The suitability of Ostrinia furnacalis (Lepidoptera: Crambidae) eggs for Trichogramma dendrolimi (Hymenoptera: Trichogrammatidae) can be changed by T. ostriniae

This study compared the host specificity of two Trichogramma species on Corcyra cephalonica (Stainton) and Ostrinia furnacalis (Güenée) eggs. Trichogramma ostriniae Pang et Chen (TO) took more time for oviposition during probing and laying eggs, compared with Trichogramma dendrolimi Matsumura (TD). Furthermore, the proportion of host eggs oviposited actually by TD was lower than that by TO on O. furnacalis eggs, whereas there was no significant difference on C. cephalonica eggs. TO produced more females and total offspring than TD on O. furnacalis eggs. This indicated that O. furnacalis was less suitable for the development of TD, compared with the combination of C. cephalonica and TD or O. furnacalis and TO. Microinjection with 4.0 eq μl^?1 extract of TO female abdomens induced lower hatchability and longer developmental duration of O. furnacalis egg, whereas the extract from TD prolonged developmental duration only slightly, indicating weak toxicity of TD extract. TD emerged from 72.0 % of O. furnacalis eggs helped by oviposition of TO females irradiated with 800 Gy/h ⁶⁰Co for 6 min, of which the intensity produced no TO offspring, whereas only 6.5 % of the eggs were parasitized solely by TD. This indicates that the suitability of O. furnacalis to TD can be increased by the addition of TO parasitization factors.     

The micronucleus test with mouse peripheral blood on N-methyl-N'-nitro-N-nitrosoguanidine and mitomycin C

The micronucleus test using mouse peripheral blood was conducted with N-methyl-N'-nitro-N-nitro-soguanidine (MNNG) and mitomycin C (MMC) as part of the 5th collaborative study supported by the Environmental Mutagen Society of Japan (CSGMT/MMS · JEMS).Male CD-1 mice were intraperitoneally injected once with 12.5–100 mg/kg of MMC. Peripheral blood was drawn at different intervals after treatment, placed on slides previously coated with acridine orange and the numbers of reticulocytes with micronuclei (MNRETs) were scored.The experiments indicated that the maximum effect of both MNNG and MMC was found about 48 h after treatment, and that the micronucleus test using peripheral blood is useful for the screening of chemicals throughout the experimental period in a single animal.     

Mechanism of potent mutagenic action of N-methyl-N'-nitro-N-nitrosoguanidine on intracellular phage lambda.

N-Methyl-N′-nitro-N-nitrosoguanidine efficiently induces mutations from “clear” to “virulent” in phage λ only during the intracellular growth phase. Lambda DNA extracted from infected bacteria after treatment with MNNG³ produced a mutant yield about 100-fold higher than the spontaneous level upon transfection of MNNG-treated spheroplast cells, whereas the yield diminished an order of magnitude when assayed on untreated spheroplasts. As measured by ¹⁴C incorporation after treatment with [methyl-¹⁴C]MNNG, λ DNA packed in head protein was methylated to about 3% by an MNNG dose of 0.6 mg/ml but was barely mutagenised; whereas intracellular λ DNA was methylated to no more than 0.6% by an MNNG dose of 0.09 mg/ml and was highly mutagenised. Lambda phages treated in vitro with ethyl methanesulfonate produced a rather low mutant yield on untreated cells but the yield increased about tenfold on MNNG-treated cells. Mutability of untreated λ on cells having received an F′ factor was enhanced efficiently by ultraviolet light, but not so by MNNG, previously applied to the F′. Surprisingly similar MNNG dose-effect curves exist for enhancing spontaneous, mispairing (MNNG or EMS induced) and misrepair (ultraviolet light induced) mutagenesis of λ. From these and other data we conclude that MNNG hypermutagenesis results from a synergistic increase in mispairing probability of appropriately methylated bases (by action of MNNG in vivo) in the target gene within an MNNG-induced intracellular environment that has an enhanced mutagenic capacity.     

