Cloning and expression in Escherichia coli, Bacillus subtilis, and Streptococcus sanguis of a gene for staphylokinase--a bacterial plasminogen activator

Summary The gene coding for the bacterial plasminogen activator staphylokinase was cloned from the Staphylococcus aureus phage 42D, a serogroup F phage used for lysotyping, onto the standard Escherichia coli plasmid vector pACYC184. The coding and flanking sequences of the sak42D gene were largely identical to those of a sak gene cloned from the serologically different S. aureus phage SøC (Sako and Tsuchida 1983). Subcloning of a 2.5 kb phage 42D DNA fragment onto plasmid pGB3631 allowed the sak42D gene to be introduced into the gram-positive hosts Bacillus subtilis and Streptococcus sanguis. The sak42D gene was expressed and secreted most efficiently by B. subtilis cells (25 g/ml of culture supernatant) reduced in exoprotease production. In this host expression and secretion of Sak was initiated at the early growth phase and continued through the logarithmic phase. Formation of Sak was, however, also observed with the other cloning hosts. The Sak elaborated by the heterologous hosts was serologically identical with authentic Sak derived from S. aureus.     

Highly bioluminescent Bacillus subtilis obtained through high-level expression of a luxAB fusion gene.

Summary Bioluminescence levels comparable to those achievable in Escherichia coli have yet to be obtained from luxAB expression in gram-positive bacteria. In this communication we describe the gene engineering required to generate a highly bioluminescent derivative of Bacillus subtilis. The combination of a powerful promoter, P _xyn , a fusion derivative of luxAB from Vibrio harveyi and translational coupling have overcome the previously reported limitations in luxAB expression. The implications for highly bioluminescent gram-positive organisms are discussed.     

Cloning, Overexpression and Purification of Bacillus subtilis Elongation Factor Tu in Escherichia coli

To establish the overexpression and one-step purification system of Bacillus subtilis elongation factor-Tu (EF-Tu), the EF-Tu gene was amplified with or without own ribosome binding site (rbs) by PCR and the only PCR product without rbs was subcloned successfully. For the expression of the EF-Tu gene cloned after PCR amplification, a constitutive expression system and inducible expression system with His₆ tag at N-terminus or C-terminus, or glutathione-S-transferase (GST) fusion system were examined in E. coli and B. subtilis. Except GST fusion system in E. coli, however, all other trials were unsuccessful at the step of plasmid construction for the EF-Tu expression. The GST/EF-Tu fusion proteins were highly expressed by IPTG induction and obtained as both soluble and insoluble form. From the soluble GST/EF-Tu fusion protein, EF-Tu was obtained to near homogeneity by one-step purification with glutathione-sepharose affinity column chromatography followed by factor Xa treatment. The purified EF-Tu showed high GDP binding activity. These results indicate that the GST/EF-Tu fusion system is favorable to overexpression and purification of B. subtilis EF-Tu.     

Over-expression of glucose dehydrogenase improves cell growth and riboflavin production in Bacillus subtilis

Ribulose 5-phosphate is a precursor for riboflavin biosynthesis. Alteration of carbon flow into the pentose phosphate pathway will affect the availability of ribulose 5-phosphate and the riboflavin yield. We have modulated carbon flow in Bacillus subtilis through the gluconate bypass by over-expression of glucose dehydrogenase under the control of the constitutively expressed P43 promoter. Over-expression of glucose dehydrogenase resulted in low acid production (acetate and pyruvate). The substantial reduction in acid production is accompanied by increased riboflavin production and an increased rate of growth while glucose consumption remained unchanged. Metabolic analysis indicated that over-expression of glucose dehydrogenase increased intracellular pool of ribulose 5-phosphate. The high concentrations of ribulose 5-phosphate could explain the increased riboflavin production.     

Efficient secretory expression of an alkaline pectate lyase gene from Bacillus subtilis in E. coli and the purification and characterization of the protein

The gene encoding pectate lyase (PL) from Bacillus subtilis WSHB04-02 was amplified by PCR, fused with a periplasmic secretion signal peptide sequence, pelB, from pET22b(+), cloned and expressed in Escherichia coli cells using a temperature control vector, pHsh. The recombinant E. coil was grown in a 5 l fermentor. PL was secreted in broth at 22 U l⁻¹ after 20 h when temperature was increased from 30°C to 42°C. The recombinant enzyme was purified to homogeneity as judged by SDS-PAGE. It was optimally active at pH 9.4 and 50°C over 30 min. Analysis of polygalacturonic acid (PGA) degradation products by electrospray ionization (ESI)-mass spectrometry (MS) indicated that PL produced a mixture of unsaturated oligo-galacturonides including unsaturated tri-galacturonic acid and unsaturated bi-galacturonic acid but not unsaturated mono-galacturonic acid.     

