Botrytis fabiopsis, a new species causing chocolate spot of broad bean in central China

The current study was conducted to identify Botrytis spp. isolated from symptomatic broad bean plants grown in Hubei Province, China. Among 184 Botrytis strains, three distinct species, B. cinerea, B. fabae and a previously undescribed Botrytis sp., were identified based on morphology of colonies, sclerotia and conidia. The novel Botrytis sp. is described herein as a new species, Botrytis fabiopsis sp. nov. At 20 C B. fabiopsis grew on potato dextrose agar (PDA) at 12-13 mm d(-1), similar to B. fabae (13 mm d(-1)), but slower than B. cinerea (17-19 mm d(-1)). It formed pale gray colonies with short aerial mycelia and produced gray to black sclerotia in concentric rings on PDA. B. fabiopsis produced greater numbers of sclerotia than B. cinerea but fewer than B. fabae. Conidia produced by B. fabiopsis on broad bean leaves are hyaline to pale brown, elliptical to ovoid, wrinkled on the surface and are larger than conidia of B. fabae and B. cinerea. Phylogenetic analysis based on combined DNA sequence data of three nuclear genes (G3PDH, HSP60 and RPB2) showed that B. fabiopsis is closely related to B. galanthina, the causal agent of gray mold disease of Galanthus sp., but distantly related to B. fabae and B. cinerea. Sequence analysis of genes encoding necrosis and ethylene-inducing proteins (NEPs) indicated that B. fabiopsis is distinct from B. galanthina. Inoculation of broad bean leaves with conidia of B. fabiopsis caused typical chocolate spot symptoms with a similar disease severity to that caused by B. fabae but significantly greater than that caused by B. cinerea. This study suggests that B. fabiopsis is a new causal agent for chocolate spot of broad bean.     

The potential biocontrol agent Pseudomonas antimicrobica inhibits germination of conidia and outgrowth of Botrytis cinerea

AIMS: Antifungal metabolites of Pseudomonas antimicrobica have previously been shown to inhibit conidial germination of the grey mould pathogen Botrytis cinerea. In this study, metabolites of the bacterium have been tested at different stages of Botrytis germination to determine their effects on germ tube production and extension. METHODS AND RESULTS: Metabolites were added to conidia that had been pre-incubated for either 120 or 255 min. Pseudomonas antimicrobica inhibited B. cinerea conidial germination and caused a significant reduction in germ tube extension, irrespective of the stage of germination. Abnormal germination and a reduction in the frequency of lateral branching of the germ tubes in the presence of the metabolites were also reported, suggesting interference with normal hyphal development. CONCLUSION: The bacterium can inhibit germination of conidia and extension of germ tubes at different stages of Botrytis development. SIGNIFICANCE AND IMPACT OF THE STUDY: The antagonistic activity of the bacterium has promising implications for its use as a biocontrol agent.     

Mode of antagonism of Brevibacillus brevis against Botrytis cinerea in vitro

AIMS: To assess the activity of Brevibacillus brevis (formerly Bacillus brevis) Nagano and the antibiotic it produces, gramicidin S, against the plant pathogen Botrytis cinerea. METHODS AND RESULTS: Germination and growth of Bot. cinerea were assessed in the presence of B. brevis or gramicidin S in liquid media, on solid media and on leaf sections of Chinese cabbage. Germination was 10-fold more sensitive to gramicidin S than growth. Inhibition of Bot. cinerea was greater in liquid media compared with on solid media. Activity of gramicidin S against Bot. cinerea on leaf sections was much lower than in vitro. In vitro inhibition of Bot. cinerea by B. brevis Nagano was similar to equivalent levels of gramicidin. CONCLUSIONS: Antibiosis, via gramicidin S, is the mode of antagonism exhibited by B. brevis Nagano against Bot. cinerea in vitro. SIGNIFICANCE AND IMPACT OF THE STUDY: The mode of antagonism of B. brevis against Bot. cinerea was elucidated. The differing activity of gramicidin S against Bot. Cinerea in vitro and on leaf sections indicates one mechanism by which biocontrol activity may differ between laboratory and field conditions.     