Chromosomal aberration,mutation and morphological transformation of Syrian hamster embryonic cells after exposure to methylnitrosocyanamide

Hamster embryonic fibroblasts were treated directly with various concentrations of methylnitrosocyanamide (MNC), a nitrosated product of methylguanidine (MG) or N-methyl-N′-nitro-N-nitrosoguanidine (MNNG). Then they were examined for chromosomal aberrations, morphological transformation and mutations resistant to 8-azaguanine (8AG) and 6-thioguanine (6TG). Direct treatment with 2 to 10 × 10^?6 M MNC caused a marked, dose-dependent appearance of 8AG- and 6TG-resistant mutations. The ability of MNC to induce mutations was similar to that of MNNG. Cultured embryonic fibroblasts in metaphase plates also showed a marked dose-dependent increase in chromosomal aberrations within 24 h after direct treatment with MNC of MNNG. Moreover, MNC and MNNG caused similar rates of morphological transformation.     

Aphidicolin allows a rapid and simple evaluation of DNA-repair synthesis in damaged human cells

The decrease in microbial mutagenicity of N-methyl-N′-nitro-N-nitrosoguanidine (MNNG) and N-methyl-N-nitrosourea (MNU) was compared in an animal mediation with rats and in direct incubation with human as well as rat blood and blood components. The mutagenic activity was assayed by reverse mutation from streptomycin (SM) dependence to non-dependence in Escherichia coli, strain Sd-B (TC). The mutagenic response curves of both MNNG and MNU were approximately linear and parallel at non-cytotoxic concentrations. However, the mutagenic capabilities of MNNG were estimated to be 10-fold more potent than those of MNU. The mutagenic activity in blood and liver preparations from rats killed immediately after intravenous injection of MNNG, 50 mg/kg, was negative. Results with MNU, 100 mg/kg, were positive in both cases.For the detection of mutagenicity, blood was diluted 50 times for the final testing mixture (1 ml) to avoid bactericidal effects of the blood itself. When a larger amount of liver preparation was used in the tests, and diluted 8 times, mutagenic activity was still detected 15 min after injection of MNU, 80 mg/kg. Comparisons of the diminished rate of mutagenicity between MNNG and MNU during certain periods of incubation with blood indicated that MNNG was inactivated much more rapidly than MNU with both human and rat blood. Plasma showed a moderate inactivating effect on both MNNG and MNU. Red blood cells inactivated MNNG at a remarkably rapid rate similar to that of whole blood, but was less effective on MNU. In further experiments with red- cell components, the cell contents inactivated both MNNG and MNU at rates similar to those with red cells, but cell membrane had absolutely no effect in decreasing the mutagenicity in either MNNG or MNU.     

Comparative studies of the effects of carcinogenic and antitumor agents on the DNA replication of cultured mammalian cells

Cultured mouse L₅₁₇8Y cells were exposed to several carcinogenic and antitumor agents. After exposure to one of the agents, the cells were label with [³H]-thymidine for 20 min, and the DNA was subjected to alkaline sucrose gradient centrifugation immediately or after a chase period. This led us to classify the agents into 3 groups: (1) UV, 4-nitroquinoline-1-oxide (4NQO), N-methyl-N′-nitrosoguanidine (MNNG), nitrogen mustard and Mitomycin C. These were characterized by 20-min DNA labeling patterns showing the formation of small DNA and by the slowing down of their subsequent elongation. Replicated DNA strands would have gaps where “damage” was present on the parental strands. Subsequently, gap-filling replication would occur with or without repairing damage. (2) γ-rays. The 20-min DNA labeling profile displayed a larger size of DNA pieces and the subsequent elongation of this DNA was slightly affected. This probably due to a preferential depression of initiation DNA replication. (3) Methyl methanesulfonate (MMS) and low temperature (28°). The 20-min DNA labeling patterns were qualitatively similar to, but quantitatively different from those of non-irradiated control. The rate of DNA elongation was slightly retarded.     

