In vitro effects of water activity, temperature and solutes on the growth rate of P. italicum Wehmer and P. digitatum Sacc

AIMS: To evaluate the effect of water activity (a(w) 0.98-0.89, adjusted with glycerol, sorbitol, glucose, or NaCl) and temperature (5-25 degrees C) on the lag phase and radial growth rate (mm day(-1)) of the important citrus spoilage fungi, such as Penicillium italicum and Penicillium digitatum grown in potato dextrose agar (PDA) medium. To select, among models based on the use of different solutes, a model fitting accurately the growth of these species in relation to a(w) and temperature. METHODS AND RESULTS: Extensive data analyses showed for both Penicillium species a highly significant effect of a(w), temperature, solutes and their interactions on radial growth rate (P < 0.0001). Radial growth rate was inhibited and the lag phase (i.e. the time required for growth) lengthened as the a(w) of the medium decreased. NaCl appeared to causes the greatest stress on growth when compared with other nonionic solutes. Penicillium italicum stopped growing at 0.96 a(w) and P. digitatum at 0.93 a(w). Under the dry conditions where growth was observed, P. italicum grew faster than P. digitatum at low temperature and P. digitatum remained more active at ambient temperature. Multiple regression analysis applied to the square roots of the growth rates observed in the presence of each solute showed that both the 'glycerol model' and the 'sorbitol model' yielded a good prediction of P. italicum growth and the 'sorbitol model' gave an accurate fit for P. digitatum growth, offering high-quality prediction within the experimental limits described. CONCLUSIONS: Mathematical models describing and predicting, as a function of a(w) and temperature, the square root of the radial growth rate of the agents responsible for blue and green decays are important tools for understanding the behaviour of these fungi under natural conditions and for predicting citrus fruit spoilage. SIGNIFICANCE AND IMPACT OF THE STUDY: Implementation of these results should contribute towards a more rational control strategy against citrus spoilage fungi.     

Ecological determinants for germination and growth of some Aspergillus and Penicillium spp. from maize grain

This study compared the effect of temperature (5-45 degrees C), water availability (water activity, aw; 0.995-0.75) and their interactions on the temporal rates of germination and mycelial growth of three mycotoxigenic strains of Aspergillus ochraceus and one isolate each of A. flavus, A. niger, Penicillium aurantiogriseum and P. hordei in vitro on a maize extract medium. Germination was very rapid at > 0.90 aw with an almost linear increase with time for all species. However, at < 0.90 aw, the germination rates of A. flavus and P. hordei were slower. The aw minima for germination were usually lower than for growth and varied with temperature. The effect of aw x temperature interactions on the lag phases (h), prior to germination, and on the germination rates (h(-1)), were predicted for the first time for these fungi using the Gompertz model modified by Zwietering. This showed that A. flavus, A. niger and the two Penicillium spp. had very short lag times between 0.995-0.95 aw over a wide temperature range. At marginal temperatures, these were significantly higher, especially at < 10 degrees C for Aspergillus spp. and > 30 degrees C for Penicillium spp. There were also statistically significant differences between lag phases and germination rates for three different isolates of A. ochraceus. The Aspergillus spp. also germinated faster than the Penicillium spp. The temperature x aw profiles for mycelial growth varied considerably between species, both in terms of rates (mm d(-1)) and tolerances. Predictions of the effects of important environmental factors such as temperature, aw and their interactions on lag times to germination, germination rates and mycelial growth are important in the development of hurdle technology approaches to predicting fungal spoilage in agricultural and food products.     

枯草芽孢杆菌防治柑桔青绿霉病初报

室内平皿抑菌测定和果实处理试验初步结果表明,枯草芽孢杆菌对柑桔青绿霉具有较强的抑菌作用,能减少果实贮藏过程中病害的发生。     

Efficacy assessment of Candida oleophila (strain O) and Pichia anomala (strain K) against major postharvest diseases of citrus fruits in Morocco