Necrotrophic mycoparasitism of Botrytis cinerea by cellulolytic and ligninocellulolytic Basidiomycetes

Twenty-six isolates representing 17 species of aphyllophoraceous, wood-decaying Basidiomycetes and five species of agaricoid, turf-borne, thatch-decaying Basidiomycetes were screened for their abilities to degrade cellulose, lignin, and melanin by using colorimetric degradation assays on agar media. Selected ligninocellulolytic Basidiomycetes capable of degrading melanin were screened for antagonism of Botrytis cinerea Per.:Fr. The greatest inhibition of Botrytis colony and hyphal growth in vitro was observed in confrontations with Irpex lacteus (Fr.) Fr., Trametes versicolor (L.:Fr.) Pilat, and Chondrostereum purpureum (Pers.:Fr.) Pouzar. Hyphal interference and necrotrophic mycoparasitism by these ligninocellulolytic Basidiomycetes were recognized microscopically as coagulation and degeneration of Botrytis cytoplasm and as coiling and invasion of hyphae, conidiophores, and conidia, respectively. Sclerotia of B. cinerea were killed and parasitized in agar media, straw mulch, or moist sand infested separately with these three mycoparasites.     

Selective medium based on tyrosine metabolism for the isolation and enumeration of Brevibacillus brevis (Bacillus brevis)

AIMS: To develop a selective medium for the enumeration of Brevibacillus brevis Nagano spores from soil and plant material. METHODS AND RESULTS: Tyrosine agar was developed as a selective medium and compared with nutrient agar for the enumeration of B. brevis Nagano spores from sterile and non-sterile plant and soil extracts. Brevibacillus brevis Nagano colonies could be easily identified only on tyrosine agar due to their clear halo and distinct colony morphology. Identification was confirmed by thin layer chromatography of the antibiotic, gramicidin S, produced by this strain. CONCLUSIONS: Tyrosine agar was shown to be a suitable selective medium for the enumeration of B. brevis Nagano. SIGNIFICANCE AND IMPACT OF THE STUDY: The medium developed, tyrosine agar, can be used to monitor the population of the biological control agent, B. brevis Nagano, and will allow detailed studies within the crop environment.     

In vitro attachment of phylloplane yeasts to Botrytis cinerea, Rhizoctonia solani, and Sclerotinia homoeocarpa

The ability of yeasts to attach to hyphae or conidia of phytopathogenic fungi has been speculated to contribute to biocontrol activity on plant surfaces. Attachment of phylloplane yeasts to Botrytis cinerea, Rhizoctonia solani, and Sclerotinia homoeocarpa was determined using in vitro attachment assays. Yeasts were incubated for 2 d on potato dextrose agar (PDA) prior to experimentation. A total of 292 yeasts cultured on PDA were screened for their ability to attach to conidia of B. cinerea; 260 isolates (89.1%) attached to conidia forming large aggregates of cells, and 22 isolates (7.5%) weakly attached to conidia with 1 or 2 yeast cells attached to a few conidia. Ten yeasts (3.4%), including 8 isolates of Cryptococcus laurentii, 1 isolate of Cryptococcus flavescens, and an unidentified species of Cryptococcus, failed to attach to conidia. All non-attaching yeasts produced copious extracellular polysaccharide (EPS) on PDA. Seventeen yeast isolates did not attach to hyphal fragments of B. cinerea, R. solani, and S. homoeocarpa after a 1 h incubation, but attachment was observed after 24 h. Culture medium, but not culture age, significantly affected the attachment of yeast cells to conidia of B. cinerea. The 10 yeast isolates that did not attach to conidia when grown on agar did attach to conidia (20%-57% of conidia with attached yeast cells) when cultured in liquid medium. Attachment of the biocontrol yeast Rhodotorula glutinis PM4 to conidia of B. cinerea was significantly greater at 1 x 10(7) yeast cells x mL(-1) than at lower concentrations of yeast cells. The ability of yeast cells to attach to fungal conidia or hyphae appears to be a common phenotype among phylloplane yeasts.     