DNA repair and chromosomal stability in the alkylating agent-hypersensitive Chinese hamster cell line 27-1

27-1 is a mutant of Chinese hamster ovary cells (CHO cells) that is hypersenstivie to the toxic effects of ultraviolet light, N-methyl-N′-nitro-N-nitrosoguanidine (MNNG) and other monofunctional alkylating agents. We show here that the enhanced MNNG sensitivity of these cells is not due to alterations in the amount of DNA methylation products introduced nor by a defect in the first step of removal of the main alkylation products 7-methylguanine and 3-methyladenine. However, these mutant cells perform more DNA repair synthesis after treatment with MNNG than normal CHO-9 cells. This observation might indicate a possible defect of a ligase involved in sealing DNA repair patches.27-1 cells did not show elevated frequencies of sister-chromatid exchange and chromosomal aberration induced by MNNG. The data show that MNNG-induced cell killing is not necessarily related to increased chromosomal instability.     

Polyhydroxyalkanoate biosynthesis and simultaneous remotion of organic inhibitors from sugarcane bagasse hydrolysate by Burkholderia sp.

Burkholderia sp. F24, originally isolated from soil, was capable of growth on xylose and removed organic inhibitors present in a hemicellulosic hydrolysate and simultaneously produced poly-3-hydroxybutyrate (P3HB). Using non-detoxified hydrolysate, Burkholderia sp. F24 reached a cell dry weight (CDW) of 6.8 g L^?1, containing 48 % of P3HB and exhibited a volumetric productivity (P_P3HB) of 0.10 g L^?1 h^?1. Poly-3-hydroxybutyrate-co-3-hydroxyvalerate copolymers (P3HB-co-3HV) were produced using xylose and levulinic acid (LA) as carbon sources. In shake flask cultures, the 3HV content in the copolymer increased from 9 to 43 mol% by adding LA from 1.0 to 5.0 g L^?1. In high cell density cultivation using concentrated hemicellulosic hydrolysate F24 reached 25.04 g L^?1 of CDW containing 49 % of P3HB and P_P3HB of 0.28 g L^?1 h^?1. Based on these findings, second-generation ethanol and bioplastics from sugarcane bagasse is proposed.     

Putative silicon transport vesicles in the cytoplasm of the diatom Synedra acus during surge uptake of silicon

We studied the growth of the araphid pennate diatom Synedra acus subsp. radians (Kützing) Skabichevskii using a fluorescent dye N ¹,N ³-dimethyl-N ¹-(7-nitro-2,1,3-benzoxadiazol-4-yl)propane-1,3-diamine (NBD-N2), which stains growing siliceous frustules but does not stain other subcellular organelles. We used a clonal culture of S. acus that was synchronized by silicon starvation. Epifluorescence microscopy was performed in two different ways with cells stained by the addition of silicic acid and the dye. Individual cells immobilized on glass were observed during the first 15–20 min following the replenishment of silicic acid after silicon starvation. Alternatively, we examined cells of a batch culture at time intervals during 36 h after the replenishment of silicic acid using fluorescence and confocal microscopy. The addition of silicic acid and NBD-N2 resulted in the rapid (1–2 min) formation of several dozen green fluorescent submicrometer particles (GFSPs) in the cytoplasm, which was accompanied by the accumulation of fluorescent silica inside silica deposition vesicles (SDVs) along their full length. In 5–15 min, GFSPs disappeared from the cytoplasm. Mature siliceous valves were formed within the SDVs during the subsequent 14–16 h. In the next 8–10 h, GFSPs appeared again in the cytoplasm of daughter cells. The data obtained confirm observations about the two-stage mechanism of silicon assimilation, which includes rapid silicon uptake (surge uptake) followed by slow silica deposition. It is likely that the observed GFSPs are silicon transport vesicles, which were first proposed by Schmid and Schulz in (Protoplasma 100:267–288, 1979).     

