Production of thermophilic α-amylase using immobilized transformed Escherichia coli by addition of glycine

Efficient production of thermophilic α-amylase from Bacillus stearothermophilus was investigated using recombinant Escherichia coli HB101/pH1301 immobilized with κ-carrageenan by the addition of glycine. The effects of glycine, the concentrations of κ-carrageenan and KCI on the production of the enzyme as well as the stability of plasmid pHI301 were studied. In the absence of glycine, the enzyme was localized in the periplasmic space of the recombinant E. coli cells and a small amount of the enzyme was liberated in the culture broth. Although the addition of glycine was very effective for release of α-amylase from the periplasm of E. coli entrapped in gel beads, a majority of the enzyme accumulated in the gel matrix. (In this paper, production of the enzyme from recombinant cells to an ambient is expressed by the term “release”, while diffusion-out from gel beads is referred to by the term “liberate”.) Concentrations of KCI and immobilizing support significantly affected on the liberation of α-amylase to the culture broth. Mutants which produced smaller amounts of the enzyme emerged during a successive culture of recombinant E. coli, even under selective pressure, and they predominated in the later period of the passages. The population of plasmid-lost segregants increased with cultivation time. The stability of pHI301 for the free cells was increased by the addition of 2% KCI, which is a hardening agent for carrageenan. Although the viability of cells and α-amylase activity in the beads decreased with cultivation time during the successive culture of the immobilized recombinant E. coli, the plasmid stability was increased successfully by immobilization. Efficient long-term production of α-amylase was attained by an iterative re-activation-liberation procedure using the immobilized recombinant cells. Although the viable cell number, plasmid stability and enzyme activity liberated in the glycine solution decreased at an early period in the cultivation cycles, the process attained steady state regardless of the addition of an antibiotic.     

Secretion of β-lactamase from K. lactis using pEPS1, a convenient episomal vector designed for the secretion of foreign proteins

Summary A convenient shuttle vector that enables high level secretion of proteins from Kluyveromyces lactis has been developed. The vector, pEPS1, contains a unique cloning site that allows the construction, in a single ligation step, of episomal plasmids capable of directing secretion of foreign gene products from K. lactis. As an example we demonstrate the production of -lactamase and determine optimal conditions for its secretion into the culture media.     

The isolation and properties of β-galactosidase from Escherichia coli grown on sodium selenate

β-Galactosidase (EC 3.21.23) was isolated from Escherichia coli grown on 0.01 M selenate and compared with the enzyme from cells grown on sulfate. Neutron activation analyses indicated that only the β-galactosidase from selenate cells contained selenium. Amino acid analyses showed that about 80 of the 150 methionine residues had been substituted by selenomethionine while none of the cystine residues were replaced. The catalytic parameters, K_m and v_max, were not changed; however, the stability of the selenium β-galactosidase to heat and urea was decreased. It was noted that the urea-denatured enzyme containing selenium, renatured more rapidly and to a greater extent than did the enzyme with the normal sulfur content. A protein sedimenting with a sedimentation coefficient of 4 S was present during most of the isolation steps of both sulfur and selenium enzymes. The relative amount present in the selenium preparation was, however, much greater. Amino acid analysis suggested that this 4-S protein may be a subunit of the active β-galactosidase. A greater number of the methionines of the selenium 4-S protein were replaced by selenomethionine than in the active enzyme. The cystine contents were, however, nearly the same in both preparations.     

Secretion of β-lactamase by Escherichia coli in vivo and in vitro: effect of cerulenin

The effect of cerulenin on the production of -lactamase and other periplasmic proteins was studied in Escherichia coli IA199 carrying plasmid pBR322. Cerulenin (10 to 25 g/ml) had almost no effect on the growth rate of E. coli but it decreased the amount of -lactamase and other periplamic proteins in shock fluid. Higher amounts of the antibiotic (40 to 100 g/ml)decreased turbidity and almost completely prevented synthesis of -lactamase and other periplasmic proteins. Cerulenin decreased incorporation of l-[³⁵S]methionine into membranes during growth as well. Spheroplasts secreted -lactamase into the external medium, but during a 3-h incubation in the presence of cerulenin (25 g/ml) this secretion was prevented by more than 90%. -Lactamase was secreted into the isolated membrane vesicles from E. coli IA199. However, only 5% of the total amount of pre--lactamase was secreted and processed by the membranes in vitro. Cerulenin did not prevent processing in vitro but the membranes prepared from the cells grown in the presence of cerulenin (25 g/ml) did not catalyze processing of pre--lactamase at all. Membrane preparations from Bacillus subtilis did not process pre--lactamase either in the absence or in the presence of cerulenin.     

