Cell-free expression, purification, and membrane reconstitution for NMR studies of the nonstructural protein 4B from hepatitis C virus

Fogeron, Marie‐Laure; Jirasko, Vlastimil; Penzel, Susanne; Paul, David; Montserret, Roland; Danis, Clément; Lacabanne, Denis; Badillo, Aurélie; Gouttenoire, Jérôme; Moradpour, Darius; Bartenschlager, Ralf; Pénin, François; Meier, Beat H.; Böckmann, Anja

doi:10.1007/s10858-016-0040-2

Cited by 23 publications

(34 citation statements)

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“…As a result, the 2.5‐fold excess of mβ‐CD over the minimal amount determined, combined with PC/Chol solubilized in Triton X‐100, yielded the spectra with best resolution and signal‐to‐noise ratio (SNR), and this condition was thus set as the sample preparation standard. Finally, 2D 1 H, 15 N correlation spectra (Figure S3) confirmed that NS4B lipid reconstitution using cyclodextrin indeed yielded very similar NMR spectra as the more time‐consuming reconstitution using Bio‐Bead‐enhanced dialysis, and could thus be used as starting point for further optimizations.…”

Section: Resultsmentioning

confidence: 63%

“…Previously, we have shown that NS4B can be expressed in a soluble form using WG‐CFPS and that further reconstitution into liposomes allowed to record quite well‐resolved 13 C‐detected solid‐state NMR spectra . Resolution in spectra using the more sensitive 1 H detection remained however limited . Efficient sample optimization was hampered by the lengthy dialysis step for lipid reconstitution and complete detergent removal .…”

Section: Resultsmentioning

confidence: 99%

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Proton‐Detected Solid‐State NMR of the Cell‐Free Synthesized α‐Helical Transmembrane Protein NS4B from Hepatitis C Virus

et al. 2020

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Figure 4. Selectively labeled dGVL NS4B. [ 1 H, 15 N] 2D correlations pectrao fdUL NS4B reconstituted at LPR 2w ith ATP( in grey) overlaid with A) the dGVL NS4B [ 1 H, 15 N] 2D correlation spectrum in red, B) the projectiono fthe 3D hCANHspectra of dUL NS4B in green and dGVL NS4B in blue, and C) the projection of the 3D hCONH spectra of dUL NS4B in violet and dGVL NS4B in magenta. D) NS4Bs equencew ith Gly,V al and Leu aminoa cids highlighted. Consecutive pairs that result in expected resonances in the 3D hCONH spectrum are showninmagenta boxes. The N-terminal methionine (attached for translationi nitiation) as well as the C-terminalt hrombin cleavages ite, GSA linker and tandem Strep-tag II are underlined.

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Section: Resultsmentioning

confidence: 63%

Section: Resultsmentioning

confidence: 99%

Proton‐Detected Solid‐State NMR of the Cell‐Free Synthesized α‐Helical Transmembrane Protein NS4B from Hepatitis C Virus

et al. 2020

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“…Cell-free-expressed DHBs Sp articles show ar ather narrow distribution of diameters,c lose to the ones formed in vivo by the human virus HBs S, [33] and their constituent subunits display mainly a-helical secondary structures.T hey show similar antigenic properties as envelopes and SVPs isolated from DHBV-infected ducks.The 2D 1 H-15 NN MR spectra recorded on different preparations served to screen sample quality,a nd spectra from optimized preparations were of asensitivity and resolution that allowed us to initiate structural studies.With the obtained spectra, and by using selective labeling strategies as easily achieved in cellfree reactions,s equential assignments of the protein and subsequent structure determination should become possible, either by using 3D spectroscopy or alternatively by using approaches combining defined selective labeling schemes with 2D spectroscopy. [34] Indeed, as described in the literature, [35] and also shown by us recently on the HCV NS4B protein, [17] virtually clean selective carbon-13 labeling can be achieved in cell-free systems.T hese approaches shall thus open the way to structure investigations of HBs Sf rom the duck and ultimately the human virus,a nd eventually enable us to elucidate the structural features of complex membrane protein assemblies,s uch as these viral surface proteins,t hat are of central importance to infection. Figure 3.…”

