A 63 KDa toxic polypeptide fromBacillus thuringiensis subsp.kurstaki (HD-263): Effects on several lepidopteran cell lines

Summary An electrophoretically homogeneous 63 KDa polypeptide derived from the protoxin ofBacillus thuringiensis subsp.kurstaki; (HD-263) caused lysis of cells from the lepidopteran cell lines TN368, IPLB-HZ1075, LD652Y, and SF21AE. The extent of cytolysis among the different cell cultures varied according to the incubation milieu, the polypeptide, and the particular cell culture studied. Preincubation of the polypeptide with either the amino sugars galactosamine, mannosamine, glucosamine, or theirN-acetyl derivatives prevented cytolysis to a varying extent. Derivatives of galactose were more effective than those of mannose, followed by those of glucose. The amino sugars inhibited more efficiently than theN-acetyl derivatives. No inhibition was detected using the parent sugars. A baculovirus originally isolated from the lepidopteranAutographa californica was grown in TN368 cells and the extracellular virus (ECV) preincubated with varying concentrations of the polypeptide before assay. A concentration of 5 μg/ml reduced viral infectivity 99% when assayed on TN368 cells. These results support the current thinking that at least some Bt toxins may utilize specific cell-surface glycoconjugates for initiation of their toxic action and that the numbers and types of receptors may vary with the specific cell line. Also, reduction of baculovirus ECV infectivity by Bt toxic polypeptide indicates binding to a cell-surface glycoconjugate essential for initiation of infection, whether it is the normal cell receptor or a virus-coded glycoconjugate. Authorized for publication by as Journal Series Paper No. 7670.     

Cry2A toxins from <Emphasis Type="Italic">Bacillus thuringiensis</Emphasis> expressed in insect cells are toxic to two lepidopteran insects

The cry2Aa and cry2Ab genes from a Brazilian Bacillus thuringiensis strain were introduced into the genome of the baculovirus Autographa californica multiple nucleopolyhedrovirus (AcMNPV) in order to evaluate the heterologous proteins expression in insect cells and their toxicity to different insects. The recombinant viruses (vAcCry2Aa and vSynCry2Ab) were amplified in Trichoplusia ni (BTI-Tn5B1-4) cells and used to infect Spodoptera frugiperda larvae. Total extracts from S. frugiperda infected with the recombinant viruses were analysed by SDS-PAGE, which detected the presence of polypeptides around 65 kDa. Cuboid-shaped protein crystals were observed in insect extracts by light and scanning electron microscopy. Bioassays, using the heterologous proteins showed toxicity against second instar A. gemmatalis larvae (Cry2Aa) with a LC₅₀ of 1.03 μg/ml and second instar S. frugiperda larvae (Cry2Ab) with a LC₅₀ of 3.45 μg/ml. No toxic activity was detected for Aedes aegypti and Culex quinquenfaciatus.     

Secondary structure of the entomocidal toxin from Bacillus thuringiensis subsp. kurstaki HD-73

The secondary structure of the toxin fromBacillus thuringiensis subsp.kurstaki (Btk) HD-73 was estimated by Raman, infrared, and circular dichroism spectroscopy, and by predictive methods. Circular dichroism and infrared spectroscopy gave an estimate of 33–40% -helix, whereas Raman and predictive methods gave approximately 20%. Raman and circular dichroism spectra, as well as predictive methods, indicated that the toxin contains 32–40% -sheet structure, whereas infrared spectroscopy gave a slightly lower estimate. Thus, all of these approaches are in agreement that the native conformation of Btk HD-73 toxin is highly folded and contains considerable amounts of both -helical and -sheet structures. No significant differences were detected in the secondary structure of the toxin either in solution or as a hydrated pellet.     