Restoration of β-galactosidase to Escherichia coli M15. Complementation studies

Carboxymethylated beta-galactosidase from Escherichia coli was dissociated at 100 degrees C to form carboxymethylated fragments A and B. The mol.wts. of carboxymethylated fragments A and B were determined by gel filtration to be 64300 and 22400 respectively. Sodium dodecyl sulphate/polyacrylamide-gel electrophoresis of carboxymethylated fragments A and B that had been pretreated with 2-mercaptoethanol and sodium dodecyl sulphate yielded mol.wts. of 64000 and 22100 respectively. Carboxymethylated fragments A and B had arginine as their C-terminal amino acid. When a crude extract of E. coli M15 was filtered through a column of Sepharose 6B, it was found that carboxymethylated fragment B could restore beta-galactosidase activity when added to fractions having mol.wts. estimated to be 123000, 262000 and 506000. These fractions are referred to as ;complementable fractions'. Similarly, it was found that carboxymethylated fragment A could restore enzyme activity to tractions having mol.wts. estimated to be 63000, 253000 and 506000. Estimates of the molecular weights of the beta-galactosidase activity obtained by restoration with carboxymethylated fragments A and B were made by filtering the active enzyme through another column of Sepharose 6B. The enzyme obtained by complementation with carboxymethylated fragment B, i.e. the complemented enzyme, had mol.wt. 525000, and that obtained with carboxymethylated fragment A had mol.wts. of 525000, 646000 and 2000000. The latter finding suggests that multiple forms of complemented beta-galactosidase can exist.     

High-level expression of extracellular secretion of a β-xylosidase gene from Paecilomyces thermophila in Escherichia coli

A novel β-xylosidase gene (designated as PtXyl43) from thermophilic fungus Paecilomycesthermophila was cloned and extracellularly expressed in Escherichia coli. PtXyl43 belonging to glycoside hydrolase (GH) family 43 has an open reading frame of 1017 bp, encoding 338 amino acids without a predicted signal peptide. No introns were found by comparison of the PtXyl43 genomic DNA and cDNA sequences. The recombinant β-xylosidase (PtXyl43) was secreted into the culture medium in E. coli with a yield of 98.0 U mL(-1) in shake-flask cultures. PtXyl43 was purified 1.2-fold to homogeneity with a recovery yield of 61.5% from the cell-free culture supernatant. It appeared as a single protein band on SDS-PAGE with a molecular mass of approx 52.3 kDa. The enzyme exhibited an optimal activity at 55 °C and pH 7.0, respectively. This is the first report on the cloning and expression of a GH family 43 β-xylosidase gene from thermophilic fungi.     

Secretion of active β-lactamase to the medium mediated by the Escherichia coli haemolysin transport pathway

An in frame gene fusion containing the coding region for mature β-lactamase and the 3′-end of hylA encoding the haemolysin secretion signal, was constructed under the control of a lac promoter. The resulting 53 kDa hybrid protein was specifically secreted to the external medium in the presence of the haemolysin translocator proteins, HlyB and HlyD. The specific activity of the β-lactamase portion of the secreted protein (measured by the hydrolysis of penicillin G), approximately 1 U/μg protein, was close to that of authentic, purified TEM-β-lactamase. This is an important example of a hybrid protein that is enzymatically active, and secreted via the haemolysin pathway. Previous studies have indicated that haemolysin is secreted directly into the medium, bypassing the periplasm, to which β-lactamase is normally targeted. This study indicated, therefore, that normal folding of an active β-lactamase, can occur, at least when fused to the HlyA C-terminus, without the necessity of entering the periplasm. Despite the secretion of approximately 5 μg/ml levels of the active β-lactamase fusion into the medium, there was maximally only a 50% detectable increase in the LD₅₀ for resistance to ampicillin at the individual cell level. This result suggests that, normally, resistance to ampicillin requires a high concentration of the enzyme close to killing targets, i.e. in the periplasm, in order to achieve significant levels of protection.     

