cDNA cloning,functional expression and antifungal activities of a dimeric plant defensin SPE10 from <Emphasis Type="Italic">Pachyrrhizus erosus</Emphasis> seeds

SPE10 is an antifungal protein isolated from the seeds of Pachyrrhizus erosus. cDNA encoding a 47 amino acid peptide was cloned by RT-PCR and the gene sequence proved SPE10 to be a new member of plant defensin family. The synthetic cDNA with codons preferred in yeast was cloned into the pPIC9 plasmid directly in-frame with the secretion signal -mating factor, and highly expressed in methylotrophic Pichia pastoris. Activity assays showed the recombinant SPE10 inhibited specifically the growth of several pathogenic fungi as native SPE10. Circular dichroism and fluorescence spectroscopy analysis indicated that the native and recombinant protein should have same folding, though there are eight cystein residues in the sequence. Several evidence suggested SPE10 should be the first dimeric plant defensin reported so far.Nucleotide sequence data reported in this paper are available in the DDBJ/EMBL/GenBank database under accession number AY679170     

Enhancement of γ-aminobutyric acid production in Chungkukjang by applying a Bacillus subtilis strain expressing glutamate decarboxylase from Lactobacillus brevis

For a foreign glutamate decarboxylase (GAD) to be expressed in Bacillus host system, a recombinant DNA (pLip/LbGAD) was constructed by ligating an LbGAD gene from Lactobacillus brevis OPK-3 into Escherichia coli–Bacillus shuttle vector, pLip. The pLip/LbGAD construct was then transformed into Bacillus subtilis. The culture of the transformed Bacillus strain with the pLip/LbGAD construct had higher GAD activity and γ-aminobutyric acid (GABA) concentration than those of untransformed Bacillus counterpart. In addition, Chungkukjang, a traditional Korean fermented soybean product prepared by the transformed Bacillus subtilis, contained a significantly higher level of GABA than conventional ones. Thus, by introducing a foreign GAD gene, Bacillus strains have been genetically engineered to produce high levels of GAD and GABA.     

High-level expression, purification and characterization of recombinant Aspergillus oryzae alkaline protease in Pichia pastoris

The alkaline protease gene from Aspergillus oryzae was cloned, and then it was successfully expressed in the heterologous Pichia pastoris GS115 with native signal peptide or α-factor secretion signal peptide. The yield of the recombinant alkaline protease with native signal peptide was about 1.5-fold higher than that with α-factor secretion signal peptide, and the maximum yield of the recombinant alkaline protease was 513 mg/L, which was higher than other researches. The recombinant alkaline protease was purified by ammonium sulfate precipitation, ion exchange chromatography and gel filtration chromatography. The purified recombinant alkaline protease showed on SDS–PAGE as a single band with an apparent molecular weight of 34 kDa. The recombinant alkaline protease was identical to native alkaline protease from A. oryzae with regard to molecular weight, optimum temperature for activity, optimum pH for activity, stability to pH, and similar sensitivity to various metal ions and protease inhibitors. The native enzyme retained 61.18% of its original activity after being incubated at 50 °C for 10 min, however, the recombinant enzyme retained 56.22% of its original activity with same disposal. The work demonstrates that alkaline protease gene from A. oryzae can be expressed largely in P. pastoris without affecting its enzyme properties and the recombinant alkaline protease could be widely used in various industrial applications.     

Enhanced production of penicillin G acylase from a recombinant Escherichia coli

Penicillin G acylase (pac) gene was cloned into a stable asd ⁺ vector (pYA292) and expressed in Escherichia coli. This recombinant strain produced 1000 units penicillin G acylase g^–1 cell dry wt, which is 23-fold more than that produced by parental Escherichia coli ATCC11105. This enzyme was purified to 16 units mg^–1 protein by a novel two-step process.     