Larvicidal activities against agricultural pests of transgenic Escherichia coli expressing combinations of four genes from Bacillus thuringiensis

The genes cry1Ac and cry1Ca from Bacillus thuringiensis subsps. kurstaki HD-73 and aizawai 4J4, respectively, encoding δ-endotoxins against lepidopteran larvae were isolated, cloned and expressed in Escherichia coli, with and without cyt1Aa (encoding cytolytic protein) and p20 (accessory protein) from subsp. israelensis. Nine combinations of the genes under control of an early T7, P _A1 inducible promoter, produced the encoding proteins. Toxicities were examined against larvae of three major agricultural pests: Pectinophora gossypiella, Helicoverpa armigera and Spodoptera littoralis. The clones expressing cyt1Aa, with or without p20, were not toxic. The clone expressing cry1Ac (pBt-1A) was the most toxic to P. gossypiella (LC₅₀ of 0.27 × 10⁸ cells g⁻¹). Clone pBt-1CA expressing cry1Ca and cry1Ac displayed the highest toxicity (LC₅₀ of 0.12 × 10⁸ cells ml⁻¹) against S. littoralis. Clone pBt-1CARCy expressing all four genes (cry1Ca, cry1Ac, p20, cyt1Aa) in tandem exhibited the highest toxicity to H. armigera (LC₅₀ of 0.16 × 10⁸ cells ml⁻¹). Cyt1Aa failed to raise the toxicity of these Cry toxins against P. gossypiella and S. littoralis but significantly enhanced toxicity against H. armigera. Two additional clones expressing either cry1Ac or cry1Ca under tandem promoters, P _A1 and P _psbA (constitutive), displayed significantly higher toxicities (7.5- to 140-fold) than their counterparts with P _A1 alone, reducing the LC₅₀ values to below 10⁷ cells ml⁻¹. Vadim Khasdan and Maria Sapojnik are contributed equally to this work.     

Toxicity of Thiophenes from Echinops transiliensis (Asteraceae) against Aedes aegypti (Diptera: Culicidae) Larvae

Structure? activity relationships of nine thiophenes, 2,2′: 5′,2″‐terthiophene ( 1 ), 2‐chloro‐4‐[5‐(penta‐1,3‐diyn‐1‐yl)thiophen‐2‐yl]but‐3‐yn‐1‐yl acetate ( 2 ), 4‐(2,2′‐bithiophen‐5‐yl)but‐3‐yne‐1,2‐diyl diacetate ( 3 ), 4‐[5‐(penta‐1,3‐diyn‐1‐yl)thiophen‐2‐yl]but‐3‐yne‐1,2‐diyl diacetate ( 4 ), 4‐(2,2′‐bithiophen‐5‐yl)‐2‐hydroxybut‐3‐yn‐1‐yl acetate ( 5 ), 2‐hydroxy‐4‐[5‐(penta‐1,3‐diyn‐1‐yl)thiophen‐2‐yl]but‐3‐yn‐1‐yl acetate ( 6 ), 1‐hydroxy‐4‐[5‐(penta‐1,3‐diyn‐1‐yl)thiophen‐2‐yl]but‐3‐yn‐2‐yl acetate ( 7 ), 4‐(2,2′‐bithiophen‐5‐yl)but‐3‐yne‐1,2‐diol ( 8 ), and 4‐[5‐(penta‐1,3‐diyn‐1‐yl)thiophen‐2‐yl]but‐3‐yne‐1,2‐diol ( 9 ), isolated from the roots of Echinops transiliensis, were studied as larvicides against Aedes aegypti. Structural differences among compounds 3, 5 , and 8 consisted in differing AcO and OH groups attached to C(3″) and C(4″), and resulted in variations in efficacy. Terthiophene 1 showed the highest activity (LC₅₀, 0.16 μg/ml) among compounds 1 – 9 , followed by bithiophene compounds 3 (LC₅₀, 4.22 μg/ml), 5 (LC₅₀, 7.45 μg/ml), and 8 (LC₅₀, 9.89 μg/ml), and monothiophene compounds 9 (LC₅₀, 12.45 μg/ml), 2 (LC₅₀, 14.71 μg/ml), 4 (LC₅₀, 17.95 μg/ml), 6 (LC₅₀, 18.55 μg/ml), and 7 (LC₅₀, 19.97 μg/ml). These data indicated that A. aegypti larvicidal activities of thiophenes increase with increasing number of thiophene rings, and the most important active site in the structure of thiophenes could be the tetrahydro‐thiophene moiety. In bithiophenes, 3, 5 , and 8 , A. aegypti larvicidal activity increased with increasing number of AcO groups attached to C(3″) or C(4″), indicating that AcO groups may play an important role in the larvicidal activity.     

