Danyall Meah scite author profile

Danyall Meah

2Publications

20Citation Statements Received

67Citation Statements Given

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Aston University

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Examining the stability of membrane proteins within SMALPs

Gulamhussein

Meah

Soja

et al. 2019

European Polymer Journal

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Amphipathic co-polymers such as styrene-maleic acid (SMA) have gained popularity over the last few years due to their ability and ease of use in solubilising and purifying membrane proteins in comparison to conventional methods of extraction such as detergents. SMA2000 is widely used for membrane protein studies and is considered as the optimal polymer for this technique. In this study a side-by-side comparison of SMA2000 with the polymer SZ30010 was carried out as both these polymers have similar styrene:maleic acid ratios and average molecular weights. Ability to solubilise, purify and stabilise membrane proteins was tested using three structurally different membrane proteins. Our results show that both polymers can be used to extract membrane proteins at a comparable efficiency to conventional detergent dodecylmaltoside (DDM). SZ30010 was found to give a similar protein yield and, SMALP disc size as SMA2000, and both polymers offered an increased purity and increased thermostability compared to DDM. Further investigation was conducted to investigate SMALP sensitivity to divalent cations. It was found that the sensitivity is polymer specific and not dependent on the protein encapsulated. Neither is it affected by the concentration of SMALPs. Larger divalent cations such as Co 2+ and Zn 2+ resulted in an increased sensitivity. Highlights: SMA polymers SZ300110 and SMA2000 are comparable for protein solubilisation, yield, purity and thermostability.  Sensitivity of SMALPs to Mg 2+ is similar for different membrane proteins.  The sensitivity to Mg 2+ is independent of the concentration of SMALPs  SMALPs are even more sensitive to larger divalent cations

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Data underpinning article "Examining the stability of membrane proteins within SMALPs"

Rothnie¹,

Gulamhussein²,

Meah³

et al. 2018

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Danyall Meah

Examining the stability of membrane proteins within SMALPs

Data underpinning article "Examining the stability of membrane proteins within SMALPs"

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