α‐Synuclein Spontaneously Adopts Stable and Reversible α‐Helical Structure in Water‐Less Environment

Mukhopadhyay, Anasua ; Mehra, Surabhi ; Kumar, Raj ; Maji, Samir K. ; Krishnamoorthy, G. ; Sharma, Kamendra P. (2019) α‐Synuclein Spontaneously Adopts Stable and Reversible α‐Helical Structure in Water‐Less Environment ChemPhysChem, 20 (21). pp. 2783-2790. ISSN 1439-4235

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Official URL: http://doi.org/10.1002/cphc.201900868

Related URL: http://dx.doi.org/10.1002/cphc.201900868

Abstract

A highly stable, spontaneous, and reversible α-helical-structure formation in recombinant and chemically modified α-synuclein protein is demonstrated for the first time in a water-less (1.5 % w/w H2O) polymer surfactant environment. Using a combination of circular dichroism and ATR-FTIR spectroscopy, we show that whilst native α-synuclein in aqueous solution shows a predominant unordered conformation (≈64 %), mixing with polyethylene glycol based anionic polymer surfactant (PS) and removing water reveals a 25 % unordered, 25 % α-helical, and 27 % β-sheet structure. Interestingly, bioconjugation of native α-synuclein with a diamine molecule, to increase the positive charge on the protein chain, and subsequent electrostatic coupling with the PS forms a conjugate with a retained unordered structure. Removal of water from this system provides a highly stable α-helical (≈74 %) water-less liquid system. Surprisingly, the α-helical-to-unordered state transition is completely reversible and is achieved at ≈25–30 w/w% of water in the system. Moreover, the α-helix shows an extraordinary temporal stability (>6 months) in a waterless environment.

Item Type:Article
Source:Copyright of this article belongs to John Wiley & Sons, Inc
ID Code:126410
Deposited On:31 Oct 2022 04:03
Last Modified:31 Oct 2022 04:03

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