Isolation and characterization of polyphenol oxidase- and peroxidase-producing <Emphasis Type="Italic">Bacillus</Emphasis> strains from fully fermented tea (<Emphasis Type="Italic">Camellia sinensis</Emphasis>)

Sixteen aerobic endospore-forming Bacillus spp. were isolated from fully fermented tea leaf samples from 10 tea factories in Lahijan and Langrod cities (Gillan province, Iran). Bacillus spp. isolates were characterized using phenotypic characteristics, antibiotic susceptibility and cellular fatty acid (CFA) patterns. Based on the data obtained, five isolates of tea Bacillus spp. (TB): TB2, TB4, TB6, TB10 and TB12 belonged to the species B. subtilis. Two isolates, TB1 and TB14 were recognized as B. licheniformis. Two Bacillus spp. isolates, TB9 and TB 16 were identified as B. sphaericus. Two isolates, TB5 and TB13 were shown to be B. pumilus. Two isolates, TB7 and TB15 belonged to B. cereus. Amongst the isolates, Bacillus sp. TB3, Bacillus sp. TB8 and Bacillus sp. TB11 showed different phenotypic traits, distinct antibiotic sensitivity and fatty acid profiles, and they may represent novel species. The isolates showed polyphenol oxidase (tyrosinase) and peroxidase activities. The highest polyphenol oxidase and peroxidase activities were observed for Bacillus sp. TB3 and B. licheniformis TB14, respectively, where values of 5.48 and 3.73 units mL⁻¹ were observed.     

Alkaliphilic <Emphasis Type="Italic">Bacillus</Emphasis> sp. strain KSM-LD1 contains a record number of subtilisin-like serine proteases genes

The presence of 11 genes encoding subtilisin-like serine proteases was demonstrated by cloning from the genome of alkaliphilic Bacillus sp. strain KSM-LD1. This strain exoproduces the oxidatively stable alkaline protease LD-1 (Saeki et al. Curr Microbiol, 47:337–340, 2003). Among the 11 genes, six genes encoding alkaline proteases (SA, SB, SC, SD, SE, and LD-1) were expressed in Bacillus hosts. However, the other five genes for subtilisin-like proteases (SF, SG, SH, SI, and SJ) were expressed in neither Bacillus hosts nor Escherichia coli. The deduced amino acid sequences of SA, SB, SC, SF, SG, SH, SI, and SJ showed similarity to those of other subtilisin-like proteases from Bacillus strains with only 38 to 86% identity. The deduced amino acid sequence of SD was completely identical to that of an oxidatively stable alkaline protease from Bacillus sp. strain SD521, and that of SE was almost identical to that of a high-molecular mass subtilisin from Bacillus sp. strain D-6 with 99.7% identity. There are four to nine subtilisin-like serine protease genes in the reported genomes of Bacillus strains. At least 11 genes for the enzymes present in the genome of Bacillus sp. strain KSM-LD1, and this is the greatest number identified to date.     

Expression of the cloned xylanases from an alkalophilic,thermophilic Bacillus in Bacillus subtilis

A recombinant plasmid construct, pLPX6.5, harbouring a 6.5 kb Hind III fragment of genomic DNA, from an alkalophilic, thermophilic Bacillus NCIM 59 and coding for xylanase activity, was electroporatically transformed into Bacillus subtilis MI 111. The expression of the recombinant xylanases was confirmed by cross-reactivity with antibodies raised against purified xylanase II (M _r 15,800) from NCIM 59. However, as there were different xylan hydrolysis products from NCIM 59 and the host B. subtilis, the two xylanases appear to have different modes of action. Xylanase expression in the transformants was 6-fold higher than in the host. There was no significant enhancement in the expression of recombinant xylanases by adding xylan to the growth medium.The authors are with the Division of Biochemical Sciences, National Chemical Laboratory, Pune-411008, India     

Characterization of malate dehydrogenase from the hyperthermophilic archaeon <Emphasis Type="Italic">Pyrobaculum islandicum</Emphasis>

Native and recombinant malate dehydrogenase (MDH) was characterized from the hyperthermophilic, facultatively autotrophic archaeon Pyrobaculum islandicum. The enzyme is a homotetramer with a subunit mass of 33 kDa. The activity kinetics of the native and recombinant proteins are the same. The apparent K _m values of the recombinant protein for oxaloacetate (OAA) and NADH (at 80°C and pH 8.0) were 15 and 86 μM, respectively, with specific activity as high as 470 U mg⁻¹. Activity decreased more than 90% when NADPH was used. The catalytic efficiency of OAA reduction by P. islandicum MDH using NADH was significantly higher than that reported for any other archaeal MDH. Unlike other archaeal MDHs, specific activity of the P. islandicum MDH back-reaction also decreased more than 90% when malate and NAD⁺ were used as substrates and was not detected with NADP⁺. A phylogenetic tree of 31 archaeal MDHs shows that they fall into 5 distinct groups separated largely along taxonomic lines suggesting minimal lateral mdh transfer between Archaea.     