Germination and adhesion of fungal conidia on polycarbonate membranes and on apple fruit exposed to mycoactive acetate esters

The adhesion and germination of conidia of nine fungal species were assessed on polycarbonate membranes or on the skin of apple fruit in sealed glass bottles injected or not injected with acetate esters. Adhesion was determined after dislodging conidia from surfaces using a sonication probe. Adhesion and germination of conidia of Aspergillus flavus, Aspergillus fumigatus, Aspergillus niger, Penicillium citrinum, Penicillium claviforme, or Trichoderma sp. on membranes after 48 h were not increased in a 1.84 microg mL(-1) headspace of butyl acetate (BA), ethyl acetate, hexyl acetate, 2-methylbutyl acetate, pentyl acetate, or propyl acetate. Adhesion and germination of Botrytis cinerea, Penicillium expansum, and Penicillium roquefortii conidia were stimulated by all esters. Only conidia of B. cinerea and P. expansum exhibited increased adhesion and germination on the skin of apple fruit in bottles exposed to 0.92 microg mL(-1) of BA. Only conidia of B. cinerea and P. expansum produced decay in inoculated puncture wounds on fruit. Freshly made puncture wounds or 24-h-old puncture wounds in fruit were more adhesive than the unpunctured skin of fruit to conidia of B. cinerea or P. expansum. Fresh wounds were more adhesive to both fungi than 24-h-old puncture wounds. The skin and wounds of fruit were as adhesive to B. cinerea conidia as they were to P. expansum conidia. A 4-h exposure to 1.43 microg mL(-1) of BA increased adhesion of B. cinerea and P. expansum conidia in 24-h-old wounds. Results suggest that acetate-ester stimulation most likely is not a rare phenomenon in the fungi. For nutrient-dependent decay pathogens of apple fruit, acetate esters may be an alternative chemical cue used to maintain adhesion of conidia to wound surfaces.     

Different products for biological control of Botrytis cinerea examined on wounded stem tissue of tomato plants

For the moment the agents that are used against Botrytis cinerea, in glasshouses were tomatoes are cultivated, are from chemical origin. For reducing the use of chemical agents in the future it is important to search for effective biological control agents against the fight of Botrytis cinerae. The following biological products Vital pasta, Vital gel and Elot-Vis were examined in there possibility to control Botrytis cinerea. Elot Vis was tested out in experiments that were carried out in climate chambers were leafs of 3 week old tomato plants were artificially infected with Botrytis cinerea spores. Also the biological products of Vital were first investigated in experiments that were carried out in climate chambers. In stead off leafs of tomato plants it were stem wounds of tomato plants who were treated with the pasta or the gel that was spread over the wounded surface after this has been inoculated with a suspension of conidia of Botrytis cinerae. The results of these first tests that were executed in the climate chambers were the circumstances for Botrytis cinerea were ideal seemed promising. In the next step these products were tested out on large scale in glasshouses. For each plant 5 wounds were created by removing the leafs, these wounds were or first treated with the Biological product and thereafter artificially infected with Botrytis cinerea spores to check out if these products can be used as a preventive agent or the wounds were first inoculated with a suspension of Botrytis cinerea spores and thereafter treated with the product. For the product Elot-Vis a few plants were totally sprayed with an Elot-Vis suspension before leafs were removed and the wounds were inoculated with conidia of Botrytis cinerea to check out if this product was able to activated the induced systemic resistance pathway. The experiments that were executed in glasshouses showed different percentages of succeeded Botrytis cinerea infections. This is probable due to the different weather conditions during both days that the experiments were executed. For the wounds that were treated with pasta it was difficult to distinguish wounds were Botrytis cinerea succeeded to infect the plant, because these wounds frequently didn't show any sign of infection on the surface but when the wounds with the pasta were cut open it was possible to see Botrytis cinerea infections inside the stem.     

Antifungal Activities of Chelidonium majus Extract on Botrytis cinerea in vitro and Ultrastructural Changes in its Conidia

The extract from the aboveground parts of Chelidonium majus reduced the mycelial growth of Botrytis cinerea on Czapek agar medium. In minimum fungicidal concentration (60  μ l/ml), the extract induced irreversible ultrastructural changes in B. cinerea conidia.     