Two yeasts, Candida oleophila (strain O) and Pichia anomala (strain K), were previously selected for their antagonistic activity against postharvest diseases on apples and pears. The objective of the study was to determine the efficacy of both antagonistic yeast's against wound postharvest pathogens of citrus fruits. The efficacy of both strains (applied at 10(5), 10(6) and 10(8) CFU/ml) was assessed against Penicillium digitatum and P. italicum inoculated after one hour (at a concentration of 10(5), 10(6) and 10(7) spores/ml) on citrus varieties 'clementine' and 'valencia-late'. Fruits were incubated for one week at 24 degrees C before measurement of lesion diameter. The protective levels were positively correlated with high concentration of antagonist and low concentration of pathogen. Highest protective levels (from 73 to 100%) were detected with the application of strain O or strain K at 10(8) CFU/ml whatever the pathogen (applied at 10(5) spores/ml) and the citrus variety. The antagonistic activity of both strains was also dependent on the incubation period before pathogen Inoculation. The protective level increased with time between application of the antagonist and inoculation of fungal spores. Whatever the yeast strain (10(8) CFU/ml). the protective level exceed 70% when wounded oranges were inoculated with P. digitatum or P. italicum (both at 10(6) spores/ml) 12 hours after yeast treatment. These protective levels reached 100% when the incubation period separating the antagonist application and the pathogenic inoculation was 24 hours. On the other hand, high protective levels (< 80%) were also observed against the sour rot decay on citrus variety 'clementine' caused by Geotrichum candidum inoculated at concentration of 10(6) spores/ml when strain O or strain K were applied at 10(8) CFU/ml 24 hours before pathogen. All these results support the potential practical application of both strains against major postharvest pathogens on citrus.     

An ecological interaction between citrus fruit, Penicillium moulds and Drosophila immigrans Sturtevant (Diptera: Drosophilidae)

Abstract. 1. Potential Drosophila breeding sites were collected from a fruit market, and the adults allowed to emerge from them.
2. D.immigrans and D.melanogaster were the species with the highest frequency of emergences from citrus fruit.
3. D.immigrans was especially associated with citrus fruits infected with Penicillium italicum or P.digitatum , two specialist moulds of citrus. D.melanogaster was more often found in uninfected fruit.
4. In the laboratory D.immigrans larvae survived better than D.melanogaster larvae on Penicillium-infected citrus fruit.
5. These adaptations suggest that D.immigrans may have originally evolved as a citrus specialist, becoming a domestic species as these fruits were exploited commercially.     

Water activity and temperature effects on germination and growth of Eurotium amstelodami, E. chevalieri and E. herbariorum isolates from bakery products

This study investigated the effect of temperature (5-30 degrees C), water activity (0.775-0.90 aw) and their interactions on the temporal rates of germination and mycelial growth of three species of Eurotium on flour wheat sucrose medium. Germination was quite rapid at aw >0.85, with an almost linear increase with time for all isolates. However, under more extreme water stress, germination was slower. The aw minima for germination were usually lower than those for growth and varied with temperature. The effect of aw x temperature interactions on the lag phases (h) prior to germination and on the germination rates (h-1) were predicted using the Gompertz model modified by Zwietering. Eurotium spp. had shown short lag times at 0.90 aw over a wide range of temperatures. At marginal temperatures, lag phases were significantly longer, especially at >15 degrees C. The temperature x aw profiles for mycelial growth varied between species in terms of rates (mm d(-1)). Predictions of the effect of important environmental factors, such as temperature, aw and their interactions on lag times to germination, germination rates and mycelial growth, are important in the development of hurdle technology approaches to predict fungal spoilage in food products.     

In vitro studies on the effect of some chemicals on the growth and sporification of Penicillium digitatum and P. italicum

The behaviour of Penicillium digitatum and P. italicum was investigated when subjected to different concentrations of methanol (MeOH) and dimethyl sulfoxide (DMSO). The experiments were performed in 9 cm Petri dishes containing PDA amended with 0, 5, 10, 20, 30, 40 or 50 microL/mL of each of the single or combined chemicals. Daily, the formed colonies (cfu), the colony diameter and the degree of sporification were monitored during incubation at 20 degrees C for 5 day. Additionally, the pathogen development and its performance were studied by scanning electron microscopy (SEM). According to the chemical, the mycelium growth rate was affected differently and, compared to the control, only MeOH inhibited the expansion of the colony diameter. This effect was more pronounced for P. italicum. A nearly linear drop of cfu was observed as the concentration of the two chemicals was raised, and a complete inhibition of the two pathogens was attained with 50 microL/mL MeOH. With respect to the sporification degree the two pathogens were influenced similarly, but the tested compounds had opposite effects. Indeed, with MeOH, sporification took place earlier (24-36 h postinoculation) compared to the control (60 h), while during the whole experiment, DMSO at concentrations higher than 0.5 microL/mL, drastically inhibited the sporification. SEM observations of P. digitatum growth on DMSO amended media evidenced a marked increase of mycelium branching and alterations to the conidiophore, while MeOH reduced the mycelium length and fastened the conidiophore formation. The combination of the two compounds produced a synergistic interaction reducing by 40% the concentration required to inhibit completely the germination and growth of P. digitatum.     

