Variability among the sites by which curaremimetic toxins bind to Torpedo acetylcholine receptor, as revealed by identification of the functional residues of the functional residues of a-cobratoxin

Variability among the sites by which curaremimetic toxins bind to torpedo acetylcholine receptor, as revealed by identification of the functional residues of alpha-cobratoxin. Journal of Biological Chemistry 274(49): 34851-34858, 1999

Interaction of protein ligands with receptor fragments. On the residues of curaremimetic toxins that recognize fragments 128-142 and 185-199 of the alpha-subunit of the nicotinic acetylcholine receptor. Febs Letters 338(3): 331-338, 1994

Genetic engineering of snake toxins. Role of invariant residues in the structural and functional properties of a curaremimetic toxin, as probed by site-directed mutagenesis. Journal of Biological Chemistry 268(2): 909-916, 1993

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. The Journal of Biological Chemistry 265: 462-7, 1990

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, 1992

Antibodies directed against functional sites on the acetylcholine receptor from Torpedo marmorata. Journal of Receptor Research 4(1-6): 671-679, 1984

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, 1991

Photoaffinity Labeling of Torpedo Nicotinic Receptor with the Agonist [ 3 H]Dcta: Identification of Amino Acid Residues Which Contribute to the Binding of the Ester Moiety of Acetylcholine. Biochemistry 39(11): 3034-3043, 2000

Photoaffinity labeling of Torpedo nicotinic receptor with the agonist [3H]DCTA: identification of amino acid residues which contribute to the binding of the ester moiety of acetylcholine. Biochemistry 39(11): 3034-3043, 2000

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, 1990

Probing the N-terminal sequence of spinach PsbO: evidence that essential threonine residues bind to different functional sites in eukaryotic photosystem II. Photosynthesis Research 112(2): 117-128, 2012

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, 1992

Activation of the Torpedo nicotinic acetylcholine receptor. The contribution of residues alphaArg55 and gammaGlu93. Febs Journal 273(5): 960-970, 2006

Activation of the Torpedo nicotinic acetylcholine receptor. The contribution of residues aArg55 and gGlu93. The FEBS Journal 273(5): 0-70, 2006

Mutational analysis of novel residues identified within the binding site of d-tubocurarine of Torpedo acetylcholine receptor. Society for Neuroscience Abstracts 20(1-2): 1129, 1994