The nature of single-strand breaks in DNA following treatment of L-cells with methylating agents

DNA from untreated L-cells had a weight average molecular weight (Mw) of 5.7 ± 0.58·10⁸ daltons as measured by sedimentation in an alkaline sucrose gradient. This value was reduced by one half after the cells were treated for 1 h with 8 μg/ml of N-methyl-N-nitrosourea (MNUA), 34 μg/ml of methyl methanesulfonate (MMS) or 0.16 μg/ml of N-methyl-N′-nitro-N-nitrosoguanidine (MNNG). That dose of MNUA produced 52 methylations per 5.7·10⁸ daltons DNA. 20% of these were not purine derivatives and were assumed to contain some phosphotriesters. That dose of MMS (above) produced 290 methylations per 5.7·10⁸ daltons DNA and about 14% of these were not purine derivatives. The rates of loss of methylated purines from DNA were 2.3% per hour for 7-methylguanine (7-MeG), 7.4% per hour for 3-methyladenine (3-MeA) and no detectable loss of O⁶-methylguanine (O⁶-MeG) over a 12 h period. Since phosphotriesters are alkali-labile the single-strand breaks probably arose from this structure and did not form within the cell. This conclusion is supported by the following considerations. MNUA was more effective than MMS at reducing the molecular weight of DNA, as measured in alkaline medium. The greater SN₁ character of MNUA would cause a greater formation of phosphotriesters than would MMS.     

Formation and persistence of N7-methylguanine DNA adducts in the target pyloric tissue following chronic exposure to N-methyl-N′-nitro-N-nitrosoguanidine

Outbred 7-week old male Wistar rats were exposed for 21 days to N-methyl-N'-nitro-N-nitrosoguanidine (MNNG) via the drinking water and N7-methyl deoxyguanosine 3'-monophosphate (N7-MedGp) levels in DNA from the pyloric mucosa (target tissue) and white blood cells (wbc: non-target tissue) were determined by ³²P-postlabelling. Exposure to MNNG resulted in the non-linear, dose-related formation of N7-medGp in both tissues. Adduct levels in the pyloric mucosa were determined to be 1058, 5.4 and 1.1 μmole N7-medGp mole^-1 deoxyguanosine 3'-monophosphate (dGp) after exposure to 4.1, 0.62 and 0.006 mg MNNG kg^-1 day^-1 respectively whereas adduct levels in the wbc DNA were lower at 5.2, 0.52 and 0.68 μmoles N7-medGp mole^-1 dGp after exposure to 4.1, 0.62 and 0.062 mg MNNG kg^-1 day^-1 respectively. In addition, the persistence of N7-medGp was investigated. Loss of adduct occurred rapidly, with a decrease of 87 and 97% respectively in target tissue and wbc DNA by 48 h after cessation of 4.1 mg MNNG kg^-1 day^-1 exposure; 14 days post-MNNG treatment, however, N7-medGp was still detectable (0.46 μmole N7-medGp mole^-1 dGp) in pyloric mucosal DNA. The quantitation of N7-medGp after exposure to low doses of carcinogen, i.e. 0.006 mg MNNG kg^-1 day^-1, approaching environmentally relevant levels has not been previously reported, and indicates that the ³²P-postlabelling assay developed here possesses sufficient sensitivity to quantitate N7- medGp in human DNA arising from environmental exposure to methylating agents.     

Increased sensitivity of xeroderma pigmentosum cells to some chemical carcinogens and mutagens

The clone-forming capacity and level of DNA repair was examined on normal human cells and repair-deficient Xeroderma pigmentosum (XP) fibroblasts exposed to various chemical carcinogens and mutagens.The cultured fibroblasts were treated for 90 min with the carcinogenic and mutagenic 4-nitroquinoline 1-oxide (4NQO), 4-hydroxyaminoquinoline 1-oxide (4HAQO), 2-methyl-4-nitroquinoline 1-oxide (2-Me-4NQO), 3-methyl-4-nitropyridine 1-oxide 3-Me-4NPO) and the non-carcinogenic 6-nitroquinoline 1-oxide (6NQO). The response of the cells to the N-oxides was compared to that induced by the mutagen and carcinogen N-methyl-N′-nitro-N-nitrosoguanidine (MNNG) and UV-irradiation.The XP cells showed (1) a reduced level of DNA repair synthesis when exposed to various carcinogenic N-oxides, (2) no unscheduled DNA synthesis following 6NQO and (3) a normal degree of DNA repair synthesis after treatment with MNNG.When the clone-forming capacity was examined the XP cells exhibited (1) a higher increased sensitivity to the various carcinogenic N-oxides, (2) no reduction in the clone formation following 6NQO and (3) a sensitivity virtually comparable to that of normal cells after treatment with MNNG.The results suggest a link between extent of DNA damage, level of DNA repair and degree of sensitivity in human cells exposed to various chemical carcinogens and which induce DNA alterations that cannot be repaired by DNA repair synthesis.     