一株祼脚菇属菌株产抗菌活性物的基础液体培养碳、氮源等优化及其对柑橘青绿霉菌的作用

江西是柑橘类水果的主要产区之一,青绿霉菌是导致柑橘采后腐烂的主要病害,化学杀菌剂可产生病原抗药性和残留,一株具有拮抗此病菌的祼脚菇属菌株0612-9被发现。为了探索其产活性物质的代谢培养和活性作用,采用菌丝生长速率法和显微观察法测定了其抗菌活性,单因素试验、Plackett-Burman、最陡爬坡试验和Box-Behnken试验响应面设计等优化出液体培养基组成和培养条件。结果显示:液体培养基组成和培养条件为:马铃薯279.94g/L,葡萄糖30g/L,麸皮8.87g/L,MgSO₄·7H₂O 0.47g/L,KH₂PO₄ 2g/L,发酵周期10d,接种量5 ml/100 ml,转速180 r/min,摇床温度26℃,装液量100ml/250ml,发酵液抗病菌活性从42.26%提高到55.77%。对意大利青霉和指状青霉的EC₅₀分别为69.25g/L和56.70g/L,最小杀菌浓度250μg/ml低于阳性对照物抑霉唑的500μg/ml,并且对病原菌菌丝体有一定的毒害作用。该祼脚属菌株有潜在开发成柑橘采后保鲜剂的价值。     

Identification and characterization of a hexapeptide with activity against phytopathogenic fungi that cause postharvest decay in fruits

A hexapeptide of amino acid sequence Ac-Arg-Lys-Thr-Trp-Phe-Trp-NH2 was demonstrated to have antimicrobial activity against selected phytopathogenic fungi that cause postharvest decay in fruits. The peptide synthesized with either all D- or all L-amino acids inhibited the in vitro growth of strains of Penicilium italicum, P. digitatum, and Botrytis cinerea, with MICs of 60 to 80 microM and 50% inhibitory concentration (IC50) of 30 to 40 microM. The inhibitory activity of the peptide was both sequence- and fungus-specific since (i) sequence-related peptides lacked activity (including one with five residues identical to the active sequence), (ii) other filamentous fungi (including some that belong to the genus Penicllium) were insensitive to the peptide's antifungal action, and (iii) the peptide did not inhibit the growth of several yeast and bacterial strains assayed. Experiments on P. digitatum identified conidial germination as particularly sensitive to inhibition although mycelial growth was also affected. Our findings suggest that the inhibitory effect is initially driven by the electrostatic interaction of the peptide with fungal components. The antifungal peptide retarded the blue and green mold diseases of citrus fruits and the gray mold of tomato fruits under controlled inoculation conditions, thus providing evidence for the feasibility of using very short peptides in plant protection. This and previous studies with related peptides indicate some degree of peptide amino acid sequence and structure conservation associated with the antimicrobial activity, and suggest a general sequence layout for short antifungal peptides, consisting of one or two positively charged residues combined with aromatic amino acid residues.     

Biocontrol of mold growth in high-moisture wheat stored under airtight conditions by Pichia anomala, Pichia guilliermondii, and Saccharomyces cerevisiae.

