Ariamsi Ricardo scite author profile

Ariamsi Ricardo

2Publications

71Citation Statements Received

70Citation Statements Given

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University of Puerto Rico System, Central University of the Caribbean

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Tryptophan Scanning Mutagenesis in the αM3 Transmembrane Domain of the Torpedo californica Acetylcholine Receptor: Functional and Structural Implications

et al. 2003

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The functional role of the alphaM3 transmembrane domain of the Torpedo nicotinic acetylcholine receptor (AChR) was characterized by performing tryptophan-scanning mutagenesis at 13 positions within alphaM3, from residue M278 through I290. The expression of the mutants in Xenopus oocytes was measured by [(125)I]-alpha-bungarotoxin binding, and ACh receptor function was evaluated by using a two-electrode voltage clamp. Six mutants (L279W, F280W, I283W, V285W, S288W, and I289W) were expressed at lower levels than the wild type. Most of these residues have been proposed to face the interior of the protein. The I286W mutant was expressed at 2.4-fold higher levels than the wild type, and the two lipid-exposed mutations, F284W and S287W, were expressed at similar levels as wild type. Binding assays indicated that the alphaM3 domain can accommodate bulky groups in almost all positions. Three mutations, M282W, V285W, and I289W, caused a loss of receptor function, suggesting that the tryptophan side chains alter the conformational changes required for channel assembly or ion channel function. This loss of function suggests that these positions may be involved in helix-helix contacts that are critical for channel gating. The lipid-exposed mutation F284W enhances the receptor macroscopic response at low ACh concentrations and decreases the EC(50). Taken together, our results suggest that alphaM3 contributes to the gating machinery of the nicotinic ACh receptor and that alphaM3 is comprised of a mixture of two types of helical structures.

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The Polarity of Lipid-Exposed Residues Contributes to the Functional Differences between Torpedo and Muscle-Type Nicotinic Receptors

et al. 2006

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A comparison between the Torpedo and muscle-type acetylcholine receptors (AChRs) reveals differences in several lipid-exposed amino acids, particularly in the polarity of those residues. The goal of this study was to characterize the role of eight lipid-exposed residues in the functional differences between the Torpedo and muscle-type AChRs. To this end, residues alphaS287, alphaC412, betaY441, gammaM299, gammaS460, deltaM293, deltaS297 and deltaN305 in the Torpedo AChR were replaced with those found in the muscle-type receptor. Mutant receptor expression was measured in Xenopus oocytes using [(125)I]-alpha-bungarotoxin, and AChR ion channel function was evaluated using the two-electrode voltage clamp. Eight mutant combinations resulted in an increase (1.5- to 5.2-fold) in AChR expression. Four mutant combinations produced a significant 46% decrease in the ACh 50% inhibitory concentration (EC(50)), while three mutant combinations resulted in 1.7- to 2-fold increases in ACh EC(50). Finally, seven mutant combinations resulted in a decrease in normalized, ACh-induced currents. Our results suggest that these residues, although remote from the ion channel pore, (1) contribute to ion channel gating, (2) may affect trafficking of AChR into specialized membrane domains and (3) account for the functional differences between Torpedo and muscle-type AChR. These findings emphasize the importance of the lipid-protein interface in the functional differences between the Torpedo and muscle-type AChRs.

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Ariamsi Ricardo

Tryptophan Scanning Mutagenesis in the αM3 Transmembrane Domain of the Torpedo californica Acetylcholine Receptor: Functional and Structural Implications

The Polarity of Lipid-Exposed Residues Contributes to the Functional Differences between Torpedo and Muscle-Type Nicotinic Receptors

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