Purification and refolding of recombinant <i>Haemophilus influenzae</i> type b porin produced in <i>Bacillus subtilis</i>

Dahan, David; Srikumar, Ramakrishnan; Laprade, Raynald; Coulton, James W.

doi:10.1016/0014-5793(96)00841-1

Cited by 14 publications

(7 citation statements)

References 26 publications

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“…Although we do not know the relative orientation of the reconstituted OEP75, our data indicate that reconstitution leads to a highly preferential orientation of the protein in the liposome membrane. Similar observations on the functional reconstitution of membrane channels from denatured proteins have been made during reconstitution studies using heterologously expressed Haemophilus influenzae porin (Dahan et al, 1996), E.coli OmpA and OmpF (Surrey and Jähnig, 1992;Surrey et al, 1996), porin from Rhodopseudomonas blastica (Schmidt et al, 1996) or the SecY, SecE protein translocase (Brundage et al, 1990;Akimaru et al, 1991;Driessen, 1992). Unidirectional orientation and membrane insertion has also been observed previously (Surrey and Jähnig, 1992;Dahan et al, 1996;Surrey et al, 1996).…”

Section: Discussionsupporting

confidence: 80%

“…Similar observations on the functional reconstitution of membrane channels from denatured proteins have been made during reconstitution studies using heterologously expressed Haemophilus influenzae porin (Dahan et al ., 1996), E.coli OmpA and OmpF (Surrey and Jähnig, 1992; Surrey et al ., 1996), porin from Rhodopseudomonas blastica (Schmidt et al ., 1996) or the SecY, SecE protein translocase (Brundage et al ., 1990; Akimaru et al ., 1991; Driessen, 1992). Unidirectional orientation and membrane insertion has also been observed previously (Surrey and Jähnig, 1992; Dahan et al ., 1996; Surrey et al ., 1996). It is worth noting that we applied a reconstitution protocol similar to that of Surrey and Jähnig (1992), specifically without using detergents for the protein solubilization.…”

Section: Discussionsupporting

confidence: 73%

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Reconstitution of a chloroplast protein import channel

et al. 1997

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The chloroplastic outer envelope protein OEP75 with a molecular weight of 75 kDa probably forms the central pore of the protein import machinery of the outer chloroplastic membrane. Patch-clamp analysis shows that heterologously expressed, purified and reconstituted OEP75 constitutes a voltage-gated ion channel with a unit conductance of Λ ϭ 145pS. Activation of the OEP75 channel in vitro is completely dependent on the magnitude and direction of the voltage gradient. Therefore, movements of protein charges of parts of OEP75 in the membrane electric field are required either for pore formation or its opening. In the presence of precursor protein from only one side of the bilayer, strong flickering and partial closing of the channel was observed, indicating a specific interaction of the precursor with OEP75. The comparatively low ionic conductance of OEP75 is compatible with a rather narrow aqueous pore (d pore ≅ 8-9 Å). Provided that protein and ion translocation occur through the same pore, this implies that the environment of the polypeptide during the transit is mainly hydrophilic and that protein translocation requires almost complete unfolding of the precursor.

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Section: Discussionsupporting

confidence: 80%

Section: Discussionsupporting

confidence: 73%

Reconstitution of a chloroplast protein import channel

et al. 1997

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“…However, a few studies have reported expression of porins lacking signal peptide sequences as aggregated inclusion bodies. Examples are the expression of Hib (Haemophilus influenzae type b) in Bacillus subtilis using pKTH288 [36], Neisseria species class 3 porin in E. coli BL21(DE3) ompA using pET17b [26], Rhodopseudomonas blastica porin in E. coli BL21(DE3)pLysS using pET3a [37], Burkholderia cepacia OpcP in E. coli JM109 using pTrc99A [38], Orientia tsutsugamushi r56 in E. coli BL21 using pET11a [39] and Mycobacterium smegmatis MspA in E. coli BL21(DE3) using pET24(+) [40]. In the present study, BpsOmp38 and BthOmp38 lacking signal peptide sequences were expressed successfully as insoluble inclusion bodies in E. coli Origami(DE3) using the pET23d(+) vector system.…”