Pichia anomala inhibits the growth of Penicillium roqueforti and Aspergillus candidus on agar. In this investigation, antagonistic activity on agar against 17 mold species was determined. The abilities of Pichia anomala, Pichia guilliermondii, and Saccharomyces cerevisiae to inhibit the growth of the mold Penicillium roqueforti in nonsterile high-moisture wheat were compared by adding 10(3) Penicillium roqueforti spores and different amounts of yeast cells per gram of wheat. Inoculated grain was packed in glass tubes, incubated at 25 degrees C with a restricted air supply, and the numbers of yeast and mold CFU were determined on selective media after 7 and 14 days. Pichia anomala reduced growth on agar plates for all of the mold species tested in a dose-dependent manner. Aspergillus fumigatus and Eurotium amstelodami were the most sensitive, while Penicillium italicum and Penicillium digitatum were the most resistant. Pichia anomala had the strongest antagonistic activity in wheat, with 10(5) and 10(6) CFU/g completely inhibiting the growth of Penicillium roqueforti. Inhibition was least pronounced at the optimum temperature (21 degrees C) and water activity (0.95) for the growth of Penicillium roqueforti. Pichia guilliermondii slightly reduced the growth of Penicillium roqueforti in wheat inoculated with 10(5) and 10(6) yeast CFU/g. S. cerevisiae inhibited mold growth only weakly at the highest inoculum level. Pichia anomala grew from 10(3) to 10(7) CFU/g of wheat in 1 week. To reach the same level, Pichia guilliermondii had to be inoculated at 10(4) CFU while S. cerevisiae required an inoculum of 10(5) CFU to reach 10(7) CFU/g of wheat.     

高压静电场(HVEF)对柑桔青、绿霉病菌的抑制效果

用高压静电场(HVEF)对柑桔青霉菌 (P.italicum )和绿霉菌 (P.digitatum)分别进行了不同时间和方法的处理 ,以比较这些处理对病菌孢子在不同温度下萌发力和致病力的抑制效果。结果表明 ,HVEF处理后病菌孢子的萌发率、芽管长度和产孢量都显著地低于对照。而且处理时间越长 ,效果越明显。处理的孢子接种在柑桔果实上的感病率也显著低于对照 ,并能有效地抑制感病果实病斑的扩展。     

Effect of water activity and temperature on competing abilities of Penicillium oxalicum against Fusarium oxysporum

The in vitro effect of water activity (0.995, 0.98, 0.95, 0.90 and 0.85) and temperature (25 and 15 degrees C) on competing abilities of the biocontrol agent Penicillium oxalicum against Fusarium oxysporum fsp. lycopersici, a tomato pathogen, and Fusarium oxysporum fsp. gladioli, a gladiolus pathogen, was evaluated. The aim of this study was to assess the suitability of P. oxalicum to be applied as a biocontrol agent against these phytopathogenic fungi. Plates were inoculated in two points with P. oxalicum and one of the Fusarium species. Two different approaches were taken into account: the growth rate of each isolate and the Dominance Index (ID). P. oxalicum showed higher growth rates under most of the conditions tested except for 0.995 aw at both temperatures and at 0.98 and 15 degrees C. Similarly, P. oxalicum was dominating at 25 degrees C and < or = 0.95 aw, and at 15 degrees C and < or = 0.90 aw, while under the other conditions studied, mutual inhibition situations were found. This indicates a high ability of this species to successfully compete over a wide range of conditions and consequently the potential of P. oxalicum as a biocontrol agent against these Fusarium species.     

Evaluation of three essential oils as potential sources of botanical fungicides

In previous study, thirty essential oils were evaluated in vitro against two citrus pathogens namely Penicillium italicum Wehmer and Penicillium digitatum Sacc. Essential oils of Cinnamomum zeylanicum, Cinnamomum verum and Eugenia caryophyllus were selected because of their high inhibitory activities against both pathogens. The present study was undertaken to evaluate the in vivo activity of these essential oils. Fresh orange fruits were wounded and treated with different concentrations of essential oil (0.5, 1, and 5%) before being infected at the wound site with conidia suspensions of the tested pathogens. When applied at 5%, essential oils tested controlled totally the infections. Among the three essential oils tested, C. zeylanicum seems particularly interesting because of its high protection activity at 1% compare to the others. It reduced the disease incidence from 40 to 70% and the disease severity from 65 to 82%. Moreover no visible damage burn induced on the orange cuticle or skin was observed up to 5% of essential oil. These results strengthen the potential use of essential oils in postharvest disease management of citrus fruit as alternative to chemical fungicides.     