The BMP1 gene is essential for pathogenicity in the gray mold fungus Botrytis cinerea

In Magnaporthe grisea, a well-conserved mitogen-activated protein (MAP) kinase gene, PMK1, is essential for fungal pathogenesis. In this study, we tested whether the same MAP kinase is essential for plant infection in the gray mold fungus Botrytis cinerea, a necrotrophic pathogen that employs infection mechanisms different from those of M. grisea. We used a polymerase chain reaction-based approach to isolate MAP kinase homologues from B. cinerea. The Botrytis MAP kinase required for pathogenesis (BMP) MAP kinase gene is highly homologous to the M. grisea PMK1. BMP1 is a single-copy gene. bmp1 gene replacement mutants produced normal conidia and mycelia but were reduced in growth rate on nutrient-rich medium. bmp1 mutants were nonpathogenic on carnation flowers and tomato leaves. Re-introduction of the wild-type BMP1 allele into the bmp1 mutant restored both normal growth rate and pathogenicity. Further studies indicated that conidia from bmp1 mutants germinated on plant surfaces but failed to penetrate and macerate plant tissues. bmp1 mutants also appeared to be defective in infecting through wounds. These results indicated that BMP1 is essential for plant infection in B. cinerea, and this MAP kinase pathway may be widely conserved in pathogenic fungi for regulating infection processes.     

The symbiosis of Bacillus subtilis L-forms with Chinese cabbage seedlings inhibits conidial germination of Botrytis cinerea

AIMS: To establish whether germination of Botrytis cinerea was affected by the symbiosis of Bacillus subtilis L-form bacteria with Chinese cabbage. METHODS AND RESULTS: Germinating seeds of Chinese cabbage were co-cultivated with either L-forms of Bacillus subtilis or 5% (w/v) mannitol by soaking for 3 h. Seeds were then washed in sterile water, sown on a minimal medium and incubated in controlled conditions. L-form symbiosis was detected over a time course by ELISA. Conidial germination of Botrytis cinerea was significantly reduced on cotyledonous leaves of L-form-treated plants compared with controls. CONCLUSIONS: Symbiosis of B. subtilis L-form bacteria during seed germination of Chinese cabbage inhibits conidial germination in plants on subsequent exposure to Botrytis cinerea. SIGNIFICANCE AND IMPACT OF THE STUDY: This is the first account of plant symbiosis with L-form bacteria showing antagonism to a fungal plant pathogen. This has promising implications for the use of this L-form as a biocontrol agent.     

Effects of long-term storage at different temperatures on conidia of Botrytis cinerea Pers.: Fr.

Survival of Botrytis cinerea conidia was studied after storage without pretreatments at different temperatures (-80 degrees C, -20 degrees C, 4 degrees C and 21 degrees C). Germination tests performed during 3 years showed that viability at 21 degrees C was completely lost after 1 month. Conidia stored for 30 months at -80 degrees C, -20 degrees C and 4 degrees C were able to germinate, respectively, at 79%, 8% and 0.2%. Changes in adenylate level, energy charge and respiration (O(2) consumption) made on each set of conidia were correlated to the germination rate. The 30-month-old stored conidia showed differences in pathogenicity tests on apples. While the pathogenic aggressiveness of conidia stored at -80 degrees C was almost the same as for fresh conidia, it decreased with increasing temperature of storage. An ultrastructural study made on conidia stored for 30 months at -80 degrees C has shown the emergence of a new wall layer in a retraction zone of the cytoplasm by comparison to fresh conidia. However, the integrity of the cytoplasmic content was maintained. The effects of low temperature storage, maintenance of cell integrity and pathogenicity of conidia of B. cinerea are discussed.     

Purification and characterization of a 40.8-kDa cutinase in ungerminated conidia of Botrytis cinerea Pers.: Fr

Cytoplasmic soluble proteins from ungerminated conidia of Botrytis cinerea exhibited cutinase activity. A 40.8-kDa cutinase was purified to homogeneity from this crude conidial protein extract. This cutinase does not correspond either to constitutive or to induced lytic cutin enzymes already described by other authors. The possible role of this constitutive cutinase in the induction of other cutinolytic proteins in the early stages of infection of plants by B. cinerea is discussed.     

Evidence for a constitutive cytoplasmic cutinase in ungerminated conidia of Botrytis cinerea Pers.: Fr.

