Abstract
Inclusion in agarose gel significantly affects the conformational dynamics of native and acidic partly folded states of tuna apomyoglobin, a single tryptophan containing protein, as documented by frequency domain fluorometry investigations. The heterogeneity of the tryptophanyl emission decay increases on gel inclusion compared to that observed for free-in-solvent protein at both neutral and acidic pH, thus suggesting that the interconversion rate among conformational substates is somewhat reduced. The observation that this effect is much more pronounced for the partly folded state suggests that confined environments such as those existing in the living cells might favor the sequential folding process avoiding that structured intermediates rapidly convert into less structured ones.
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