Characterization of extended-spectrum β-lactamase genes found among Escherichia coli isolates from duck and environmental samples obtained on a duck farm

In this study, we focused on evaluating the occurrence of extended-spectrum β-lactamase (ESBL)-producing Escherichia coli in fecal samples of healthy ducks and environmental samples from a duck farm in South China. Duck cloacal swabs and pond water samples were cultivated on MacConkey agar plates supplemented with ceftiofur. Individual colonies were examined for ESBL production. Bacteria identified as E. coli were screened for the presence of ESBL and plasmid-borne AmpC genes. The genetic relatedness, plasmid replicon type, and genetic background were determined. Of 245 samples analyzed, 123 had E. coli isolates with ceftiofur MICs higher than 8 μg/ml (116 [50.4%] from 230 duck samples and 7 [46.7%] from 15 water samples). bla(CTX-M), bla(SHV-12), bla(CMY-2), and bla(DHA-1) were identified in 108, 5, 9, and 1 isolates, respectively. The most common bla(CTX-M) genes were bla(CTX-M-27) (n = 34), bla(CTX-M-55) (n = 27), bla(CTX-M-24e) (n = 22), and bla(CTX-M-105) (n = 20), followed by bla(CTX-M-14a), bla(CTX-M-14b), bla(CTX-M-24a), and bla(CTX-M-24b). Although most of the CTX-M producers had distinct pulsotypes, clonal transmission between duck and water isolates was observed. bla(CTX-M) genes were carried by transferable IncN, IncF, and untypeable plasmids. The novel CTX-M gene bla(CTX-M-105) was flanked by two hypothetical protein sequences, partial ISEcp1 upstream and truncated IS903D, iroN, orf1, and a Tn1721-like element downstream. It is suggested that the horizontal transfer of bla(CTX-M) genes mediated by mobile elements and the clonal spread of CTX-M-producing E. coli isolates contributed to the dissemination of bla(CTX-M) in the duck farm. Our findings highlight the importance of ducks for the dissemination of transferable antibiotic resistance genes into the environment.     

Effect of uncoupling agents and azide on the synthesis of β-galactosidase in aerobically and anaerobically grown Escherichia coli

• 1.1. The induced synthesis of β-galactosidase in Escherichia coli ML-30 growing aerobically and anaerobically on maltose has been compared. The differential rate of synthesis was lower and the repression effect of glucose was stronger anaerobically than aerobically.
• 2.2. 2,4-Dinitrophenol and azide inhibited growth and reduced the differential rate of β-galactosidase synthesis in cells growing both aerobically and anaerobically, the inhibitory effect being higher anaerobically. Carbonylcyanide-p-trifluoromethoxy-phenylhydrazone inhibited aerobic as well as anaerobic growth but enhanced the differential rate of enzyme synthesis.
• 3.3. Inhibitory concentrations of 2,4-dinitrophenol stimulated the oxidation of maltose relative to the control, while inhibitory concentrations of FCCP depressed the oxidation.
• 4.4. Under non-growing conditions, 2,4-dinitrophenol inhibited the induced synthesis of β-galactosidase both in aerobically and anaerobically grown bacteria.
• 5.5. In experiments with a cryptic bacterial strain, 2,4-dinitrophenol and FCCP inhibited both phases of β-galactosidase synthesis, enzyme induction and enzyme production.
• 6.6. Possible implications of these results from the point of view of the coupling of catabolc and anabolic processes in the ell are discussed.

     

Effect of ultraviolet inactivation and photoreactivation on the induced synthesis of β-galactosidase by Escherichia coli

The inactivation of the synthesis of induced β-galactosidase by cells of Escherichia coli by ultraviolet irradiation is described. Synthesis of enzyme can be preferentially restored by photoreactivation. Examination of crude cell extracts by zone electrophoresis revealed the presence of a particle-bound enzyme that did not migrate in the electric field. The particle-bound enzyme is shown to exist only as long as inducer is present. The significance of these observations with respect to the possible mechanism of enzyme synthesis is discussed.     

X-ray evidence of a native state with increased compactness populated by tryptophan-less B. licheniformis β-lactamase

β‐lactamases confer antibiotic resistance, one of the most serious world‐wide health problems, and are an excellent theoretical and experimental model in the study of protein structure, dynamics and evolution. Bacillus licheniformis exo‐small penicillinase (ESP) is a Class‐A β‐lactamase with three tryptophan residues located in the protein core. Here, we report the 1.7‐Å resolution X‐ray structure, catalytic parameters, and thermodynamic stability of ESP^ΔW, an engineered mutant of ESP in which phenylalanine replaces the wild‐type tryptophan residues. The structure revealed no qualitative conformational changes compared with thirteen previously reported structures of B. licheniformis β‐lactamases (RMSD = 0.4–1.2 Å). However, a closer scrutiny showed that the mutations result in an overall more compact structure, with most atoms shifted toward the geometric center of the molecule. Thus, ESP^ΔW has a significantly smaller radius of gyration (R_g) than the other B. licheniformis β‐lactamases characterized so far. Indeed, ESP^ΔW has the smallest R_g among 126 Class‐A β‐lactamases in the Protein Data Bank (PDB). Other measures of compactness, like the number of atoms in fixed volumes and the number and average of noncovalent distances, confirmed the effect. ESP^ΔW proves that the compactness of the native state can be enhanced by protein engineering and establishes a new lower limit to the compactness of the Class‐A β‐lactamase fold. As the condensation achieved by the native state is a paramount notion in protein folding, this result may contribute to a better understanding of how the sequence determines the conformational variability and thermodynamic stability of a given fold.     