High level expression of kringle 5 fragment of plasminogen in <Emphasis Type="Italic">Pichia</Emphasis><Emphasis Type="Italic">pastoris</Emphasis>

Angiogensis can be blocked by inhibitors such as endostatin and angiostatin. The kringle 5 fragment of plasminogen also has a potent inhibitory effect on endothelial cell proliferation and leads to the inhibition of angiogenesis. It has promise in anti-angiogenic therapy due to its small size and potent inhibitory effect. Preparation of kringle 5 has been achieved through the proteolysis of native plasminogen and recombinant DNA technology. Bacterially expressed recombinant kringle 5 is mainly insoluble and expressed at low level. The refolding yield is also low. To produce recombinant human kringle 5 in a large quantity, we have genetically modified a strain of Pichia pastoris. On methanol induction, this strain expressed and secreted biologically active, recombinant kringle 5. The expression level of the engineered strain in culture reached more than 300mgl^-1. Purification was easily achieved by precipitation, hydrophobic and DEAE ion exchange chromatography. The recovery of recombinant kringle 5 was about 50% after purification. Yeast-expressed kringle 5 has a higher activity in anti-endothelial proliferation than bacterially expressed kringle 5.Revisions requested 9 November 2004; Revisions received 2 December 2004     

Improvement of isoflavone aglycones production using β-glucosidase secretory produced in recombinant Aspergillus oryzae

β-Glucosidase (BGL1) from Aspergillus oryzae was efficiently produced in recombinant A. oryzae using sodM promoter-mediated expression system. The yield of BGL1 was 960 mg/l in liquid culture, which is 20-fold higher than the yield of BGL1 produced using the yeast Saccharomyces cerevisiae. Recombinant BGL1 converted isoflavone glycosides into isoflavone aglycones more efficiently than β-glucosidase from almond. In addition, BGL1 produced isoflavone aglycones even in the presence of the insoluble form of isoflavone glycosides.     

Cloning,characterization and expression of the chitinase gene of <Emphasis Type="Italic">Enterobacter</Emphasis> sp. NRG4

A chitinase producing bacterium Enterobacter sp. NRG4, previously isolated in our laboratory, has been reported to have a wide range of applications such as anti-fungal activity, generation of fungal protoplasts and production of chitobiose and N-acetyl D-glucosamine from swollen chitin. In this paper, the gene coding for Enterobacter chitinase has been cloned and expressed in Escherichia coli BL21(DE3). The structural portion of the chitinase gene comprised of 1686 bp. The deduced amino acid sequence of chitinase has high degree of homology (99.0%) with chitinase from Serratia marcescens. The recombinant chitinase was purified to near homogeneity using His-Tag affinity chromatography. The purified recombinant chitinase had a specific activity of 2041.6 U mg⁻¹. It exhibited similar properties pH and temperature optima of 5.5 and 45°C respectively as that of native chitinase. Using swollen chitin as a substrate, the K_m, k_cat and catalytic efficiency (k_cat/K_m) values of recombinant chitinase were found to be 1.27 mg ml⁻¹, 0.69 s⁻¹ and 0.54 s⁻¹M⁻¹ respectively. Like native chitinase, the recombinant chitinase produced medicinally important N-acetyl D-glucosamine and chitobiose from swollen chitin and also inhibited the growth of many fungi.     

A novel protease-resistant α-galactosidase with high hydrolytic activity from <Emphasis Type="Italic">Gibberella</Emphasis> sp. F75: gene cloning,expression, and enzymatic characterization