Section: Discussionmentioning

confidence: 99%

Expression and refolding of Omp38 from Burkholderia pseudomallei and Burkholderia thailandensis, and its function as a diffusion porin

Siritapetawee

Prinz

Krittanai

et al. 2004

Biochemical Journal

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In the present paper, we describe cloning and expression of two outer membrane proteins, BpsOmp38 (from Burkholderia pseudomallei) and BthOmp38 (from Burkholderia thailandensis) lacking signal peptide sequences, using the pET23d(+) expression vector and Escherichia coli host strain Origami(DE3). The 38 kDa proteins, expressed as insoluble inclusion bodies, were purified, solubilized in 8 M urea, and then subjected to refolding experiments. As seen on SDS/PAGE, the 38 kDa band completely migrated to approximately 110 kDa when the purified monomeric proteins were refolded in a buffer system containing 10% (w/v) Zwittergent 3-14, together with a subsequent heating to 95 degrees C for 5 min. CD spectroscopy revealed that the 110 kDa proteins contained a predominant beta-sheet structure, which corresponded completely to the structure of the Omp38 proteins isolated from B. pseudomallei and B. thailandensis. Immunoblot analysis using anti-BpsOmp38 polyclonal antibodies and peptide mass analysis by MALDI-TOF (matrix-assisted laser-desorption ionization-time-of-flight) MS confirmed that the expressed proteins were BpsOmp38 and BthOmp38. The anti-BpsOmp38 antibodies considerably exhibited the inhibitory effects on the permeation of small sugars through the Omp38-reconstituted liposomes. A linear relation between relative permeability rates and M(r) of neutral sugars and charged antibiotics suggested strongly that the in vitro re-assembled Omp38 functioned fully as a diffusion porin.

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“…CD spectra were recorded at room temperature on a Jasco J-600 spectropolarimeter. Samples containing 0.4 mg´mL 21 OmpT in buffer B were analyzed using quartz cells with a path length of 0.2 mm.…”

Section: Methodsmentioning

confidence: 99%

In vitro folding, purification and characterization of Escherichia coli outer membrane protease OmpT

Krämer

Zandwijken

Egmond

et al. 2000

European Journal of Biochemistry

106

189

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OmpT is a protease present in the outer membrane of Escherichia coli. The enzyme was overexpressed without its signal sequence in E. coli using a T7 system, resulting in the accumulation of OmpT as inclusion bodies. After solubilization of the inclusion bodies in urea, the protein could be folded in vitro by dilution in the presence of detergent n-dodecyl-N,N-dimethyl-1-ammonio-3-propanesulphonate. The addition of lipopolysaccharide to the protein was essential to obtain active enzyme. The correctly folded protein was purified to homogeneity by ion exchange chromatography with a 57% overall yield. Autoproteolysis between Lys217±Arg218 was a major problem during purification, but degradation could be abolished by introducing the mutations G216K and K217G. A novel fluorimetric assay using the internally quenched substrate Abz-Ala-Arg-Arg-Ala-Tyr(NO 2 )-NH 2 (where Abz is o-aminobenzoyl and Tyr(NO 2 ) is 3-nitrotyrosine) enabled the determination of the kinetic parameters. The wild-type enzyme has an affinity K m of 0.4 mm for the substrate and a turnover number k cat of 40 s 21. The K m and k cat for the double variant were 1.1 mm and 1.6 s 21 , respectively. The pH profiles of the wild type and variant were identical, showing optimal activity at pH 6.5 and pK a values of 5.6 and 7.5, respectively. Circular dichroism spectra of both enzymes indicated a high content of b-strand conformation, and on that basis a b-barrel topology model is proposed.

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Purification and refolding of recombinant Haemophilus influenzae type b porin produced in Bacillus subtilis

Cited by 14 publications

References 26 publications

Reconstitution of a chloroplast protein import channel

Reconstitution of a chloroplast protein import channel

Expression and refolding of Omp38 from Burkholderia pseudomallei and Burkholderia thailandensis, and its function as a diffusion porin

In vitro folding, purification and characterization of Escherichia coli outer membrane protease OmpT

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