Characterization of pbpA and pbp2 Encoding Penicillin-binding Proteins Located on the Downstream of Clavulanic Acid Gene Cluster in Streptomyces clavuligerus

Two genes, pbpA (orf18) and pbp2 (orf19) located on the downstream of clavulanic acid (CA) gene cluster of Streptomyces clavuligerus were cloned into pET-28a(+), and confirmed to encode a family of high molecular-weight penicillin-binding proteins (PBPs). Both genes were amplified from genomic DNA by PCR and expressed in E. coli BL21 (DE3). Hydropathy plots of the proteins revealed a single stretch of hydrophobic amino acids indicating them to be transmembrane proteins. Pbp2 had lower affinity to penicillin G compared to PbpA, and was essential to the cell growth in contrast to PbpA. Revisions requested 3 November 2005; Revisions received 13 December 2005     

Molecular diversity and catalytic activity of Thermus DNA polymerases

Thermus aquaticus DNA polymerase (Taq polymerase) made the polymerase chain reaction feasible and led to a paradigm shift in genomic analysis. Other Thermus polymerases were reported to have comparable performance in PCR and there was an analysis of their properties in the 1990s. We re-evaluated our earlier phylogeny of Thermus species on the basis of 16S rDNA sequences and concluded that the genus could be divided into eight clades. We examined 22 representative isolates and isolated their DNA polymerase I genes. The eight most diverse polymerase genes were selected to represent the eight clades and cloned into an expression vector coding for a His-tag. Six of the eight polymerases were expressed so that there was sufficient protein for purification. The proteins were purified to homogeneity and examination of the biochemical characteristics showed that although they were competent to perform PCR, none was as thermostable as commercially available Taq polymerase; all had similar error-frequencies to Taq polymerase and all showed the expected 5′–3′ exonuclease activity. We conclude that the initial selection of T. aquaticus for DNA polymerase purification was a far-reaching and fortuitous choice but simple mutagenesis procedures on other Thermus-derived polymerases should provide comparable thermostability for the PCR reaction.     

Stable RNA Interference in Spodoptera frugiperda Cells by a DNA Vector-based Method

Double-stranded RNA (dsRNA)-mediated interference (RNAi) is a powerful tool for silencing of gene expression in many organisms. To establish a DNA vector-based method for stable RNAi in Spodoptera frugiperda cells (Sf9), we created a stably transfected Sf9 cell line to express large dsRNA fragment targeting to silence the firefly luciferase gene (luc). The luc dsRNA specifically and stably suppressed the baculovirus-mediated luciferase expression. Thus, gene silencing in Sf9 cells was achieved using DNA vectors similar to the facile design described in this study. Received 21 September 2005; Revisions requested 5 October 2005; Revisions received 22 November 2005; Accepted 25 November 2005     

Micro- and nanoparticles of condensed DNA Formed in PCR with <Emphasis Type="Italic">Taq</Emphasis> polymerase and plasmid DNA as a template

Formation of micro- and nanoparticles of condensed DNA during PCR with microbial genomic DNA or plasmid DNA as templates was reported previously. Initially, the microparticles were formed using a thermostable KlenTaq polymerase, which is a deletion variant of Taq polymerase. The present work shows that Taq polymerase is also capable of efficient formation of micro- and nanoparticles of condensed DNA in PCR. Electron microscopy revealed a number of morphological types (more than four) of microparticles produced in PCR with different reaction buffers in the presence of Taq polymerase and different plasmid DNAs as a template. In the case of some kinds of amplicons, an increase in the number of thermal cycles was shown to result in production of numerous nanowires and electron-dense spherical nanoparticles. The PCR conditions for preferential formation of discs (or ellipsoids) a few micrometers in diameter and several dozens of nanometers in thickness were determined. The structure of microparticles formed in the presence of Taq polymerase was found to depend on the level of synthesis of single-stranded DNA fragments in PCR. Experiments with nuclease S1 revealed that, along with double-stranded DNAs of the amplicon, micro- and nano-particles contained single-stranded DNA fragments, which were absolutely necessary for their formation. In light of these data, the molecular mechanism of micro- and nanoparticle formation in the course of PCR is discussed.     