Enhanced production of ATP-binding cassette protein exporter-dependent lipase by modifying the growth medium components of Pseudomonas fluorescens

The industrially-important thermostable lipase, TliA, was extracellularly produced in the recombinant Pseudomonas fluorescens by the homologous expression of TliA and its cognate ABC protein exporter, TliDEF. To increase the secretory production of TliA, we optimized the growth temperature and the culture medium of P. fluorescens. The total amount and the specific productivity of lipase was highest at 25 °C of cell growth temperature, although maximal cell growth was observed at 30 °C. Using the culture medium composed of 20 g dextrin l^?1, 40 g Tween 80 l^?1 and 30 g peptone l^?1, TliA was produced at a level of 2,200 U ml^?1 in a flask culture. The TliA production increased about 3.8-fold (8,450 U ml^?1) in batch fermentation using a 2.5 l fermentor, which was about 7.7-fold higher than that of previously reported TliA production.     

Effect of UV-B radiation on the synthesis of UV-absorbing compounds in a terrestrial cyanobacterium, Nostoc flagelliforme

Effects of two intensities (1 and 5 W?m^?2) of UV-B radiation on the synthesis of UV-absorbing compounds in a terrestrial cyanobacterium Nostoc flagelliforme were investigated. UV-B radiation resulted in lower biomass. Short period (less than 12 h) of UV-B radiation caused an increase of chlorophyll a content, but subsequent duration of treatment (more than 24 h) resulted in a rapid decrease. N. flagelliforme synthesized UV-absorbing compounds such as scytonemin and mycosporine-like amino acids (MAAs) in response to UV-B radiation. Upon 48 h of exposure to UV-B radiation, scytonemin content in cells increased by 103.8 and 164.0 % at 1 and 5 W?m^?2, respectively. Oligosaccharide-linked mycosporine-like amino acids increased by 145.5 % after 12 h at 5 W?m^?2 and 114.5 % after 48 h at 1 W?m^?2 UV-B radiation. HPLC analysis showed that nine MAAs existed in N. flagelliforme cells both from liquid suspension culture and field colony. But the concentration and kinds of them were different. At the two distinct levels of UV-B radiation, the content of particular MAAs increased, declined, or remained unchanged. Moreover, the appearance of two new MAAs was observed.     

Soil recovery after removal of the N2-fixing invasive Acacia longifolia: consequences for ecosystem restoration

Invasion by Acacia longifolia alters soil characteristics and processes. The present study was conducted to determine if the changes in soil C and N pools and processes induced by A. longifolia persist after its removal, at the São Jacinto Dunes Nature Reserve (Portugal). Some areas had been invaded for a long time (>20 years) and others more recently (<10 years). For each type of invasion, (i.e., long-invaded and recently invaded), three treatments were used: (1) A. longifolia left intact; (2) A. longifolia was removed; and (3) both A. longifolia and litter layer were removed. Soil samples were collected once a year for four and half years and analysed for chemical and microbial properties. In general, microbial parameters responded faster than C and N pools. In long-invaded areas, two and half years after removal of plants and litter, basal respiration and microbial biomass had already decreased >30%, β-glucosaminidase activity (N mineralization index) >60% and potential nitrification >95%. Removal of plants and litter resulted in a >35% decrease in C and N content after four and half years. In recently invaded areas, β-glucosaminidase activity and potential nitrification showed a marked decrease (>54% and >95%, respectively) after removal of both A. longifolia and litter. Our results suggest that after removal of an N₂-fixing invasive tree that changes ecosystem-level processes, it takes several years before soil nutrients and processes return to pre-invasion levels, but this legacy slowly diminish, suggesting that the susceptibility of native areas to (re)invasion is a function of the time elapsed since removal. Removal of the N-rich litter layer facilitates ecosystem recovery.     

