents.
B. Superimposed traces of α7 nAChR currents upon application of control and 50nM (green) α-Bungarotoxin-ATTO Fluor-550 (taken from the recording in A).
- Ohta, M. et al. (1987) FEBS Lett. 222, 79.
- Wilson, P.T. et al. (1988) Mol. Pharmacol. 34, 643.
- Wilson, S.P. and Kirshner, N. (1977) J. Neurochem. 28, 687.
- Garcia-Guzman, M. et al. (1995) Eur. J. Neurosci. 7, 647.
- McCann, C.M. et al. (2006) Proc. Natl. Acad. Sci. U.S.A. 103, 5149.
α-Bungarotoxin isoform A31 is a 74 amino acid peptidyl toxin isolated from the venom of the banded krait snake, Bungarus multicinctus1.
α-Bungarotoxin blocks postsynaptic neuromuscular transmission via competitive inhibition of nicotinic ACh receptors (nAChRs) with an IC50 of 3.5 x 10-10 M, thereby preventing the depolarizing action on postsynaptic membranes and blocking neuromuscular transmission2.
The toxin is selective for α7 receptors (IC50 value of 1.6 nM) and α3/β4 receptors (IC50 value of >3 µM)3,4.
α-Bungarotoxin also binds to and blocks a subset of GABAA receptors (GABAARs) that contain the GABAAR β3 subunit. In particular, α-Bungarotoxin blocks GABAARs that contain interfaces between adjacent β3 subunits5.
α-Bungarotoxin-ATTO Fluor-550 (#B-100-AY) is a highly pure, natural, and biologically active conjugated peptide toxin.
Benefits of α-Bungarotoxin-ATTO Fluor-550:
✓ Localization and distribution
✓ Live cell imaging
✓ Single cell detection
✓ Direct flow cytometry
✓Binding kinetics
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