A comparison of SMA (styrene maleic acid) and DIBMA (di-isobutylene maleic acid) for membrane protein purification

Gulamhussein, Aiman; Uddin, Romez; Tighe, Brian; Poyner, David R.; Rothnie, Alice

doi:10.1016/j.bbamem.2020.183281

Cited by 65 publications

(86 citation statements)

References 32 publications

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“…This is further complicated by the observation that polymer extraction is largely protein and lipid dependent, with nanodisc-forming polymers being equal, more, or less effective than the detergent, dependent on the system. [31][32][33][34][35]58,59 Polymers for which there exists comparisons of extraction efficacies to SMA2000 are outlined in Table S1, in addition to known limitations in buffer compatibilities and divalent cations. In this study, we assessed the efficacy of AASTY polymers with fluorescent sizeexclusion chromatography (FSEC), using HEK293F cells recombinantly overexpressing the human transient receptor potential melastatin type 4 (hTRPM4) fused with an N-terminal StrepTagII and a green fluorescent protein (GFP) tag as our test system (Figure 2A).…”

Section: Results and Discussion Aasty Solubilizes The Htrpm 4 Ion Channel From Hek293 Cellsmentioning

confidence: 99%

Lipid Nanodiscs via Ordered Copolymers

Smith

Autzen

Faust

et al. 2020

Chem

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A highly alternating copolymer composed of acrylic acid and styrene (AASTY) is synthesized with controlled radical polymerization by exploiting the reactivity ratios of the monomers to control the monomer sequence. The AASTY copolymers are effective solubilizers of cellular membranes and their embedded proteins, which improves structural characterization by single-particle cryo-electron microscopy (cryo-EM). These copolymers are promising tools for exploring detergent-free membrane protein solubilization and direct formation of native nanodiscs, facilitating structural and functional analysis of the mammalian proteome.

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Section: Results and Discussion Aasty Solubilizes The Htrpm 4 Ion Channel From Hek293 Cellsmentioning

confidence: 99%

Lipid Nanodiscs via Ordered Copolymers

Smith

Autzen

Faust

et al. 2020

Chem

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“…Lyophilized DIBMA stocks were quality checked 39 using a Shimadzu IR Affinity-1s or a PerkinElmer Spectrum Two FTIR instrument, scanned across a complete wavenumber range of 4000–400 cm –1 , with 16 scans to measure transmittance ( Figure S3a ). In particular, the carboxylate (1705 cm –1 ) and anhydride (1775 cm –1 ) bands were checked to ensure that our treatment of the polymer with strong acids did not result in a condensation of the anhydride ring, which would result in a significantly reduced solubilization efficiency.…”

Section: Materials and Methodsmentioning

confidence: 99%

Capturing Membrane Protein Ribosome Nascent Chain Complexes in a Native-like Environment for Co-translational Studies

et al. 2020

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Co-translational folding studies of membrane proteins lag behind cytosolic protein investigations largely due to the technical difficulty in maintaining membrane lipid environments for correct protein folding. Stalled ribosome-bound nascent chain complexes (RNCs) can give snapshots of a nascent protein chain as it emerges from the ribosome during biosynthesis. Here, we demonstrate how SecM-facilitated nascent chain stalling and native nanodisc technologies can be exploited to capture in vivo -generated membrane protein RNCs within their native lipid compositions. We reveal that a polytopic membrane protein can be successfully stalled at various stages during its synthesis and the resulting RNC extracted within either detergent micelles or diisobutylene–maleic acid co-polymer native nanodiscs. Our approaches offer tractable solutions for the structural and biophysical interrogation of nascent membrane proteins of specified lengths, as the elongating nascent chain emerges from the ribosome and inserts into its native lipid milieu.

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“…A recent low-resolution cryogenic electron microscopy (cryo-EM) analysis of MalEFGK 2 was conducted in nanodiscs and could provide a basis for future useful mechanistic investigations [41]. Alternatively, investigation of other detergent alternatives [42,43] may also be helpful for future structural studies.…”

Section: Properties Of the Maltose Transporter Differ In Detergent Ormentioning

confidence: 99%

Structures of ABC transporters: handle with care

2020

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In the past two decades, the ATP-binding cassette (ABC) transporters' field has undergone a structural revolution. The importance of structural biology to the development of the field of ABC transporters cannot be overstated, as the ensemble of structures not only revealed the architecture of ABC transporters but also shaped our mechanistic view of these remarkable molecular machines. Nevertheless, we advocate that the mechanistic interpretation of the structures is not trivial and should be carried out with prudence. Herein, we bring several examples of structures of ABC transporters that merit re-interpretation via careful comparison to experimental data. We propose that it is of the upmost importance to place new structures within the context of the available experimental data.

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A comparison of SMA (styrene maleic acid) and DIBMA (di-isobutylene maleic acid) for membrane protein purification

Cited by 65 publications

References 32 publications

Lipid Nanodiscs via Ordered Copolymers

Lipid Nanodiscs via Ordered Copolymers

Capturing Membrane Protein Ribosome Nascent Chain Complexes in a Native-like Environment for Co-translational Studies

Structures of ABC transporters: handle with care

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