Molecular Characterization of a Bacterial Consortium Enriched from an Oilfield that Degrades Phenanthrene

Characterization of functional and phylogenetic genes was carried out on a bacterial consortium, enriched from a water treatment system of an oilfield, that could use phenanthrene as the sole carbon source. The mixed culture degraded 130 mg phenanthrene l⁻¹ in 16 days, which is significantly faster than previously reported pure cultures. The existence of catabolic genes (nahAc, C23O) in the mixed culture was quantitated by most probable number PCR. The plasmid encoding phenanthrene catabolic genes increased relative to the chromosome genes. Heterogeneous bacteria were present according to both PCR denaturing gradient gel electrophoresis and cloning methods, suggesting the possible existence of cooperation between different biochemical PAH-transforming pathways. Revisions requested 15 December 2005; Revisions received 23 January 2006     

Colloid Lithography-Induced Polydimethylsiloxane Microstructures and their Application to Cell Patterning

Colloidal lithography was used to make a novel array (2-D) of micro-rings, dots, and interconnected-honeycomb structures. These geometries are controlled using the curing temperature-dependent rheological properties of the siloxane elastomer precursor. Serratia marcescens was patterned on the interconnected honeycomb microstructure demonstrating a potential application for microbioanalytical devices, microfluidics, and bio-micro-electromechanical systems. Received 26 August 2005; Revisions requested 23 September 2005; Revisions received 10 November 2005; Accepted 11 November 2005     

Characterization of a Bifunctional Cytidine 5′-Monophosphate N-acetylneuraminic acid Synthetase Cloned from Streptococcus Agalactiae

Recombinant CMP-sialic acid synthetase, cloned from Streptococcus agalactiae serotype V strain 2603 V/R, is bifunctional having both CMP-sialic acid synthetase and acetylhydrolase (acylesterase) activities. The enzyme is active over a wide pH range with an optimal CMP-sialic acid synthetase activity at pH 9.0 and an optimal acetylhydrolase activity at pH 8.0. A metal cofactor (either Mg²⁺ or Mn²⁺) is required for the CMP-sialic acid synthetase activity but is not for acetylhydrolase activity. Both catalytic functions, however, are impaired by high concentrations of Mn²⁺. Received 10 August 2005; Revisions requested 30 August 2005; Revisions received 1 November 2005; Accepted 2 November 2005     

A Simple and Efficient Method for High Fidelity PCR Cloning Using Antibody-neutralizing Technology

We introduce the TA cloning antibody method for the high-fidelity PCR product amplified by family B DNA polymerase without purification. This method uses antibodies and Thermus aquaticus (Taq) DNA polymerase. The antibodies can inhibit only the activity of family B DNA polymerase, and Taq can co-work for A-tailing. This method has nearly cloning efficiency to that of the PCR product of Taq.     

New morphotypes of condensed DNA microparticles formed in PCR with <Emphasis Type="Italic">KlenTaq</Emphasis> and <Emphasis Type="Italic">Taq</Emphasis> polymerases and plasmid DNA as a template

The specimens of DNA microparticles formed during PCR amplification of IS-elements ISAfe1 and IST2 by KlenTaq or Taq polymerases and plasmid DNA as a template under varying conditions were investigated by electron microscopy. Microparticle yield and morphology were found to depend on the level of synthesis of single-stranded DNA fragments during PCR. The conditions were studied for formation of discs (ellipsoids) several micrometers in diameter and several dozens of nanometers thick, as well as of microparticles of other morphologies, in the course of PCR with Taq polymerase. The structure of the microparticles produced during an asymmetric PCR, i.e., under conditions of low concentration of one of the two primers, was investigated. Morphology of the DNA micro- and nanoparticles was found to depend mainly on the DNA polymerase used in asymmetric PCR. In particular, in the presence of the KlenTaq polymerase, discs or ellipsoids a few dozen nanometers thick were formed, while in the presence of the Taq polymerase, micro- and nanospheres, heterogeneous in size with rugged surfaces, were produced. The effect of Mn²⁺ cations on DNA microparticle morphology was studied. In the presence of Mn²⁺, microparticle morphology changed dramatically; in PCR mixtures containing KlenTaq polymerase supplemented with Mn²⁺, DNA microspheres with fringed surfaces were formed; in the presence of Taq polymerase, microparticles in the form of short, rounded rods were produced. In light of these data, the molecular mechanism of micro- and nanoparticle formation in the course of PCR is discussed.     