Cytoplasmic soluble proteins from ungerminated conidia of Botrytis cinerea exhibited cutinase activity, while cell wall binding proteins lacked this activity. Cutinase activity in proteins extracted from cell walls and cytoplasm of ungerminated conidia of Botrytis cinerea was determined using p-nitrophenyl butyrate (PNB) and TLC analysis of products derived from hydrolysis of [³H]cutin. Treatment of conidia with indoxyl acetate, a substrate indicative of non-specific esterase and cutinase activity, also gave a positive reaction in the cytoplasm of ungerminated conidia. The possible role of a putative constitutive cutinase in the cytoplasm of conidia in the early stages of infection of plants by B. cinerea is discussed.     

Effects of indole-3-acetic acid on Botrytis cinerea isolates obtained from potted plants

We study the growth of different isolates of Botrytis cinerea collected from potted plants which were affected by Botrytis blight in southern Spain during recent years. These isolates, which show widely phenotypic differences when grown in vitro, are differentially affected by growth temperature, gibberellic acid applications and paclobutrazol, an efficient plant growth retardant and fungicide at the same time. In this work, we have evaluated the effect of the auxin indole-3-acetic acid (IAA) dose (0, 1, 10, and 100 mg/plate) on the growth of the collection of B. cinerea isolates obtained from the following potted plants: Cyclamen persicum, Hydrangea macrophylla, Lantona camara, and Lonicera japonica. B. cinerea produces indolacetic acid, but so far the precise biosynthetic pathway and some effects on this fungal species are still unclear, although recent studies have revealed an antifungal activity of IAA on several fungi, including B. cinerea isolated from harvested fruits. Mycelial growth curves and growth rates assessed from difference in colony areas during the both linear and deceleration phase, conidiation (measured as time of appearance), conidia length (microm), and sclerotia production (number/plate) were evaluated in the isolates, which were grown at 26 degrees C on Petri dishes containing potato dextrose agar for up to 35 days. Mycelial growth curves fitted a typical kinetic equation of fungi grown on solid media. B. cinerea isolates showed a high degree of variability in their growth kinetics, depending on the isolate and auxin dose. This plant growth substance delayed mycelial growth during the linear phase in an isolate-dependent manner, thus isolates from C. persicum, H. macrophylla and L. camara were more affected by IAA than L. japonica. On the other hand, 100 mg of IAA was the critical dose to significantly reduce the growth rate in all isolates and to promote brown-striped hyphae development, especially in isolate from C. persicum. 10 and 100 mg IAA delayed conidiation in isolates from H. macrophylla but scarcely effects were found in the conidia length. The sclerotia production process was blocked at IAA doses of 100 mg in isolates from L. camara and L. japonica, and was reduced in isolate from H. macrophylla. However, dose of 100 mg IAA had no effect on sclerotia production in isolate from C. persicum. It was concluded that the effect of IAA on B. cinerea growth depends on the isolate, thus isolates from H. macrophylla and L. camara were the most affected by IAA. B. cinerea reduced its development under IAA applications, depending on the isolate and dose. These results confirm those recently published on the inhibitory effect of IAA on Botrytris species growth.     

酶法制备壳寡糖对番茄灰霉病病菌抑制机理初探

目的：研究酶降解法制备的壳寡糖对番茄灰霉病病菌的抑制机理。方法：测定壳寡糖对番茄灰霉病菌菌丝发育、孢子萌发的抑制作用以及对菌丝形态、细胞膜透性和对菌丝体可溶性蛋白质含量的影响。结果：当壳寡糖处理浓度为1.5mg/mL以上时,对菌丝生长的抑制率达70%以上,EC50为0.72mg/mL。当处理浓度为6mg/mL时,对分生孢子的抑制率显著优于其他浓度水平,达87.4%,EC50为1.48mg/mL。显微观察,浓度为0.8mg/mL的壳寡糖处理可诱导菌丝分枝增多、菌体分隔增加,分生孢子形成受到抑制。此外壳寡糖能够引起菌丝细胞膜透性发生变化,造成菌丝体内含物的渗漏。壳寡糖处理66 h后,菌丝体可溶性蛋白含量比对照降低了36.7%。结论：壳寡糖对番茄灰霉病病菌抑制机理的探究为研究壳寡糖这一新型生物农药的作用机制提供依据。     