A proteomic approach to study the mechanism of tolerance to Bt toxins in Ostrinia furnacalis larvae selected for resistance to Cry1Ab

A Cry1Ab-resistant population of Asian corn borer (ACB-AbR) exhibiting approximately 100 times greater resistance to activated Cry1Ab than a susceptible population (Ostrinia furnacalis; ACB-BtS), was previously shown to exhibit high levels of cross-resistance to Cry1Ah (131-fold), but no cross-resistance to Cry1Ie. It was suggested that the proposed mechanism of resistance was due to the alteration of specific receptors for Cry toxins in the midgut brush border membrane. In the present study a proteomic-based approach was used to identify proteins from brush border membrane vesicles (isolated from both resistant and susceptible Ostrinia furnacalis larvae) interacting with biotinylated Cry1Ab, Cry1Ah, and Cry1Ie. 2D-Electrophoresis in combination with ligand blots were employed and putative protein identities obtained using MALDI-ToF/ToF mass spectrometry. The V-type proton ATPase catalytic subunit A and heat shock 70 kDa proteins were identified as interacting with the Cry toxins tested in the ACB-AbR and ACB-BtS larvae. The biotinylated Cry toxins showed markedly stronger interactions with proteins in the resistant compared to the susceptible larvae, suggesting an up-regulation of the V-type proton ATPase catalytic subunit A and heat shock 70 kDa proteins in the resistant (ACB-AbR) larvae. Interestingly, Cry1Ie interactions with the V-type proton ATPase catalytic subunit A in the ACB-BtS larvae appeared to be absent.     

High temperature tolerance and thermal-adaptability plasticity of Asian corn borer (Ostrinia furnacalis Guenée) after a single extreme heat wave at the egg stage

Due to ongoing climate change, short-term extreme heat waves in the summer are expected to be more frequent. Insect eggs are sensitive to thermal stress. This raises the question of whether herbivore insects' thermal adaptability would be changed after a single extreme heat wave at the egg stage. In this study, we examined the developmental performance of Ostrinia furnacalis Guenée at 25?°C, 27?°C, 29?°C or 31?°C after a single extreme heat wave (42?°C) for 0?h (control), 1?h, 2?h, or 3?h at the egg stage. The results showed that O. furnacalis at the egg or larval stage was more sensitive to a single heat wave than it was at the pupae or adult stage. After a single heat wave, O. furnacalis showed a reduced egg-hatching rate or reduced larval survival rate, but the optimum temperature for egg hatching and larval survival was higher than that in the control. The upper temperature threshold and optimum temperature for larval development in the control were higher than that after a single extreme heat wave. Both male and female pupal weight decreased with increasing temperature, and pupal weight decreased faster in females than in males. The Cox proportional hazard model showed that when O. furnacalis developed at 25?°C, the instantaneous death risk of adults with a 3?h heat wave at the egg stage was higher than that of the control, but when O. furnacalis developed at 29?°C and 31?°C, the instantaneous death risk of adults after a heat wave was significantly lower than that of the control. Our study highlights the effect of a single heat wave on O. furnacalis eggs and the subsequent development of survival individuals.     

Diphtheria toxin resistance in human fibroblast cell strains from normal and cancer-prone individuals

Mutants resistant to diphtheria toxin (Dip^r) have been selected from a variety of human fibroblast cell strains derived from both normal subjects and individuals with known genetic predisposition to cancer such as xeroderma pigmentosum, Fanconi anemia and Bloom's syndrome. Treatment with N-methyl-N′-nitro-N-nitrosoguanidine (MNNG) led to a marked increase in the frequency of Dip^r mutants in various cell strains. The increase in the frequency of Dip^r mutants occurred in a linear dose-dependent manner in response to MNNG and ethyl methanesulfonate, in one of the cell strains examined. The rate of muation to diphtheria toxin as determined by fluctuation analysis was very similar in various cell strains (1–3 × 10^?7 mutations/cell/generation), except for the strain GM1492 (8.8 × 10^?7 mutations/cell/generation) which is derived from a Bloom syndrome patient.