A Simple and Green Procedure for the Microbial Effective Synthesis of 1-phenylethyl Alcohol in Both Enantiomeric Forms

Both R- and S-phenylethyl alcohol of high enantiomeric purity (98%) and with a satisfactory yield (40–80%) were obtained by bioreduction of acetophenone, catalyzed by whole cells of baker’s yeast. Revisions requested 29 November 2005; Revisions received 9 January 2006     

Cloning and Sequence Analysis of the Gene Encoding (6-4)photolyase from Dunaliella salina

DNA photolyase can repair UV-induced DNA damage in a light-dependent manner. A cDNA of (6-4)photolyase from Dunaliella salina (GenBank accession number: AY845324) was cloned, sequenced and its amino acid sequence was deduced. The derived amino acid sequence showed high homology with other (6-4)photolyases and a predicted 3D model was constructed by homology modeling. Revisions requested 20 May 2005 and 18 August 2005; Revisions received 2 August 2005 and 28 November 2005     

Isolation and Characterization of a Novel Thraustochytrid-like Microorganism that Efficiently Produces Docosahexaenoic Acid

A thraustochytrid-like microorganism (strain 12B) was isolated from the mangrove area of Okinawa, Japan. On the basis of its ectoplasmic net structure and biflagellate zoospores we determined strain 12B to be a novel member of the phylum Labyrinthulomycota in the kingdom Protoctista. When grown on glucose/seawater at 28 °C, it had a lipid content of 58% with docosahexaenoic acid (DHA; 22:6 n−3) at 43% of the total fatty acids. It had a growth rate of 0.38 h⁻¹. The DHA production rate of 2.8 ± 0.7 g l⁻¹ day⁻¹ is the highest value reported for any microorganism. Received 7 October 2005; Revisions requested 7 October 2005; Revisions received 15 November 2005; Accepted 15 November 2005     

Cloning,expression, and PCR application of DNA polymerase from the hyperthermophilic archaeon, <Emphasis Type="Italic">Thermococcus celer</Emphasis>

The family B DNA polymerase gene was amplified from Thermococcus celer genomic DNA by using the degenerate primers and DNA walking PCR. The Tce DNA polymerase gene was cloned and sequenced. The gene contains an ORF of 2,325 bp encoding 774 amino acid residues with a calculated molecular weight of 89,788.9 kDa. The Tce DNA polymerase was purified by heat treatment and heparin column chromatography. The optimal conditions for PCR were determined. Long-range PCR and time-saving PCR were performed using various specific ratios of Taq and Tce DNA polymerases (Tce plus DNA polymerase). Tce plus DNA polymerase surpassed the PCR performance of Tce, Taq and Pfu DNA polymerases in terms of yield and efficiency.     

Lactose-induced Production of Human Soluble B Lymphocyte Stimulator (hsBLyS) in E. coli with Different Culture Strategies

Over-production of human soluble B lymphocyte stimulator (hsBLyS) was carried out with four different fed-batch culture strategies using lactose as inducer, instead of IPTG, in a fed-batch culture of Escherichia coli. As lactose acted as both inducer and carbon source, the best and simplest culture strategy was direct feeding of lactose after batch culture, thereby giving hsBLyS at 3.7 g l⁻¹ and a productivity of 0.11 g l⁻¹ h⁻¹. Revisions requested 1 September 2005 and 11 November 2005; Revisions received 7 November 2005 and 4 January 2006     

Purification and Properties of a β-1,3-glucanase from Chaetomium sp. that is Involved in Mycoparasitism

A β-1,3-glucanase was detected, using laminarin as substrate, in the culture broth of Chaetomium sp. Major activity was associated with a 70 kDa protein band visualized on a polyacrylamide gel. β-1,3-Glucanase was purified by a one-step, native gel purification procedure. Optimal activity was observed at pH 6.0 and 30 °C (over 30 min). It could degrade cell walls of plant pathogens including Rhizoctonia solani, Gibberella zeae, Fusarium sp., Colletotrichum gloeosporioides and Phoma sp. The N-terminal amino acid residues of the purified β-1,3-glucanase are PYQLQTP, which do not exhibit homology to other fungal β-1,3-glucanases suggesting it may be a novel enzyme. Received 20 July 2005; Revisions requested 2 August 2005 and 27 September 2005; Revisions received 16 September 2005 and 3 November 2005; Accepted 6 November 2005     