Botrytis caroliniana, a new species isolated from blackberry in South Carolina

Blackberry fruits symptomatic for gray mold were collected from three commercial blackberry fields in northwestern South Carolina. Single-spore isolates were generated and two distinct phenotypes were discovered in each location; one sporulated on PDA and one did not. One isolate of each phenotype and location (six isolates total) were selected for in depth molecular and morphological characterization. Glyceraldehyde-3-phosphate dehydrogenase (G3PDH), heat-shock protein 60 (HSP60) and DNA-dependent RNA polymerase subunit II (RPB2) coding sequence alignment revealed Botrytis cinerea as the sporulating phenotype and a new yet undescribed species as the non-sporulating phenotype. The new Botrytis sp., described herein as Botrytis caroliniana, was most closely related genetically to B. fabiopsis and B. galanthina, the causal agents of gray mold disease of broad bean and snowdrop, respectively. It produces smaller conidia than either B. fabiopsis or B. galanthina, and sequence analysis of genes encoding necrosis and ethylene-inducing proteins (NEPs) also indicated that the Botrytis isolates represent a separate and distinct species. The new species is pathogenic on blackberry fruits and broad bean leaves, which distinguishes it further from B. galanthina. The new species formed white to pale gray colonies with short, tufted aerial mycelium and produced black sclerotia on PDA at 20 C. To our knowledge this is only the third Botrytis species discovered to cause disease on blackberry in the United States.     

Ethylene production by Botrytis cinerea in vitro and in tomatoes

A laser-based ethylene detector was used for on-line monitoring of ethylene released by the phytopathogenic fungus Botrytis cinerea in vitro and in tomato fruit. Ethylene data were combined with the results of a cytological analysis of germination of B. cinerea conidia and hyphal growth. We found that aminoethoxyvinylglycine and aminooxyacetic acid, which are competitive inhibitors of the 1-aminocyclopropane-1-carboxylic acid pathway, did not inhibit the ethylene emission by B. cinerea and that the fungus most likely produces ethylene via the 2-keto-4-methylthiobutyric acid pathway. B. cinerea is able to produce ethylene in vitro, and the emission of ethylene follows the pattern that is associated with hyphal growth rather than the germination of conidia. Ethylene production in vitro depended on the L-methionine concentration added to the plating medium. Higher values and higher emission rates were observed when the concentration of conidia was increased. Compared with the ethylene released by the fungus, the infection-related ethylene produced by two tomato cultivars (cultivars Money Maker and Daniela) followed a similar pattern, but the levels of emission were 100-fold higher. The time evolution of enhanced ethylene production by the infected tomatoes and the cytological observations indicate that ethylene emission by the tomato-fungus system is not triggered by the ethylene produced by B. cinerea, although it is strongly synchronized with the growth rate of the fungus inside the tomato.     

灰葡萄孢侵染垫缺失突变体的筛选及其相关生物学特性的研究

【目的】从农杆菌介导获得的灰葡萄孢RoseBC-3的突变体库中筛选侵染垫缺失突变体菌株,并明确其相关生物学特性。【方法】将菌株接种于洋葱表皮,利用棉兰染色观察侵染垫形成情况,筛选得到一个侵染垫缺失突变体(AT19)。采用形态学方法、离体叶片接种法、钌红染色法、小麦种子幼芽生长抑制法分别对该菌株的菌落培养性状、侵染垫产生情况、致病力、产果胶酶能力以及产植物毒性代谢产物能力进行测定。【结果】筛选灰葡萄孢突变体168株,根据侵染垫形成可分为三类：快速形成侵染垫型(158株)、缓慢形成侵染垫型(9株)和侵染垫形成缺陷型(1株,AT19)。AT19在接种洋葱120 h后依然无法形成成熟侵染垫。该菌株生长较为缓慢,菌落扩展均匀,可以产生分生孢子,对烟草、草莓、蚕豆和豌豆叶片均不能致病,可以产生果胶酶和植物代谢毒性物质。【结论】突变体菌株AT19可以产生果胶酶和植物代谢毒性物质,其致病力缺失与侵染垫产生缺陷相关。研究结果为了解灰葡萄孢侵染垫形成分子机制提供基础材料。