| Emerging structure of the nicotinic acetylcholine receptors A Karlin Nature Reviews Neuroscience 3 (2), 102-114, 2002 | 1232 | 2002 |
| Acetylcholine receptor channel structure probed in cysteine-substitution mutants MH Akabas, DA Stauffer, M Xu, A Karlin Science 258 (5080), 307-310, 1992 | 842 | 1992 |
| Toward a structural basis for the function of nicotinic acetylcholine receptors and their cousins A Karlin, MH Akabas Neuron 15 (6), 1231-1244, 1995 | 840 | 1995 |
| [8] Substituted-cysteine accessibility method A Karlin, MH Akabas Methods in enzymology 293, 123-145, 1998 | 731 | 1998 |
| Identification of the alpha subunit half-cystine specifically labeled by an affinity reagent for the acetylcholine receptor binding site. PN Kao, AJ Dwork, RR Kaldany, ML Silver, J Wideman, S Stein, A Karlin Journal of Biological Chemistry 259 (19), 11662-11665, 1984 | 540 | 1984 |
| Identification of acetylcholine receptor channel-lining residues in the entire M2 segment of the α subunit MH Akabas, C Kaufmann, P Archdeacon, A Karlin Neuron 13 (4), 919-927, 1994 | 527 | 1994 |
| On the application of “a plausible model” of allosteric proteins to the receptor for acetylcholine A Karlin Journal of theoretical biology 16 (2), 306-320, 1967 | 526 | 1967 |
| Acetylcholine receptor binding site contains a disulfide cross-link between adjacent half-cystinyl residues. PN Kao, A Karlin Journal of Biological Chemistry 261 (18), 8085-8088, 1986 | 519 | 1986 |
| Molecular weight in detergent solution of acetylcholine receptor from Torpedo californica JA Reynolds, A Karlin Biochemistry 17 (11), 2035-2038, 1978 | 513 | 1978 |
| Functional contributions of α5 subunit to neuronal acetylcholine receptor channels J Ramirez-Latorre, CR Yu, X Qu, F Perin, A Karlin, L Role Nature 380 (6572), 347-351, 1996 | 492 | 1996 |
| Structure of nicotinic acetylcholine receptors A Karlin Current opinion in neurobiology 3 (3), 299-309, 1993 | 365 | 1993 |
| Electrostatic potential of the acetylcholine binding sites in the nicotinic receptor probed by reactions of binding-site cysteines with charged methanethiosulfonates DA Stauffer, A Karlin Biochemistry 33 (22), 6840-6849, 1994 | 335 | 1994 |
| Structure of the NMDA receptor channel M2 segment inferred from the accessibility of substituted cysteines T Kuner, LP Wollmuth, A Karlin, PH Seeburg, B Sakmann Neuron 17 (2), 343-352, 1996 | 327 | 1996 |
| Chemical modification of the active site of the acetylcholine receptor A Karlin The Journal of general physiology 54 (1), 245-264, 1969 | 316 | 1969 |
| Effects of blocking sulfhydryl groups and of reducing disulfide bonds on the acetylcholine-activated permeability system of the electroplax A Karlin, E Bartels Biochimica et Biophysica Acta (BBA)-Biophysics including Photosynthesis 126 …, 1966 | 300 | 1966 |
| Molecular properties of nicotinic acetylcholine receptors A Karlin Cell Surface and Neuronal Function, 1980 | 299 | 1980 |
| Affinity-labeling of purified acetylcholine receptor from Torpedo californica CL Weill, MG McNamee, A Karlin Biochemical and biophysical research communications 61 (3), 997-1003, 1974 | 288 | 1974 |
| Symmetrical dimer of the human dopamine transporter revealed by cross-linking Cys-306 at the extracellular end of the sixth transmembrane segment H Hastrup, A Karlin, JA Javitch Proceedings of the National Academy of Sciences 98 (18), 10055-10060, 2001 | 250 | 2001 |
| The location of the gate in the acetylcholine receptor channel GG Wilson, A Karlin Neuron 20 (6), 1269-1281, 1998 | 248 | 1998 |
| Identification of Acetylcholine Receptor Channel-Lining Residues in the M1 Segment of the. alpha.-Subunit MH Akabas, A Karlin Biochemistry 34 (39), 12496-12500, 1995 | 242 | 1995 |