Novel extracellular ribonuclease from Bacillus intermedius--binase II: purification and some properties of the enzyme

The recombinant enzyme binase II was isolated from the culture liquid of Bacillus subtilis 3922 transformed with the pJF28 plasmid bearing the birB gene. The procedure of the enzyme purification included precipitation by polyethylene glycol with subsequent chromatography on DEAE-cellulose, heparin-Sepharose, and Toyopearl TSK-gel. The enzyme was purified 142-fold yielding a preparation with specific activity 1633 U/mg. The molecular weight of binase II is 30 kD. The enzyme is activated by Mg²⁺ and virtually completely inhibited by EDTA. The pH optimum for the reaction of RNA hydrolysis is 8.5. The properties of the enzyme are close to those of RNase Bsn from B. subtilis. The character of cleaving of synthetic single- and double-stranded polyribonucleotides by binase II suggests that the enzyme binds the substrate in the helix conformation, and its catalytic mechanism is close to that of RNase VI from cobra venom.     

Cloning and nucleotide sequencing of phenylalanine dehydrogenase gene of Bacillus sphaericus

The gene coding for phenylalanine dehydrogenase [PDH; L-phenylalanine: NAD+ oxidoreductase (deaminating); EC 1.4.1.-] from Bacillus sphaericus SCRC-79a was cloned onto plasmid pUC9, and the nucleotide sequence of the 2-kb DNA region of the insert was determined. A 1143-bp open reading frame consisting of 381 codons was identified as a pdh gene coding for PDH.     

Development and Application of a Novel Signal Peptide Probe Vector with PGA as Reporter in Bacillus subtilis WB700: Twenty-Four Tat Pathway Signal Peptides from Bacillus subtilis were Monitored

In this study, we have developed a novel, versatile signal peptide probe vector driven by promoter P43 in Bacillus subtilis WB700, using Penicillin G Acylase (PGA) as reporter. Twenty-four signal peptides considered belonging to twin-arginine translocation (Tat) pathway were cloned into the probe vector to direct the secretion expression of PGA, respectively. Through 6-nitro-3-phenylacetamidobenzoic acid (NIPAB) filter paper assay, four signal peptides (AmyX, AlbB, LipA, and YmzC) were chosen for further investigation. The extracellular production of PGA demonstrated that these recombinants mediated efficient secretion expression in B. subtilis WB700, in which the maximum activity reached 0.11, 0.21, 0.08, and 0.26 U/mL, respectively. Thus, we provided an efficient tool for easy detection of the signal peptides in B. subtilis, and demonstrated the efficiency of Tat pathway signal peptides via PGA secretion in B. subtilis WB700.     

Cloning and expression of the PHA synthase genes phaC1 and phaC1AB into Bacillus subtilis

Summary Polyhydroxyalkanoates (PHAs) are polyesters of hydroxyalkanoates synthesized by numerous bacteria as intracellular carbon and energy storage compounds and accumulated as granules in the cytoplasm of cells. In this work, we constructed two recombinant plasmids, pBE2C1 and pBE2C1AB. The two plasmids were inserted into Bacillus subtilis DB104 and generated Bacillus subtilis/pBE2C1 and Bacillus subtilis/pBE2C1AB. The two recombinant strains were subjected to fermentation and showed PHA accumulation, the first reported example of medium-chain-length-PHA production in Bacillus subtilis. GC analysis identified the compound produced by Bacillus subtilis/pBE2C1 was a hydroxydecanoate-co-hydroxydodecanoate (HD-co-HDD) polymer while that produced by Bacillus subtilis/pBE2C1AB was a hydroxybutyrate-co-hydroxydecanoate-co-hydroxydodecanoate (HB-HD-HDD) polymer. The results also showed that the recombinant B. subtilis could utilize the malt waste in the medium as a carbon source better than that of glucose and thus could substantially lower the cost of production of PHA.     

Expression of sfp gene and hydrocarbon degradation by Bacillus subtilis

Bacillus subtilis C9 produces a lipopeptide-type biosurfactant, surfactin, and rapidly degrades alkanes up to a chain length of C₁₉. The nucleotide sequence of the sfp gene cloned from B. subtilis C9 was determined and its deduced amino acid sequence showed 100% homology with the sfp gene reported before [Nakano et al. (1992) Mol. Gen. Genet. 232: 313–321]. To transform a non-surfactin producer, B. subtilis 168, to a surfactin producer, the sfp gene cloned from B. subtilis C9 was expressed in B. subtilis 168. The transformed B. subtilis SB103 derivative of the strain 168 was shown to produce surfactin measured by its decrease in surface tension, emulsification activity, and TLC analysis of the surface active compound isolated from the culture broth. Like B. subtilis C9, B. subtilis SB103 containing sfp gene readily degraded aliphatic hydrocarbons (C_10–19), though its original strain did not. The addition of surfactin (0.5%, w/v) to the culture of B. subtilis 168 significantly stimulated the biodegradation of hydrocarbons of the chain lengths of 10–19; over 98% of the hydrocarbons tested were degraded within 24 h of incubation. These results indicate that the lipopeptide-type biosurfactant, surfactin produced from B. subtilis enhances the bioavailability of hydrophobic hydrocarbons.     

