Masayoshi Iio

Cryoprotective activities of group 3 late embryogenesis abundant proteins from Chlorella vulgaris C-27.

The nucleotide sequence of hiC12, isolated as a cDNA clone of hardening-induced Chlorella (hiC) genes, was identified. The clone encodes a late embryogenesis abundant (LEA) protein having six repeats of a 11-mer amino acid motif, although in a slightly imperfect form. To overexpress the hiC6 1) and hiC12 genes, their coding regions were PCR amplified and subcloned into a pGEX-1λT vector. The HIC6 and HIC12 proteins were expressed as GST fusion proteins in E. coli, then purified. The two HIC proteins were found to be effective in protecting a freeze-labile enzyme, LDH, against freeze-inactivation. On a molar concentration basis, they were about 3.1×106 times more effective in protecting LDH than sucrose and as effective as BSA. Cryoprotection tests with five kinds of chain-shortened polypeptides, synthesized based on the 11-mer amino acid motif of the HIC6 protein showed that the cryoprotective activity decreased with a decrease in the repeating units of the 11-mer motif. In fact, cryoprotective activities of three kinds of single 11-mer amino acids were very low even at high concentrations. All the results suggested that the sufficiently repeated 11-mer motif is required for the cryoprotective activities of Chlorella LEA proteins.

Two Low-temperature-inducible Chlorella Genes for Δ12 and ω-3 Fatty Acid Desaturase (FAD): Isolation of Δ12 and ω-3 fad cDNA Clones,…

In an attempt to clarify the involvement of fatty acid desaturases (FADs) in the freezing tolerance of Chlorella vulgaris IAM C-27, developed by hardening, we have isolated cDNA clones for two types of FADs from the Chlorella strain, based on the sequence information of genes for Δ12 and ω-3 FADs, respectively desaturating oleic acid (18:1) to linoleic acid (18:2) and linoleic acid (18:2) to linolenic acid (18:3). The deduced amino acid sequence of the first clone, designated CvFad2, showed about 66% similarity to the microsomal Δ12 FADs from several higher plants and this gene had Δ12 FAD activity when expressed in Saccharomyces cerevisiae. The predicted protein encoded by a second gene, designated CvFad3, showed about 60% similarity to the microsomal and plastidial ω-3 FADs from several higher plants. The features of the amino acid sequences of the C- and N-terminal regions of CvFAD3 and fatty acid analysis of polar lipids in transgenic tobacco plant expressing the CvFad3 gene suggested that this gene encodes the microsomal ω-3 FAD. Southern blot analysis showed that both genes were single-copy genes in the genome of the Chlorella strain. Different transcriptional patterns were observed with the two genes during hardening in Northern blot analysis.

Identification of Factors Involved in Recovery of Heat-Injured Salmonella Enteritidis

Proteins and genes involved in the recovery of heat-injured Salmonella Enteritidis were investigated. Salmonella Enteritidis cells cultured overnight in tryptic soy broth (TSB; nonselective medium) were suspended in citric acid-disodium hydrogen phosphate buffer (pH 6). After heat treatment at 55 degrees C for 15 min, the culturable counts measured by tryptic soy agar (TSA; nonselective medium) decreased from 10(8) to 10(7) CFU/ml. On the other hand, culturable counts measured by desoxycholate-hydrogen sulfite-lactose (DHL) agar (selective medium) were decreased from 10(8) to 10(4) CFU/ml by the same treatment. The results suggest that 99.9% of Salmonella Enteritidis detected on TSA were injured but recoverable. When injured Salmonella Enteritidis was incubated in TSB, the culturable count measured by TSA did not increase for 2 h, whereas that by DHL agar increased after incubation for 30 min. After incubation for 2 h, the culturable count measured by DHL agar reached a similar level with that by TSA, indicating that Salmonella Enteritidis had recovered. The two-dimensional polyacrylamide gel electrophoresis analysis revealed that elongation factor G (FusA) and pyruvate kinase (PykF) specifically increased in the cells just after heat treatment and in the recovery cells. The levels of transcription of 86 stress-inducible genes were also investigated by reverse transcription PCR. Nineteen heat-inducible (clpB, clpX, degP, dnaJ, fkpA, ftsJ, gapA, hflB, hslJ, hslU, hslV, htpG, htrA, lon, mopA, mopB, mreB, rpoE, and ppiD), and 12 oxidative-stress and DNA damage-inducible (ahpC, ahpF, fldB, fur, grxA, dinF, katG, mutM, recA, soxR, trxC, and zwf) genes were transcribed extensively during recovery in TSB. The results obtained in this study will be used to develop the media or culture conditions that will promote recovery for the detection of food poisoning bacteria, including injured cells from food products.