Development of a cost-effective medium for the large scale production of Bacillus thuringiensis var israelensis

Bacillus thuringiensis var israelensis (B.t.i.) has been widely used in mosquito control programs, but the large scale production of this bacillus is expensive because of the high cost of the medium. In this study, we attempted to develop a cost-effective medium, based on inexpensive, locally available raw materials including soybean flour (Glycine max), groundnut cake powder (Arachis hypogea), and wheat bran extract (Triticum aestivum) by using 100-L fermentor. Sporulation, toxicity, and biomass were satisfactory after B.t.i. was produced on all the three media. Use of the soybean culture medium resulted in maximum toxicity (LC₅₀ 8.89 ng/ml against Culex quinquefasciatus IIIrd instar larvae), highest spore count (0.48 × 10¹¹ c.f.u./ml), and maximum biomass (7.8 g/L) within a short fermentation time of 24 h. Hence, this soybean-based culture medium was considered most economical for the large scale industrial production of B.t.i.     

Cost-effective production of Bacillus thuringiensis biopesticides by solid-state fermentation using wastewater sludge: effects of heavy metals

This study demonstrated the feasibility to produce Bacillus thuringiensis subsp. kurstaki (Btk) based biopesticides using wastewater sludge as raw materials under solid-state fermentation (SSF). More than 10¹⁰ CFU/g viable cells of Btk were obtained using sludge or its mixture with agricultural wastes. This study well considered the effect of heavy metals on Btk growth and their changes of chemical speciation caused by SSF. The IC₅₀ (concentration causing 50% inhibition in total cell biomass) for Pb(II), Cu(II), Cd(II) and Cr(III) on Btk were determined to be 227, 82, 15 and 263 mg/L, respectively. Exposure to 150 mg/L of Cu(II) severely reduced the amount and size of toxin crystals, which decreased the endotoxin synthesis and entomotoxicity potency of Btk cells. Using Tessier’s sequential extraction procedure, the exchangeable heavy metals in sludge were shown to be transformed into residual fractions after SSF, and thus significantly reduced their bioavailability and potential environmental risks.     

Optimization of a fermentation process for bioinsecticide production by <Emphasis Type="Italic">Bacillus thuringiensis</Emphasis>

In an attempt to develop a cost-effective process for bioinsecticide production by B. thuringiensis, the feeding regime during aerobic cultivation of the bacterium was investigated and optimized. The process was designed as a two-stage process; a first stage of active growth, where glucose and other nutrients were adequately supplied to the growing cells over 12 h, followed by a second stage of 2 h for spore formation and toxin release. In order to maximize spore and toxin yield and productivity, different quantities of glucose and nutrients were fed separately to the growing cells in four different fermentation runs. In all runs, glucose was converted to bacterial biomass during the first stage and subsequently to spores and crystal protein during the second phase. The best results were obtained with a fermentation run supplied with 190 g glucose in 1500 ml. Up to 20.1 g of bacterial insecticides/l were recovered from fermentation broth with a glucose to toxin conversion yield of 0.159 g/g. Also, a markedly high spore concentration of 2.31 × 10¹² c.f.u./ml was obtained. The spore–crystal protein mixture obtained was tested for its insecticidal activity against three of the most agronomically important pests. Among the bioinsecticide-treated insect pests, Egyptian cotton leafworm, Spodoptera littoralis was the most susceptible pest with the lowest LC₅₀ of the bioinsecticides against its larval instar and the highest virulence against adults emerged later on from the surviving larvae.     