A novel α-galactosidase gene (aga-F75) from Gibberella sp. F75 was cloned and expressed in Escherichia coli. The gene codes for a protein of 744 amino acids with a 24-residue putative signal peptide and a calculated molecular mass of 82.94 kDa. The native structure of the recombinant Aga-F75 was estimated to be a trimer or tetramer. The deduced amino acid sequence showed highest identity (69%) with an α-galactosidase from Hypocrea jecorina (Trichoderma reesei), a member of the glycoside hydrolase family 36. Purified recombinant Aga-F75 was optimally active at 60°C and pH 4.0 and was stable at pH 3.0–12.0. The enzyme exhibited broad substrate specificity and substantial resistance to neutral and alkaline proteases. The enzyme K _m values using pNPG, melibiose, stachyose, and raffinose as substrates were 1.06, 1.75, 54.26, and 8.23 mM, respectively. Compared with the commercial α-galactosidase (Aga-A) from Aspergillus niger var. AETL and a protease-resistant α-galactosidase (Aga-F78) from Rhizopus sp. F78, Aga-F75 released 1.4- and 4.9-fold more galactose from soybean meal alone, respectively, and 292.5- and 8.6-fold more galactose from soybean meal in the presence of trypsin, respectively. The pH and thermal stability and hydrolytic activity of Aga-F75 make it potentially useful in the food and feed industries.     

芽胞杆菌中重组蛋白分泌表达的优化策略及研究进展

芽胞杆菌属具有良好的蛋白表达和分泌能力,在工业酶的生产中被广泛应用,是理想的工业宿主菌,但实现蛋白分泌表达的普遍高效性还存在许多瓶颈。本文综述了芽胞杆菌的蛋白分泌表达策略,从启动子、信号肽、分泌途径、宿主和培养条件这5个方面总结了提高芽胞杆菌中分泌表达重组蛋白的方法,对芽胞杆菌高效生产工业酶有一定的参考价值,最后展望了优化芽胞杆菌分泌表达的研究方向,各种新型生物技术的发展必将推进芽胞杆菌在分泌表达领域有更深入的应用。     

Recombinant Expression, Purification, and Characterization of Three Isoenzymes of Aspartate Aminotransferase fromArabidopsis thaliana

Five different genes encoding isoenzymes of aspartate aminotransferase (AAT) have been identified in the plantArabidopsis thaliana.cDNA sequences encoding three of these AAT isoenzymes,asp1(mitochondrial),asp2(cytosolic), andasp5(plastid), were manipulated into bacterial expression vectors and the recombinant proteins expressed were purified from liquid culture using conventional methods. Yields of the purified isoenzymes varied from 11.5 mg/g wet wt cells (AAT5) to 0.95 mg/g wet wt cells (AAT2), an improvement of more than 1000-fold over typical yields of native isoenzymes obtained from plant tissues of other species. Analysis of the recombinant proteins on denaturing PAGE gels indicated subunitM_rs of between 44 and 45 K. Kinetic parameters (K_mandk_cat) obtained for all four substrates (aspartate, α-ketoglutarate, glutamate, and oxaloacetate) were consistent with values obtained for native AAT isoenzymes from other plant species. Further characterization of the purified recombinant enzymes alongside native enzymes fromA. thalianaleaf tissue on AAT activity gels confirmed the identity ofasp1andasp2as the mitochondrial and cytosolic AAT genes but indicated thatasp5may encode an amyloplastic rather than the chloroplastic enzyme.     

Disruption of parasitism of the California red scale (Homoptera: Diaspididae) by three ant species (Hymenoptera: Formicidae)

The relative influence of the southern fire ant, Solenopsis xyloni McCook, Argentine ant, Linepithema humile (Mayr), and native gray ant, Formica aerata (Francoeur), on parasitism of California red scale, Aonidiella aurantii Maskell, was studied in the laboratory for two parasitoids, Comperiella bifasciata Howard and Aphytis melinus DeBach. All three ant species reduced percentage parasitism by C. bifasciata and both percentage parasitism and host mutilation by A. melinus. Southern fire ant was the least disruptive and native gray ant the most disruptive. Southern fire ant removed 12% of scale from the lemons, presumably to feed on them, while the other ant species did not exhibit significant removal of scale compared to the controls. Percentage parasitism of California red scale exhibited by C. bifasciata was more than 2-fold the level exhibited by A. melinus. Percentage mutilation of California red scale, including probing and host feeding, was nearly 5-fold higher for A. melinus than C. bifasciata. Because A. melinus required a longer total host examination + oviposition period in the absence of ants than C. bifasciata and because oviposition occurs as the last act in a sequence of behaviors, disruption by the ants had a more significant negative effect on oviposition by A. melinus.     