Section: Angewandte Chemiementioning

confidence: 61%

“…[10] TheDHBV Sprotein is similar to that of HBV,b ut lacks the cysteine-rich antigenic loop of HBs S, reducing the total size of DHBs Sto167 amino acid residues versus 226 residues for HBs S( see Figure S2 for sequence alignments and Figure 1b for ap redicted model of S). While > 100 kHz MAS NMR spectroscopy, [11][12][13][14][15] cell-free expression, [16][17][18] as well as NMR analyses of large assemblies [19,20] and membrane proteins [21,22] have been demonstrated before,w eh ere show that despite the already high complexity hidden behind every single one of these elements,t heir combination is possible, and allowed us to obtain NMR data of DHBV self-assembled SVPs with suitable resolution and sensitivity.T his method should lead the way for investigations of these,a nd similar, large membrane protein assemblies with currently intractable structures. While > 100 kHz MAS NMR spectroscopy, [11][12][13][14][15] cell-free expression, [16][17][18] as well as NMR analyses of large assemblies [19,20] and membrane proteins [21,22] have been demonstrated before,w eh ere show that despite the already high complexity hidden behind every single one of these elements,t heir combination is possible, and allowed us to obtain NMR data of DHBV self-assembled SVPs with suitable resolution and sensitivity.T his method should lead the way for investigations of these,a nd similar, large membrane protein assemblies with currently intractable structures.…”

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confidence: 99%

“…Whereas CF HBs Sexpression still needs further optimization as the yields are rather low and may require the presence of chaperones to keep the protein in solution (data not shown), the DHBV protein expressed well in the presence of am ild detergent and assembled spontaneously.T ogether with its reduced size,t his feature makes DHBV SVPs ah ighly attractive model system for structural studies by solid-state NMR spectroscopy.I mportantly,t he recent development of > 100 kHz magic angle spinning (MAS) solid-state NMR proton detection techniques that reduce the requested sample amount by nearly two orders of magnitude opens the possibility to analyze the protein amounts typically obtained in cell-free expression (see below). While > 100 kHz MAS NMR spectroscopy, [11][12][13][14][15] cell-free expression, [16][17][18] as well as NMR analyses of large assemblies [19,20] and membrane proteins [21,22] have been demonstrated before,w eh ere show that despite the already high complexity hidden behind every single one of these elements,t heir combination is possible, and allowed us to obtain NMR data of DHBV self-assembled SVPs with suitable resolution and sensitivity.T his method should lead the way for investigations of these,a nd similar, large membrane protein assemblies with currently intractable structures.…”

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Structural Studies of Self‐Assembled Subviral Particles: Combining Cell‐Free Expression with 110 kHz MAS NMR Spectroscopy

et al. 2018

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Viral membrane proteins are prime targets in combatting infection. Still, the determination of their structure remains a challenge, both with respect to sample preparation and the need for structural methods allowing for analysis in a native-like lipid environment. Cell-free protein synthesis and solid-state NMR spectroscopy are promising approaches in this context, the former with respect to its great potential in the native expression of complex proteins, and the latter for the analysis of membrane proteins in lipids. Herein, we show that milligram amounts of the small envelope protein of the duck hepatitis B virus (DHBV) can be produced by cell-free expression, and that the protein self-assembles into subviral particles. Proton-detected 2D NMR spectra recorded at a magic-angle-spinning frequency of 110 kHz on <500 μg protein show a number of isolated peaks with line widths comparable to those of model membrane proteins, paving the way for structural studies of this protein that is homologous to a potential drug target in HBV infection.

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Anja Böckmann

2016

Angewandte Chemie

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The biggest challenge facing scientists is to work together efficiently.Myfavorite musician is Eliane Elias. Science is fun because it is like ab ig puzzle-you find bits and pieces,a nd if you can put them all together you can create ac lear image.Myfavorite drink is beer accompanied by good scientific discussions. Myfavorite quote is "The way forward is paradoxically to look not ahead, but to look around" (John Seely Brown and Paul Duguid, The Social Life of Information, 2000).IfIcouldbeany age Iw ould be three-the age of discovery. Myfavorite way to spend aholiday is to exchange homes and live like alocal. I am waiting for the day when someone will discover acure for Alzheimersdisease.Asour children will get even older then us,this would allow them to do so without losing their minds.Myscience "heroes" are women scientists who paved the way,headed forward, and believed in what they were doing against all odds.Myfavorite book is The Susan Effect by Peter Høeg. My 5top papers:

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Cell-free expression, purification, and membrane reconstitution for NMR studies of the nonstructural protein 4B from hepatitis C virus

Cited by 23 publications

References 53 publications

Proton‐Detected Solid‐State NMR of the Cell‐Free Synthesized α‐Helical Transmembrane Protein NS4B from Hepatitis C Virus

Proton‐Detected Solid‐State NMR of the Cell‐Free Synthesized α‐Helical Transmembrane Protein NS4B from Hepatitis C Virus

Structural Studies of Self‐Assembled Subviral Particles: Combining Cell‐Free Expression with 110 kHz MAS NMR Spectroscopy

Anja Böckmann

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