Ecdysteroids induce morphological changes in continuous cell lines of Lepidoptera

Summary In the continuous cell lines of the LepidopteraTrichoplusia ni (TN-368) andSpodoptera littoralis (HPB-SL-26), ecdysone and 20-hydroxyecdysone cause a series of morphological changes: some cells aggregate, elongate and extend long thin processes. The extent and rapidity of changes are dose dependent, 20-hydroxy-ecdysone being much more active then ecdysone. The continuous cell lines ofS. littoralis (UIV-SL-573) andS. frugiperda (IPLB-SF-21) were much less responsive to the presence of the ecdysteroids.     

A cost-effective medium for the large-scale production of Bacillus sphaericus H5a5b (VCRC B42) for mosquito control

Bacillus sphaericus has been widely used in mosquito control programs, but the large-scale production of this bacterium is expensive because of the high cost of the medium. In this study, we attempted to develop a cost-effective medium, based on inexpensive, locally available raw materials including soybean flour (Glycine max) and peanut cake powder (Arachis hypogea) by using 100-l bioreactor. Sporulation, toxicity and biomass were satisfactory after B. sphaericus was produced on both media. Use of the soybean culture medium resulted in “maximum” toxicity (LC₅₀ 14.02 ng/ml against third instar Culex quinquefasciatus larvae), highest spore count (3.7 × 10⁹ spores/ml) and maximum biomass (4.6 g/l) within a short fermentation time of 21 h. Hence, this soybean-based culture medium was considered most economical for the large-scale industrial production of B. sphaericus.     

Acaricidal activity of the essential oil from Tetradenia riparia (Lamiaceae) on the cattle tick Rhipicephalus (Boophilus) microplus (Acari; Ixodidae)

Tetradenia riparia (Lamiaceae) is a well-known herbal medicine with a variety of useful properties, including its acaricidal effect. This experiment was carried out to study the bioacaricidal activity of T. riparia essential oil (EO) against engorged females of Rhipicephalus (Boophilus) microplus (Acari; Ixodidae). For this purpose, nine serial concentrations (12.50%, 6.25%, 3.75%, 1.80%, 0.90%, 0.45%, 0.22%, 0.11%, and 0.056% w/v) of T. riparia were used for the adult immersion test (AIT). For the larval packet test (LPT), we used 14 serial concentrations (100.00%, 50.00%, 25.00%, 12.50%, 6.25%, 3.65%, 1.82%, 0.91%, 0.45%, 0.228%, 0.114%, 0.057%, 0.028%, and 0.014% w/v). The results for AIT showed 100.00% and 2.05% mortality, 19.00 and 90.20% for the total number of eggs, egg-laying inhibition of 0.00% and 90.20%, hatchability inhibition of 0.00% and 70.23%, and product effectiveness of 100.00% and 2.89%, respectively. The AIT indicated that the LC₅₀ and LC_99.9, calculated using the Probit test, were for mortality (%) 0.534 g/mL (0.436–0.632) and 1.552 g/mL (1.183–1.92); for total number of eggs were 0.449 g/mL (0.339–0.558) and 1.76 g/mL (1.27–2.248); and for hatchability inhibition were 0.114 g/mL (0.0–0.31) and 2.462 g/mL (1.501–3.422), respectively. Larvae between 14 and 21 days old were fasted and placed in each envelope. Bioassays were performed at 27° ± 1 °C, RH ? 80%. Larval mortality was observed 24 h after treatment and showed 10.60–100% mortality in the LPT bioassay. The LPT showed that the LC₅₀ and LC_99.9 were 1.222 g/mL (0.655–1.788) and 11.382 g/mL (7.84–14.91), respectively. A positive correlation between T. riparia EO concentration and tick control, was observed by the strong acaricidal effects against R. (B.) microplus, and the mortality rate of ticks was dose-dependent. Our results showed that T. riparia is a promising candidate as an acaricide against resistant strains of R. (B.) microplus.     