Evaluation of production of some antifungal metabolites by fluorescent pseudomonads in vitro and their inhibitory effect on Penicillium digitatum in semi-commercial condition

Epiphytic fluorescent Pseudomonads isolated from the surfaces of citrus leaves and fruits collected from the citrus orchards located in the north of Iran were screened for antagonistic activity against Penicillium digitatum caused agent of green mold of citrus fruit. 9 isolates revealed antagonistic effect in dual culture and then evaluated for production of antimicrobial metabolites such as production hydrogen cyanide on King's B medium containing glycine, production of siderophore on blue CAS-agar medium and production protease enzyme on Skim Milk Agar (SMA) medium. About 28% strains produced hydrogen cyanide, 83% strains produced siderophore and 70% of them produced protease. Antagonistic effects of the screened 9 isolates were studied by inoculating of the infected orange fruits with the bacterium at the concentration of 10(8) cells/ml under sterilized condition at 20 degrees C. The three final screened antagonist isolates were more studied in semi commercial trails in cold storage with dipping of the orange fruits in the bacterial suspension at the concentration of 10(8) cells/ml and then 5 weeks storage at 4 degrees C. The isolate P39 showed to be the most effective for controlling of this disease and decreased the damage by 77.28% respectively.     

Identification and characterization of chitin synthase genes in the postharvest citrus fruit pathogen Penicillium digitatum

In this study, we carried out the isolation and characterization of chitin synthase genes (CHS) of the main citrus fruit postharvest pathogen Penicillium digitatum. Using distinct sets of degenerate primers designed from conserved regions of CHS genes of yeast and filamentous fungi, PCR methods, and a DNA genomic library, five putative CHS genes (PdigCHSI, PdigCHSII, PdigCHSIII, PdigCHSV, and PdigCHSVII) were identified, isolated, sequenced, and characterized. Phylogenetic analyses, sequence identity, and domain conservation support the annotation as CHS. A very high sequence identity and strong synteny were found with corresponding regions from the genome of Penicillium chrysogenum. Gene expression of P. digitatum CHS genes during mycelium axenic growth, under oxidative and osmotic stress conditions, and during infection of citrus fruits was confirmed and quantified using quantitative RT-PCR (qRT-PCR). PdigCHSIII had the highest expression among the five genes by one order of magnitude, while PdigCHSII had the lowest. However, PdigCHSII was strongly induced coincident with conidial production, suggesting a role in conidiogenesis. The expression of PdigCHSI, PdigCHSIII, PdigCHSV, and PdigCHSVII was upregulated during infection of citrus fruit. PdigCHSV and PdigCHSVII coexpressed in most of the experiments carried out, and they are separated by a 1.77 kb intergenic region and arranged in opposite directions.     

Effect of package and storage conditions on viability and efficacy of the freeze-dried biocontrol agent Pantoea agglomerans strain CPA-2

AIMS: To reduce concentrations of protective and rehydrating media and to evaluate the effect of storage temperature, packaging and atmosphere conditions on the stability of freeze-dried Pantoea agglomerans cells. Efficacy against Penicillium digitatum of freeze-dried cells in orange fruits was also evaluated. METHODS AND RESULTS: Several concentrations of protective and rehydration media were tested to reduce processing costs. Freeze-dried cells were packed in glass vials or plastic bags under vacuum or nitrogen conditions at 4 and 25 degrees C. After 1 and 3 months, efficacy of freeze-dried P. agglomerans against P. digitatum was tested. CONCLUSIONS: The results indicate that it is possible to reduce the concentration of non-fat skimmed milk as a rehydration medium from 10% to 1%, maintaining viabilities of 100%. Moreover, freeze-dried cells could be stored in glass vials or in high barrier plastic bags at 4 degrees C for 3 months while maintaining high viabilities and efficacy against P. digitatum. SIGNIFICANCE AND IMPACT OF THE STUDY: The major obstacle in the commercialization of biocontrol products is the development of a shelf-stable formulated product that retains biocontrol activity at a level similar to that of fresh cells. This study suggests that it is possible to maintain viability and efficacy of freeze-dried P. agglomerans cells for at least 3 months.     