Some physiological functions of the L-leucine dehydrogenase in Bacillus subtilis

Mutants of Bacillus subtilis constitutive for L-leucine dehydrogenase synthesis were selected. Using these mutants we could determine two functional roles for the L-leucine dehydrogenase. This enzyme liberates ammonium ions from branched chain amino acids when supplied as the sole nitrogen source. Another function is to synthesize from L-isoleucine, L-leucine, and L-valine the branched chain -keto acids which are precursors of branched chain fatty acid biosynthesis. These results together with the inducibility of the enzyme suggest that the L-leucine dehydrogenase has primarily a catabolic rather than an anabolic function in the metabolism of Bacillus subtilis.     

Cloning of the Thermostable Cellulase Gene from Newly Isolated Bacillus subtilis and its Expression in Escherichia coli

A bacterial strain with high cellulase activity (0.26 U/ml culture medium) was isolated from hot spring, and classified and named as B. subtilis DR by morphological and 16SrDNA gene sequence analysis. A thermostable endocellulase, CelDR, was purified from the isolated strain. The optimum temperature of the enzyme reaction was 50°C, and CelDR retained 70% of its maximum activity at 75°C after incubation for 30 min. The putative gene celDR, consisting an open reading frame (ORF) of 1,524 nucleotides and encoding a protein of 508 amino acids with a molecular weight of 55 kDa, was purified from B. subtilis DR and cloned into pET-28a for expression. The cellulase production in E. coli BL21 (DE3) was enhanced to approximately three times that of the wild-type strain.     

Construction and characterization of a novel maltose inducible expression vector in Bacillus subtilis

A maltose-inducible expression vector in Bacillus subtilis has been developed and characterized. The vector permitted β-galactosidase expression at a high level (maximum activity, 8.16 U/ml) when induced and its expression was markedly repressed by glucose. Using this vector, we successfully expressed the other two genes, bioA and vgb. This thus provided a potential expression system for cloned genes in B. subtilis.     

番木瓜果糖-2,6-二磷酸酶CpF2KP基因克隆和蛋白表达纯化

番木瓜是岭南四大名果之一,在我国东南部地区广泛种植,因其具有食用和药用双重价值,因此深受人们的青睐。果糖-6-磷酸,2-激酶/果糖-2,6-二磷酸酯酶(fructose-6-phosphate,2-kinase/fructose-2,6-bisphosphatase,F2KP)是一个独特的双功能酶,具有激酶功能域和酯酶功能域,能催化生物体内糖代谢的重要调节物果糖-2,6-二磷酸(Fru-2,6-P_(2))的合成和降解。为了研究番木瓜中编码该酶的基因CpF2KP的功能,得到目的蛋白尤为重要。本研究从番木瓜基因组中提取到CpF2KP基因的编码序列(coding sequence,CDS)序列,该基因CDS全长2274 bp。将该基因CDS全长扩增之后选用pGEX-4T-1载体进行原核表达。对载体pGEX-4T-1用EcoRⅠ和BamHⅠ进行双酶切,利用基因重组的方式将扩增序列构建到原核表达载体上。经过诱导条件探索,SDS-PAGE结果显示GST-CpF2KP重组蛋白的大小约为110 kDa,诱导CpF2KP蛋白表达的最适条件为:异丙基β-D-硫代半乳糖苷(isopropyl beta-D-thiogalactopyranoside,IPTG)浓度为0.5 mmol/L,温度28℃。对诱导后的CpF2KP蛋白进行纯化,得到了纯化的单一目的蛋白。此外,检测了该基因的组织表达特性发现该基因在种子中表达量最高,在果肉中表达量最低。该研究为进一步深入揭示番木瓜CpF2KP蛋白的功能及研究该基因参与的生物学过程提供了重要基础。     

The mmgA gene from Bacillus subtilis encodes a degradative acetoacetyl-CoA thiolase

Early in sporulation, the mother cell compartment of Bacillus subtilis transcribes the mother cell metabolic gene (mmg) operon. The gene mmgA was assigned by other workers using sequence homology as an acetyl-CoA acetyltransferase [E.C. 2.3.1.9]. The gene was overexpressed in Escherichia coli, and the protein was purified by Ni²⁺-affinity chromatography. However, the expected MmgA-catalyzed biosynthesis of acetoacetyl-CoA from acetyl-CoA was undetectable by a standard UV assay, HPLC, and mass spectrometry. These methods indicated a preference for the reverse degradative thiolytic reaction, with a k _cat of 80 s⁻¹, and a K _m of 70 and 50 μM for CoA and acetoacetyl-CoA, respectively.