Hymenopteran specificity of Bacillus thuringiensis strain PS86Q3

The biological activity of Bacillus thuringiensis (Bt) strain PS86Q3 against five Hymenopteran species was determined by means of bioassays adapted to each species. Four species of sawfly that are important pests of conifers (Diprion pini, Gilpinia hercyniae and Pristiphora abietina) or ornamental plants (Arge rosae), as well as the non-target honeybee, Apis mellifera, were studied. Two out of the four sawfly species tested were found to be sensitive to PS86Q3 crystals or spore/crystal suspensions. A sporulated culture of this strain was moderately active on D. pini, and a complete bioassay with solubilized crystals was performed to estimate the LC₅₀ of 4.9 mg/ml. Pristiphora abietina was also found to be sensitive to PS86Q3, with an LC₅₀ of 1.6 mg/ml. By contrast, at the concentrations tested, PS86Q3 did not prove active on the remaining sawflies, G. hercyniae and A. rosae. The strain was administered orally to check its effects on honeybees which were fed sucrose solutions supplemented with a PS86Q3 sporulated suspension, in a field assay using commercial beehives. No significant differences in larval mortality (as deduced by comparing the number of larvae, pupae and empty cells) were found between the Bt and control treatments. On the basis of the results presented here, the suitability of PS86Q3 for the control of Hymenopteran pests, particularly sawflies, in terms of both potency and environmental safety, is discussed.     

Screening of the insecticidal activity ofBacillus thuringiensis strains against the egyptian cotton leaf wormSpodoptera littoralis

A screening of the larvicidal activity of the more than 900 strains ofBacillus thuringiensis strains, combining the Institut Pasteur collection was realized. A quick bioassay using 1st instar larvae and semi-synthetic medium was developed. Many strains were toxic toSpodoptera littoralis, but only a few belonging mainly to serovarsaizawai, kenyae andentomocidus showed high level of toxicity. The profiles of strain activities differed from serovar to serovar, but within the same serovar toxicity can vary with different strains. Oneaizawai strain tested in the field gave satisfactory results, better than a commercially used strain, tested in the same experiment.

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Résumé Le criblage de notre collection deB. thuringiensis (plus de 900 souches) a été effectué contreSpodoptera littoralis. Une technique rapide de bioessai utilisant des chenilles néonates et un milieu semisynthétique a été mise au point. Beaucoup de souches se sont montrées actives à forte dose, mais seulement quelques-unes appartenant principalement aux sérovaraizawai etkenyae à doses plus faibles. Les différents sérotypes ont un profil d'activité différent mais un même sérotype peut comprendre des souches de toxicité variée. Une souche du sérovaraizawai a été testée en champs et a donné de bons résultats, son activité ayant été évaluée à environ 5 fois celle d'une souche couramment commercialisée.

     

Response of the Carrot Weevil,Listronotus oregonensis(Coleoptera: Curculionidae), to Strains ofBacillus thuringiensis

Mortality and frass production bioassays were used to investigate the toxicity of seven strains ofBacillus thuringiensisagainst the adult carrot weevil,Listronotus oregonensis(Le Conte). A semi-artificial diet of carrot foliage with 4% agar was selected to maximize feeding by the insects.Bacillus thuringiensissubsp.tenebrionis(Krieg, Huger, Langenbruch, and Schnetter) (BTT) and two unidentifiedB. thuringiensisstrains, A30 and A429, gave the lowest LC₅₀values. The frass bioassay supported the conclusions of the mortality assay. Mortality of adults continued after their removal from the insecticidal medium, with the highest mortality being caused by strains A429 and BTT. Survivors from the frass bioassay, initially exposed to strains A30, A429, and BTT, did not resume normal levels of feeding after their removal from the insecticidal medium.     