Properties of a polygalacturonase-inhibiting protein isolated from 'Oroblanco' grapefruit

Polygalacturonase inhibiting protein (PGIP) was extracted from 'Oroblanco' grapefruit type (triploid pummelo-grapefruit) albedo tissue, purified and partially characterized. Extraction was carried out at 4°C with a high ionic strength extraction buffer. After dialysis and concentration by ultrafiltration the extract was chromatographed on concanavalin A-Sepharose. The PGIP activity was bound by the lectin and then eluted using 250 m M α -methyl mannopyranoside, resulting in a 17-fold purification of the PGIP and demonstrating its glycoprotein nature. The anion-exchange and size-exclusion chromatography steps that followed gave a PGIP that was 857-fold purified relative to the initial tissue extract, and having a 44 kDa molecular weight, as estimated by SDS-PAGE electrophoresis. PGIP inhibition activity was tested with endo-polygalacturonase (EC 3.2.1.15) produced by Penicillium italicum and Botrytis cinerea . The radial diffusion and reducing sugar assays showed that P. italicum and B. cinerea endo-PGs were affected by PGIP, whereas no endo-PG activity was detected in the culture filtrate of P. digitatum. In vitro tests revealed that PGIP inhibited P. italicum and B. cinerea growth. By contrast, the influence of PGIP on P. digitatum , growth was negligible, perhaps because this fungus does not produce endo-PG. Following heating for 10 min at 65°C the inhibitory activity of PGIP was reduced by 43%. PGIP activity decreased further as heating temperature increased, and was completely suppressed after heating at 100°C for 10 min.     

Green mould of oranges caused by Penicillium digitatutn Sacc.; effect of additives on spore germination and infection

Water extracts of rind, essential oil and juice from oranges, also citrus pectin and citric acid promoted the formation of lesions when spores of Penicillium digitatum were placed in wounds 1·0 mm deep in flavedo of oranges; fructose, glucose and sucrose had little effect. Rind extracts were less effective in wounds 0·5 mm deep but orange juice and pectin still increased infection. None of the substances allowed the parasite to infect fruit through unwounded surfaces. Germination of spores in water increased as spore concentration decreased but was poor even at low concentrations. Almost all spores germinated in aqueous extracts of flavedo, albedo or whole rind, or in wounds on the surface of fruit. Fructose, glucose, sucrose and xylose were less effective but still caused over two-thirds of spores to germinate but only in the presence of phosphate buffer. Without buffer, germination was little different from that in water. Arabinose and galactose stimulated germination to a lesser extent but with the same phosphate effect. Carboxymethylcellulose and pectin did not affect germination. A variety of substances containing nitrogen increased germination but to different degrees, decreasing in the order, casamino acids, yeast extract, ammonium salts, nitrate. Thiamin and to a lesser extent biotin were also effective. Volatile substances from rind infected with P. digitatum stimulated spore germination and growth of germ tubes. The significance of these results is discussed in relation to infection.     

Effect of temperature on spore germination and vegetative cell growth of Clostridium botulinum.

Spore germination and vegetative growth of Clostridium botulinum type E strain VH at 2 to 50 degrees C were studied. At all of these temperatures, germination began immediately after the addition of the spores to the germination medium. Microscopic observations during germination revealed three types of spores: phase bright (ungerminated), phase variable (partially germinated), and phase dark (fully germinated). At all temperatures except 50 degrees C, there was a pronounced lag between the initial appearance of phase-variable spores and their eventual conversion to phase-dark spores. The number of partially germinated spores increased steadily, reaching 40 to 60% by 18 to 21 h of incubation. During this time, phase-dark, fully germinated spores developed slowly and did not exceed 28% in any of the samples. At 18 to 26 h of incubation, the rate of full germination increased abruptly four-fold. There was extensive and relatively rapid germination at 2 degrees C, the lowest temperature tested, yielding about 60% phase-variable spores by 18 h, which became phase-dark by 26 h of incubation. The optimum temperature for partial and full germination was consistently 9 degrees C. Germination at 50 degrees C was exceptionally rapid and was completed within 1 to 2 h, although 40% remained phase bright. Vegetative cells showed detectable growth at 6 to 41 degrees C, with a distinct optimum at 32.5 degrees C. No growth occurred at 50 degrees C, and only marginal growth was observed at 6 to 14 degrees C. The psychrophilic nature of the germination process coupled with the cold tolerance of vegetative growth appears to give C. botulinum type E an advantage in cold climates as well as in cold-stored foods.     

High-strength wastewater treatment using microbial biofilm reactor: a critical review

World Journal of Microbiology and Biotechnology - Natural products extracted from plants are an alternative method for controlling postharvest citrus blue mold, caused by Penicillium italicum (P....