The isolotion and biological properties of a β-glucanase from B. subtilis

A purified fraction has been isolated from a crude concentrate obtained from Bacillus subtilis fermentation which was highly active as a β-glucanase in vitro. In chicks on a Washington state barley basal diet, it also produced a significant growth response when fed at a level of 0.000001% of the diet. A comparison of chick growth and β-glucanase activities over a wide range of potencies shows a correlation which indicates that both the in vitro and in vivo activities are due to a single entity.The fraction prepared by extraction, dialysis, ammonium sulfate precipitation and DEAE-cellulose chromatography showed essentially a single peak when examined by free-boundary electrophoresis at pH 6.5. Although the physical-chemical data are insufficient for us to state that the enzyme has been obtained in homogeneous form, the purest sample represents a 2600-fold purification of the β-glucanase activity from the starting concentrate.     

Controlled secretion into the culture medium of a hybrid -glucanase by Acetobacter methanolicus mediated by the kil gene of Escherichia coli located on a Tn5 -derived transposon

A Tn5-based transposon bearing the kil gene (killing protein), mediating controlled export of periplasmic proteins into the culture medium, was constructed (Tn5-KIL3). This transposon contained the kil gene of the ColE1 plasmid under the growth-phase-dependent promoter of the fic gene (filamentation induced by cAMP) of Escherichia coli, an interposon located upstream of kil, a kanamycin/neomycin-resistance gene, a multiple cloning site and the mob site. The transposition of Tn5-KIL3 to Acetobacter methanolicus showed a moderate transposition frequency (10⁻⁵–10⁻⁶). By insertion of a Bacillus hybrid β-glucanase (bgl ) as a model protein into the transposon (Tn5-LF3) it was shown that the secretion function as well as the gene of the target protein had been transferred to and stably integrated into the chromosome of A. methanolicus, and that the transposition of Tn5-LF3 was non-specific. β-Glucanase was highly overexpressed and secreted into the medium during stationary phase. Total and extracellular production of β-glucanase varied depending on the integration site of the transposon. The viability of the bacterial cells was not affected, and cell lysis did not occur. Received: 17 October 1996 / Received revision: 23 December 1996 / Accepted: 4 January 1997     

Cell surface display of a β-glucosidase employing the type V secretion system on ethanologenic Escherichia coli for the fermentation of cellobiose to ethanol

We used the autodisplay system AIDA-I, which belongs to the type V secretion system (TVSS), to display the β-glucosidase BglC from Thermobifida fusca on the outer membrane of the ethanologenic Escherichia coli strain MS04 (MG1655 ?pflB, ?adhE, ?frdA, ?xylFGH, ?ldhA, PpflB::pdc (Zm)-adhB (Zm)). MS04 that was transformed with the plasmid pAIDABglCRHis showed cellobiase activity (171 U/g(CDW)) and fermented 40 g/l cellobiose in mineral medium in 60 h with an ethanol yield of 81 % of the theoretical maximum. Whole-cell protease treatment, SDS-PAGE, and Western-blot analysis demonstrated that BglC was attached to the external surface of the outer membrane of MS04. When attached to the cells, BglC showed 93.3 % relative activity in the presence of 40 g/l ethanol and retained 100 % of its activity following 2 days of incubation at 37 °C with the same ethanol concentration. This study shows the potential of the TVSS (AIDA-I) and BglC as tools for the production of lignocellulosic bio-commodities.     

CTX-M-15 extended-spectrum β-lactamase in a shiga toxin-producing Escherichia coli isolate of serotype O111:H8

We report the discovery of a CTX-M-15-producing Escherichia coli (STEC) of serogroup O111:H8, a major serotype responsible for human enterohemorrhagic Escherichia coli (EHEC) infections. In line with the recent CTX-M-15/O104:H4 E. coli outbreak, these data may reflect an accelerating spread of resistance to expanded-spectrum cephalosporins within the E. coli population, including STEC isolates.