Acetylene reduction and indoleacetic acid production by Azospirillum isolates from Cactaceous plants

Azospirillum isolates were obtained from rhizosphere soil and roots of three cactaceae species growing under arid conditions. All Azospirillum isolates from rhizosphere and roots ofStenocereus pruinosus andStenocereus stellatus were identified asA. brasilense; isolates of surface-sterilized roots fromOpuntia ficus-indica were bothA. brasilense andA. lipoferum. Azospirilla per g of fresh root in the three species ranged from 70×10³ to 11×10³. The most active strains in terms of C₂H₂ reduction (25–49.6 nmol/h·ml) and indoleacetic acid (IAA) production (36.5–77 μg/ml) were those identified asA. brasilense and isolated from Stenocereus roots.A. lipoferum isolated from Opuntia roots produced low amounts of IAA (6.5–17.5 μg/ml) and low C₂H₂-reduction activity (17.8–21.2 nmol/h·ml).     

The effect of oxygen tension on the production of Bacillus thuringiensis subsp. israelensis toxin active against Aedes aegypti larvae

An optimized batch production of Bacillus thuringiensis subsp. israelensis was made in a stirred Bioflo III reactor using a previously selected medium, and operating conditions in the range of 100–500 rev/min stirrer speeds and 0.2–1 air flow/culture medium volume/minute (v/v/m) aeration rates, including five combinations; at the end of fermentation, dry powders were recovered and evaluated against Aedes aegypti larvae at 0.05 mg/l. Later, the lethal concentration inducing 50% mortality (LC₅₀) was determined for the two most toxic powders. The bioinsecticide yields varied from 9.1 to 15.7 g/l and the total fermentation times ranged between 18 and 30.3 h. The toxicity varied for two powders much more than for the others. These were for combinations with 300 rev/min:1 v/v/m and 500 rev/min:0.6 v/v/m, giving mortality percentages of 47.2 and 59.7, with LC₅₀ values of 0.2675 and 0.0685 mg/l, respectively. A t test showed no significant difference. However, the larvicidal powder produced with 300 rev/min:1 v/v/m gave more variable toxicity than the powder obtained with 500 rev/min:0.6 v/v/m.     

Seasonal variation in antifouling activity of crude extracts of the brown alga Bifurcaria bifurcata (Cystoseiraceae) against cyprids of Balanus amphitrite and the marine bacteria Cobetia marina and Pseudoalteromonas haloplanktis

Previous studies have demonstrated that macroalgae from Brittany (France) contain products with antifouling activity against marine bacteria, fungi, diatoms, seaweeds and mussels. Little is known regarding the ecological function of these compounds and insufficient attention has been paid to evaluating the possible temporal variation in antifouling activity. Studies of chemical defenses in both terrestrial and marine organisms suggest that organisms vary widely in the production of chemical defenses associated with physical (temperature, light) and biological (e.g. grazing pressure) factors, season and geographical location. The present study aimed to investigate the antifouling activity of crude extracts of monthly collections of the brown alga, Bifurcaria bifurcata, against two marine bacteria, Cobetia marina and Pseudoalteromonas haloplanktis, and cypris larvae of the barnacle, Balanus amphitrite. The toxicity of the extracts was determined with a B. amphitrite nauplius assay.The antimicrobial activity of the extracts was found to be subject to seasonal variation, with the highest level of activity recorded from samples collected between April and September. Results of the anti-settlement experiments showed that the extracts of B. bifurcata (when tested from 0 to 100 μg/ml) can be divided into three groups on the basis of their minimum inhibitory concentrations (MICs): (1) extracts from plants collected from September to March reduced settlement at nontoxic concentrations (50-100 μg/ml); (2) extracts from plants collected from April to July (which were the most active extracts) reduced settlement significantly when tested at >5 μg/ml, but were toxic at 100 μg/ml; (3) the extract prepared from plants harvested in August was inhibitory at >25 μg/ml, but was toxic at 100 μg/ml. Toxicity tests on nauplii showed that LC₅₀ values of samples from the September to March collections were >100 μg/ml, demonstrating that they were nontoxic to nauplii. In contrast, samples obtained from the April to August collections were toxic to nauplii; the most toxic ones being from algae collected in May (LC₅₀=55.6 μg/ml) and in June (LC₅₀=38.3 μg/ml).The antifouling activity of extracts thus reached a peak in summer corresponding to maximal values for water temperature, light intensity and fouling pressure. It remains to be investigated whether this activity has an ecological role in the alga.     

