Solute accessibility to N epsilon-fluorescein isothiocyanate-lysine-23 cobra alpha-toxin bound to the acetylcholine receptor. A consideration of the effect of rotational diffusion and orientation constraints on fluorescence quenching.

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Solute accessibility to N epsilon-fluorescein isothiocyanate-lysine-23 cobra alpha-toxin bound to the acetylcholine receptor. A consideration of the effect of rotational diffusion and orientation constraints on fluorescence quenching.

D A Johnson and J Yguerabide

ABSTRACT

To obtain information on the disposition of alpha-toxin whenbound to the acetylcholine receptor (AChR), we evaluated theaccessibility of solutes to fluorescein isothiocyanate (FITC)conjugated to alpha-toxin (siamensis 3) at lysine 23 (FITC-toxin)by measuring the rate constants for iodide quenching of thefluorescence of fluorescein free in solution and FITC-toxinfree in solution and bound to AChR. Relative to the free fluorescein,we observed a 55% reduction in the quenching rate constant forthe unbound FITC-toxin and 80% reduction for the AChR-boundFITC-toxin. It is tempting to interpret a decrease in the quenchingrate constant as due to an increase in the masking of the labelingfluorophore, which in our case would then be indicative of maskingof fluorescein conjugated to the free toxin and masking of FITC-toxin,in the region of lysine 23, when bound to AChR. However, elementaryconsiderations indicate that the quenching rate depends notonly on geometrical masking factors but also on the translationaland rotational mobilities of the labeled molecules as well asorientational constraints. To evaluate these effects we haveestablished quantitative relations between the rate of fluorescencequenching, the degree of masking of fluorophore, translationaland rotational rates, and orientational constraints of the labeledmacromolecules, using recent formulations for the rate of reactionbetween asymmetric molecules (Shoup et al., 1981, Biophys. J.,36:619-714).(ABSTRACT TRUNCATED AT 250 WORDS)

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