Molecular characterization of the recombinant iron-containing alcohol dehydrogenase from the hyperthermophilic Archaeon, Thermococcus strain ES1

The gene encoding a thermostable iron-containing alcohol dehydrogenase from Thermococcus Strain ES1 (ES1 ADH) was cloned, sequenced and expressed in Escherichia coli. The recombinant and native ES1 ADHs were purified using multistep column chromatography under anaerobic conditions. Both enzymes appeared to be homotetramers with a subunit size of 45 ± 1 kDa as revealed by SDS-PAGE, which was close to the calculated value (44.8 kDa). The recombinant ADH contained 1.0 ± 0.1 g-atom iron per subunit. Both enzymes were sensitive to oxygen with a half-life upon exposure to air of about 4 min. The recombinant enzyme exhibited a specific activity of 105 ± 2 U mg⁻¹, which was very similar to that of the native enzyme (110 ± 3 U mg⁻¹). The optimal pH-values for both enzymes for ethanol oxidation and acetaldehyde reduction were 10.4 and 7.0, respectively. Both enzymes also showed similar temperature-dependent activities, and catalyzed the oxidation of primary alcohols, but there was no activity towards methanol and secondary alcohols. Kinetic parameters of the enzymes showed lower K _m-values for acetaldehyde and NADPH and higher K _m-values for ethanol and NADP⁺. It is concluded that the gene encoding ES1 ADH was expressed successfully in E. coli. This is the first report of a fully active recombinant version of an iron-containing ADH from a hyperthermophile.     

High level expression of isocitrate lyase gene of n-alkane-utilizing yeast Candida tropicalis in Sacchromyces cerevisiae

The genomic DNA of peroxisomal isocitrate lyase (ICL) isolated from an n-alkane-assimilating yeast, Candida tropicalis, was truncated to utilize the original open reading frame under the control of the GAL7 promoter and was expressed in Saccharomyces cerevisiae. The recombinant ICL was synthesized as a functionally active enzyme with a specific activity similar to the enzyme purified from C. tropicalis, and was accounted for approximately 30% of the total extractable proteins in the yeast cells. This recombinant enzyme was easily purified to homogeneity. N-Terminal amino acid sequence, molecular masses of native form and subunit, amino acid composition, peptide maps, and kinetic parameters of the recombinant ICL were essentially the same as those of ICL purified from C. tropicalis. From these facts, S. cerevisiae was suggested to be an excellent microorganism to highly express the genes encoding peroxisomal proteins of C. tropicalis.Abbreviations ICL isocitrate lyase - SDS-PAGE sodium dodecylsulfate-polyacrylamide gel electrophoresis     

A modified protoplast-regeneration protocol facilitating the detection of cloned exoenzyme genes in Bacillus subtilis

Incorporation of starch or casein into protoplast-regeneration medium facilitated shotgun cloning of α-amylase and neutral protease genes from an unidentified Bacillus sp. in Bacillus subtilis by polyethylene glycol-induced protoplast transformation. This modification and the use of the plasmid vector pPL603b enabled us to simultaneously select for promoter-bearing recombinant plasmids that expressed amylase or protease activity. The inserts were found to be 4 and 4.6 kb, respectively. Although protease activity directed by the cloned gene was only 2- to 4-fold higher than for the donor strain, that of α-amylase was 28-fold higher.     

Efficient transformation of Bacillus thuringiensis and B. cereus via electroporation: Transformation of acrystalliferous strains with a cloned delta-endotoxin gene

Summary Electroporation was used as a method to transform intact cells of Bacillus thuringiensis and B. cereus. With our optimized method a range of plasmid vectors could be transformed into strains of B. thuringiensis at frequencies of up to 10⁷ transformants/g DNA. This high frequency allows cloning experiments to be bone directly in B. thuringiensis. A bifunctional vector capable of replicating in Escherichia coli and in Bacillus spp. was constructed. The kurhd1 protoxin gene was cloned into this shuttle vector to produce plasmid pXI93, then transformed into B. thuringiensis HDl cryB and B. cereus 569K. The cloned protoxin gene was expressed in sporulating cultures of both strain HD1 cryB (pXI93) and 569K (pXI93), producing crystal protein active in biotests against larvae of Heliothis virescens. This demonstrates the usefulness of the electroporation method for the introduction of cloned toxin genes, in either their native or modified form, into a variety of host strains.