Susceptibility of tobacco blue mould (Peronospora hyoscyami) to metalaxyl

The lethal dose (LC₅₀) of metalaxyl for a wild isolate of Peronospora hyoscyami f. sp. tabacina was determined using a bioassay. Infection levels were recorded using 5-wk-old tobacco seedlings that had been treated with foliar sprays of metalaxyl (Ridomil®) 24 h prior to inoculation. Plants were maintained in a controlled environment cabinet. LC₅₀ estimates determined by probit analysis of the data from three independent experiments ranged between 0–46 and 0–58 μg/ml. Pooling the results for all three experiments, probit analysis gave a slope of 8·733 (S.E. 0·805) with an LC₅₀ of 0·51 μg/ml (95% fiducial limits 0·45, 0·57). This determination will be useful as a guide to future monitoring of P. hyoscyami for resistance to metalaxyl.     

Chemical modification of Bacillus thuringiensis subsp. thuringiensis (HD-524) trypsin-activated endotoxin: implication of tyrosine residues in lepidopteran cell lysis

A purified protein fraction from a solubilized and trypsin-digested extract of Bacillus thuringiensis subsp. thuringiensis (HD-524) fermentation powder was lytic to cells from several lepidopteran lines. Maximum yield was obtained by alkaline carbonate-thiocyanate solubilization of washed powder followed by trypsin digestion and Sephacryl (S-300) chromatography. The alkaline carbonate-solubilized fraction consisted predominantly of two bands on sodium dodecyl sulfate-polyacrylamide gel electrophoresis with MW of 144 +/- 0.9 kDa and 134 +/- 1.4 kDa. After trypsin treatment and column chromatography, the cytolytic fraction consisted of a major band with a MW of 60.0 +/- 1.8 kDa and a minor band of 69 +/- 0.9 kDa. Cells from Trichoplusia ni (TN368) were most susceptible to lysis with 50% of cells lysed at 3 micrograms/ml, followed by Spodoptera frugiperda cells (SF21AE) exhibiting 50% cell lysis at 5 micrograms/ml and Lymantria dispar cells (Ld652Y) showing 40% lysis at 10 micrograms/ml. Chemical modification of the polypeptides was performed to determine the role of certain amino acid residues in the cytolytic activity. The group-specific reagent tetranitromethane was used to nitrate and oxidize tyrosine and cysteine residues, respectively. Cysteine residues alone were also modified with p-hydroxymercuribenzoic acid. Lysine residues were modified with O-methylisourea. Of the three types of amino acid residues, only the modification of tyrosine resulted in reduced cell lysis.     

Biological Control of Postharvest Diseases of Apple and Pear under Semi-commercial and Commercial Conditions Using Three Saprophytic Yeasts

The yeastsCryptococcus laurentii(strain HRA5),Cryptococcus infirmominiatus(strain YY6), andRhodotorula glutinis(strain HRB6) were tested as biocontrol agents of postharvest diseases of apple and pear in semi-commercial and commercial trials. The yeasts effectively controlled decay when applied in a drench or line spray. The yeasts were not adversely affected when treated fruits were stored in a controlled atmosphere consisting of 1% oxygen and 99% nitrogen. In a commercial trial, the most effective treatments for control of blue mold of pear were a combination ofC. laurentiiandC. infirmo-miniatus(91% control) and the commercially recommended high rate (528 μg/ml) of thiabendazole (88% control). In the commercial apple trial, the most effective treatments for blue mold wereC. infirmo-miniatuscombined with 264 μg/ml thiabendazole (91% control),C. infirmo-miniatuscombined withC. laurentii(84% control), and thiabendazole alone at 528 μg/ml (79% control). The combination ofC. laurentiiwith 264 μg/ml of thiabendazole was significantly more effective for control of blue mold on pear than thiabendazole at 528 μg/ml whenever any thiabendazole-resistant spores were present in the inoculum.