Immunomagnetic flow cytometric detection of staphylococcal enterotoxin B in raw and dry milk.

A rapid and sensitive method for detection of staphylococcal enterotoxin B (SEB) in raw and dry milk samples with the use of antibody-based immunomagnetic separation (IMS) in conjunction with flow cytometry (FCM) was developed. Sheep anti-SEB immunoglobulin G (IgG) was immobilized on Dynabeads M-280. The SEB initially binds to the capturing antibody, which is bound on the magnetic beads. The rabbit anti-SEB IgG binds to the captured toxin and is further labeled with a Cy5-labeled goat anti-rabbit IgG antibody. The percentage of the beads that were fluorescent was measured by FCM. FCM was carried out for 1 min, and the data obtained were expressed as histograms for particle size (forward light scatter) and histograms for fluorescence intensity. A peak corresponding to the magnetic beads was clearly distinguished from a peak derived from contaminating particles in the sample solution. In the absence of SEB, about 10% of the beads emitted fluorescence. The percentage of fluorescent beads and the fluorescence intensity increased with increasing SEB concentrations. For this IMS-FCM assay, the lower limits of detection for SEB were estimated to be 0.01 and 0.25 ng/ml for buffer and milk samples, respectively.

Improvement of Freezing Tolerance in Transgenic Tobacco Leaves by Expressing the hiC6 Gene

A cryoprotective protein, HIC6, was expressed transgenically in tobacco, a cold-sensitive plant, and the localization of the protein within the cell as well as freezing tolerance of the transgenic tobacco was investigated. For constitutive expression of HIC6 in tobacco, its corresponding gene was subcloned into pBI121. Through the transformation with pBI121/hiC6, fifteen transgenic tobacco lines were acquired, out of which twelve lines expressed the HIC6 protein. None of the transgenic tobacco lines, however, showed significant differences in freezing tolerance from the control plants (wild-type and transformed with pBI121) at −1, −3, and −4°C, with the exception that their freezing temperature was −2°C. In order to increase the accumulation level of HIC6, pBE2113 with a stronger promoter was used. Eight lines expressed the protein out of thirteen lines transformed with pBE2113/hiC6. The accumulation levels of the protein were clearly higher in the tobacco plants transformed with pBE2113/hiC6 than in those with pBI121/hiC6. The HIC6 protein seemed to be localized in mitochondria of the transgenic tobacco plants. Freezing-tolerance test at −1 - −4°C showed that the degree of electrolyte leakage was significantly lower in the plants with pBE2113/hiC6 than in the control plants. A leaf browning observation also showed that high accumulation of HIC6 significantly suppressed injury caused by freezing to the transgenic tobacco at −3°C.

Purification and characterization of two isoforms of glucose 6-phosphate dehydrogenase (G6PDH) from Chlorella vulgaris C-27.

Two kinds of isoforms of glucose 6-phosphate dehydrogenase (G6PDH) were purified from cells of a freezing-tolerant strain, Chlorella vulgaris C-27, by sequential steps of chromatography on five kinds of columns, including a HiTrap Blue column which showed excellent separation of the isoforms from each other. The two isoforms (G6PDH1 and G6PDH2) were purified up to 109-fold and 197-fold with specific activity of 14.4 and 26.0 U/mg-protein, respectively. G6PDH1 showed an apparent M r of 200,000 with a subunit M r of about 58,000, whereas G6PDH2 showed an apparent M r of 450,000 with a subunit M r of about 52,000. The kinetic parameters were measured and several enzymatic features of the isoforms, such as effects of metal ions on the enzyme activity, were clarified, which showed that the two isoforms were different from each other in many respects. Among the effective ions, Cd2+ showed marked stimulating effects on both isoforms. G6PDH1 and G6PDH2 seem to be a cytosolic and a chloroplastic type, respectively, as judged by their sensitivity to DTT, and also from the results of sequence similarity searches using their N-terminal and internal amino acid sequences.