Influence of Agitation on the Removal of Nonylphenol by the White-rot Fungi Trametes versicolor and Bjerkandera sp. BOL 13

Bjerkandera sp. BOL 13 removed 95% of nonylphenol (at 9.7 mg nonylphenol l⁻¹ day⁻¹) from aqueous medium after 5 days of incubation in agitated cultures. This removal rate decreased 2.5-fold in static cultures. By comparison, Trametes versicolor removed nonylphenol at 2.8 mg l⁻¹ day⁻¹ under conditions of static incubation, probably due to the action of laccase, but no growth was recorded in the agitated bottles. Received 4 August 2005; Revisions requested 18 August 2005 and 27 September 2005; Revisions received 22 September 2005 and 3 November 2005; Accepted 7 November 2005     

Characterization and application of aptamers for Taq DNA polymerase selected using an evolution-mimicking algorithm

Using an evolution-mimicking algorithm (EMA), we have recently identified DNA aptamers that inhibit Taq DNA polymerase. In the present study, we have attempted to improve further the inhibitory activities of aptamers, as well as to characterize those aptamers with the most potent inhibitory activities. To characterize the most potent aptamer and demonstrate its applicability, the abilities to inhibit Tth DNA polymerase and to modulate specific amplification in PCR were investigated. This aptamer inhibited both Tth DNA polymerase and Taq DNA polymerase and improved the specificity of detection of a low-copy-number target gene in PCR using these DNA polymerases.     

Expression and Secretion of Bifidobacterium adolescentis Amylase by Bifidobacterium Longum

Bifidobacterium adolescentis Int-57 (INT57), isolated from human feces, secretes an amylase. We have shot-gun cloned, sequence analyzed and expressed the gene encoding this amylase in B. longum. The sequenced 2477 bp fragment was homologous to other extracellular amylases. The encoded protein was predicted to be composed of 595 amino acids with a molecular weight of 64 kDa, and was designated AmyB. Highly conserved amylase domains were found in AmyB. The signal sequence and cleavage site was predicted by sequence analysis. AmyB was subcloned into pBES2, a novel E. coli–Bifidobacterium shuttle vector, to construct pYBamy59. Subsequently, B. longum, with no apparent amylase activity, was transformed with pYBamy59. More than 90% of the amylase activity was detected in the culture broth. This approach may open the way for the development of more efficient expression and secretion systems for Bifidobacterium. Both authors contributed equally Received 17 June 2005; Revisions requested 13 July 2005 and 26 September 2005; Revisions received 12 September 2005 and 8 November 2005; Accepted 11 November 2005     

Polymeric and Compositional Properties of Novel Extracellular Microbial Polyglucosamine Biopolymer from New Strain of Citrobacter sp. BL-4

A novel polyglucosamine polymer, PGB-2, was produced extracellularly from a new strain Citrobacter sp. BL-4 using pH-stat fed batch cultivation. It was composed of 97.3% glucosamine and 2.7% rhamnose; its average molecular weight, solubility in 2% acetic acid and viscosity were 20 kDa, 5 g l⁻¹ and 2.9 cps, respectively. FT-IR and ¹H NMR spectra of PGB-2 revealed a close identity with chitosan from crab shells. Received 20 September 2005; Revisions requested 6 October 2005; Revisions received 16 November 2005; Accepted 16 November 2005     

Increase in d-tagatose Production Rate by Site-directed Mutagenesis of l-arabinose Isomerase from Geobacillus thermodenitrificans

Among single-site mutations of l-arabinose isomerase derived from Geobacillus thermodenitrificans, two mutants were produced having the lowest and highest activities of d-tagatose production. Site-directed mutagenesis at these sites showed that the aromatic ring at amino acid 164 and the size of amino acid 475 were important for d-tagatose production. Among double-site mutations, one mutant converted d-galactose into d-tagatose with a yield of 58% whereas the wild type gave 46% d-tagatose conversion after 300 min at 65 °C. Received 31 August 2005; Revisions requested 27 September 2005; Revisions received 8 November 2005; Accepted 8 November 2005