Binding of α-bungarotoxin to synthetic peptides corresponding to residues 173-204 of the α subunit of Torpedo, calf, and human acetylcholine receptor and restoration of high-affinity binding by sodium dodecyl sulfate
Wilson, P.T.; Lentz, T.L.
Biochemistry (Easton) 27(18): 6667-6674
1988
ISSN/ISBN: 0006-2960 Accession: 074248776
PDF emailed within 1 workday: $29.90
Related References
Wilson, P.T.; Lentz, T.L. 1988: Binding of a-bungarotoxin to synthetic peptides corresponding to residues 173-204 of the a subunit of Torpedo, calf, and human acetylcholine receptor and restoration of high-affinity binding by sodium dodecyl sulfate Biochemistry (American Chemical Society) 27: 67-74Wilson, P.T.; Lentz, T.L. 1988: Binding of alpha-bungarotoxin to synthetic peptides corresponding to residues 173-204 of the alpha subunit of Torpedo, calf, and human acetylcholine receptor and restoration of high-affinity binding by sodium dodecyl sulfate Biochemistry 27(18): 6667-6674
Haggerty, JG.; Froehner, SC. 1981: Restoration of 125I--bungarotoxin binding activity to the subunit of Torpedo acetylcholine receptor isolated by gel electrophoresis in sodium dodecyl sulfate Journal of Biological Chemistry 256(16): 8294-8297
Tzartos, S.J.; Changeux, J.P. 1983: High affinity binding of alpha-bungarotoxin to the purified alpha-subunit and to its 27,000-dalton proteolytic peptide from Torpedo marmorata acetylcholine receptor. Requirement for sodium dodecyl sulfate EMBO Journal 2(3): 381-387
Haggerty, J.G.; Froehner, S.C. 1981: Restoration of 125I-alpha-bungarotoxin binding activity to the alpha subunit of Torpedo acetylcholine receptor isolated by gel electrophoresis in sodium dodecyl sulfate Journal of Biological Chemistry 256(16): 8294-8297
Vincent, A.; Jacobson, L.; Curran, L. 1998: Alpha-Bungarotoxin binding to human muscle acetylcholine receptor: measurement of affinity, delineation of AChR subunit residues crucial to binding, and protection of AChR function by synthetic peptides Neurochemistry International 32(5-6): 427-433
Chaturvedi, V.; Donnellyroberts, D.L.; Lentz, T.L. 1992: Substitution of Torpedo acetylcholine receptor α1-subunit residues with snake α1- and rat nerve α3-subunit residues in recombinant fusion proteins : effect on α-bungarotoxin binding Biochemistry (Easton) 31(5): 1370-1375
Chaturvedi, V.; Donnelly Roberts, D.L.; Lentz, T.L. 1992: Substitution of Torpedo acetylcholine receptor a1-subunit residues with snake a1- and rat nerve a3-subunit residues in recombinant fusion proteins: effect on a-bungarotoxin binding Biochemistry (American Chemical Society) 31: 70-5
Vijaya, C.H.A.T.U.R.V.E.D.I.; Donnellyroberts, D.L.; Lentz, T.L. 1993: Effects of mutations of Torpedo acetylcholine receptor α1 subunit residues 184-200 on α-bungarotoxin binding in a recombinant fusion protein Biochemistry (Easton) 32(37): 9570-9576
Chaturvedi, V.; Donnelly Roberts, D.L.; Lentz, T.L. 1993: Effects of mutations of Torpedo acetylcholine receptor a1 subunit residues 184-200 on a-bungarotoxin binding in a recombinant fusion protein Biochemistry (American Chemical Society) 32: 70-6
Tzartos, S.J.; Remoundos, M.S. 1990: Fine localization of the major a-bungarotoxin binding site to residues a189-195 of the Torpedo acetylcholine receptor. Residues 189, 190, and 195 are indispensable for binding Journal of Biological Chemistry 265: 462-467
Chaturvedi, V.; Donnelly-Roberts, D.L.; Lentz, T.L. 1992: Substitution of Torpedo acetylcholine receptor alpha 1-subunit residues with snake alpha 1- and rat nerve alpha 3-subunit residues in recombinant fusion proteins: effect on alpha-bungarotoxin binding Biochemistry 31(5): 1370-1375
Donnelly Roberts, D.L.; Chaturvedi, V.; Lentz, T.L. 1991: Effect of substitution of torpedo acetylcholine receptor achr alpha subunit residues with snake residues on binding of alpha bungarotoxin alpha btx Society for Neuroscience Abstracts 17(1-2): 1527
Chaturvedi, V.; Donnelly-Roberts, D.L.; Lentz, T.L. 1993: Effects of mutations of Torpedo acetylcholine receptor alpha 1 subunit residues 184-200 on alpha-bungarotoxin binding in a recombinant fusion protein Biochemistry 32(37): 9570-9576
Tzartos, S.J.; Remoundos, M.S. 1990: Fine localization of the major alpha-bungarotoxin binding site to residues alpha 189-195 of the Torpedo acetylcholine receptor. Residues 189, 190, and 195 are indispensable for binding Journal of Biological Chemistry 265(35): 21462-21467
Donnellyroberts, D.L.; Lentz, T.L. 1991: Binding sites for α-bungarotoxin and the noncompetitive inhibitor phencyclidine on a synthetic peptide comprising residues 172-277 of the α-subunit of the nicotinic acetylcholine receptor Biochemistry (Easton) 30(30): 7484-7491
Donnelly Roberts, D.L.; Lentz, T.L. 1991: Binding sites for a-bungarotoxin and the noncompetitive inhibitor phencyclidine on a synthetic peptide comprising residues 172-227 of the a-subunit of the nicotinic acetylcholine receptor Biochemistry (American Chemical Society) 30: 84-91
Wilson, PT. 1988: Localization and characterization of the -bungarotoxin binding site on the subunit of Torpedo californica acetylcholine receptor Dissertation Abstracts International B Sciences and Engineering, 4812: 3507
Lukas, R.J. 1986: Relationships between high affinity binding sites for nicotinic acetylcholine receptor agonists and alpha bungarotoxin on membranes from rat brain torpedo electroplax and the clonal cell lines pg 12 and te 671 Society for Neuroscience Abstracts 12(2): 961
Hawrot, E.; Song G Q.; Armitage, I. 1989: Conformational changes during binding of the snake neurotoxin alpha bungarotoxin to synthetic peptides corresponding to the binding domain of the nicotinic acetylcholine receptor Journal of Cellular Biochemistry Suppl (13 Part A): 26