Enhancement of menadione stress tolerance in yeast by accumulation of hypotaurine and taurine: Co-expression of cDNA clones, from Cyprinus carpio, for cysteine dioxygenase and cysteine sulfinate decarboxylase in Saccharomyces cerevisiae

Taurine is known to function as a protectant against various stresses in animal cells. In order to utilize taurine as a compatible solute for stress tolerance of yeast, isolation of cDNA clones for genes encoding enzymes involved in biosynthesis of taurine was attempted. Two types of cDNA clones corresponding to genes encoding cysteine dioxygenase (CDO1 and CDO2) and a cDNA clone for cysteine sulfinate decarboxylase (CSD) were isolated from Cyprinus carpio. Deduced amino acid sequences of the two CDOs and that of CSD showed high similarity to those of CDOs and those of CSDs from other organisms, respectively. The coding regions of CDO1, CDO2, and CSD were subcloned into an expression vector, pESC-TRP, for Saccharomyces cerevisiae. Furthermore, to enhance the efficiency of synthesis of taurine in S. cerevisiae, a CDO–CSD fusion was designed and expressed. Expression of CDO and CSD proteins, or the CDO–CSD fusion protein was confirmed by Western blot analysis. HPLC analysis showed that the expression of the proteins led to enhancement of the accumulation level of hypotaurine, a precursor of taurine, rather than taurine. The yeast cells expressing corresponding genes showed tolerance to oxidative stress induced by menadione, but not to freezing–thawing stress.

Polymerase Chain Reaction Assay for Detection of Escherichia coli O157:H7 and Escherichia coli O157:H

The DNA band patterns generated by polymerase chain reaction (PCR) using the du2 primer and template DNAs from various strains of Escherichia coli and non-E. coli bacteria were compared. Among three to five prominent bands produced, the three bands at about 1.8, 2.7, and 5.0 kb were detected in all of the E. coli O157 strains tested. Some nonpathogenic E. coli and all pathogenic E. coli except E. coli O157 showed bands at 1.8 and 5.0 kb. It seems that the band at 2.7 kb is specific to E. coli O157. Sequence analysis of the 2.7-kb PCR product revealed the presence of a DNA sequence specific to E. coli O157:H- and E. coli O157:H7. Since the DNA sequence from base 15 to base 1,008 of the PCR product seems to be specific to E. coli O157, a PCR assay was carried out with various bacterial genomic DNAs and O157-FHC1 and O157-FHC2 primers that amplified the region between base 23 and base 994 of the 2.7-kb PCR product. A single band at 970 bp was clearly detected in all of the strains of E. coli O157:H- and E. coli O157:H7 tested. However, no band was amplified from template DNAs from other bacteria, including both nonpathogenic and pathogenic E. coli except E. coli O157. All raw meats inoculated with E. coli O157:H7 at 3 x 10(0) to 3.5 x 10(2) CFU/25 g were positive both for our PCR assay after cultivation in mEC-N broth at 42 degrees C for 18 h and for the conventional cultural method.

Chemical Conversion of Ribonucleoside 5'-S-Methyl Phosphorothiolates into Ribonucleotide Anhydrides Including Adenosine 5'-Triphosphate and Uridine Diphosphate Glucose

Ribonucleotide anhydrides have been prepared from corresponding ribonucleoside 5′-S-methyl phosphorothiolates by demethylthiolation with iodine in dry pyridine at room temperature in the presence of appropriate phosphates such as inorganic orthophosphate, inorganic pyrophosphate or glucose 1-phosphate. Thus synthesis of ribonucleotide anhydrides have been achieved and three ribonucleoside 5′-triphosphates (ATP, CTP and UTP), three ribonucleoside 5′-diphosphates (ADP, CDP and UDP) and a pyrophosphate coenzyme (UDPG) have been synthesized and isolated as lithium salts by charcoal treatment followed by ion exchange chromatography.

Antitumour potentiality of polyhedral protein and its action on deoxyribonucleic acid

Polyedrisches Protein hat die Fähigkeit, das Wachstum von Sarkom-180 zu hemmen. Hitze-denaturierte DNS ist fähig, sich mit diesem Protein zu kombinieren, was von einem Aufbrechen des Proteins begleitet wird. Partiell mit Trypsin hydrolysiertes Protein kann sich auch an einstrangige Nucleinsäure binden, eine Bindung, welche seine Neigung zum Aufbrechen vergrößert. Die Schmelztemperatur von DNS wird durch die Kombination mit dem teilweise zersetzten Protein herabgesetzt. Seine Injektion hindert außerdem die Ekdyse von Larven. Polyhedral protein has the ability to inhibit the growth of sarcoma-180. Heat-denatured DNA is able to combine with the protein; the combination is accompanied by breakage of the former. The protein hydrolyzed partially with trypsin can also bind with single stranded nucleic acid; the binding causes an enhancement of breakability of the latter. The melting temperature of DNA is decreased by combining with the partly decomposed protein. Nuclear DNA in silkworms is split by injecting the protein. The injection further impedes the larval ecdysis.