Ghosh, R. ; Samajdar, R. N. ; Bhattacharyya, Aninda Jiban ; Bagchi, B. (2015) Composition dependent multiple structural transformations of myoglobin in aqueous ethanol solution: A combined experimental and theoretical study The Journal of Chemical Physics, 143 (1). 015103. ISSN 0021-9606
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Official URL: http://doi.org/10.1063/1.4923003
Related URL: http://dx.doi.org/10.1063/1.4923003
Abstract
Experimental studies (circular dichroism and ultra-violet (UV) absorption spectra) and large scale atomistic molecular dynamics simulations (accompanied by order parameter analyses) are combined to establish a number of remarkable (and unforeseen) structural transformations of protein myoglobin in aqueous ethanol mixture at various ethanol concentrations. The following results are particularly striking. (1) Two well-defined structural regimes, one at xEtOH ∼ 0.05 and the other at xEtOH ∼ 0.25, characterized by formation of distinct partially folded conformations and separated by a unique partially unfolded intermediate state at xEtOH ∼ 0.15, are identified. (2) Existence of non-monotonic composition dependence of (i) radius of gyration, (ii) long range contact order, (iii) residue specific solvent accessible surface area of tryptophan, and (iv) circular dichroism spectra and UV-absorption peaks are observed. Interestingly at xEtOH ∼ 0.15, time averaged value of the contact order parameter of the protein reaches a minimum, implying that this conformational state can be identified as a molten globule state. Multiple structural transformations well known in water-ethanol binary mixture appear to have considerably stronger effects on conformation and dynamics of the protein. We compare the present results with studies in water-dimethyl sulfoxide mixture where also distinct structural transformations are observed along with variation of co-solvent composition.
Item Type: | Article |
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Source: | Copyright of this article belongs to AIP Publishing LLC. |
ID Code: | 116797 |
Deposited On: | 20 May 2021 05:42 |
Last Modified: | 20 May 2021 05:42 |
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