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1.
A triglyceride lipase gene (LIP1) was cloned from Stagonospora nodorum, the causal agent of wheat glume blotch. LIP1 encodes a 561 amino acid preproprotein with a predicted N‐terminal signal peptide. Its expression was up‐regulated during plant infection and in culture media supplemented with saturated fatty glycerides. The recombinant Lip1 protein possessed lipolytic activity against a broad range of lipid substrates. When applied to wheat leaves, recombinant Lip1 decreased the hydrophobicity of the leaf surface, probably by liquefaction of epicuticular wax. Pretreatment of wheat leaves with Lip1 decreased the rate of conidial adhesion from 69·5% to 22·7% and from 58·9% to 28·4% in two independent assays based on different protocols. LIP1 replacement strains showed decreased lipolytic activity on culture media relative to the wild‐type strain, and adhesion of the conidia to the wheat leaf surface was impaired in the gene replacement strains. In two experiments, adhesion rates were 54·3% and 41·6% in the LIP1 replacement strains, as opposed to 77·7% and 66·6%, respectively, in the wild‐type. Collectively, the data demonstrate that the secreted lipase Lip1 is important for the adhesion of S. nodorum infection to wheat leaves. 相似文献
2.
Alison J. Wright Tim L. W. Carver Barry J. Thomas Nick I. D. Fenwick Hitoshi Kunoh Ralph L. Nicholson 《Physiological and Molecular Plant Pathology》2000,57(6):281
The development of appressoria by germinating Blumeria graminis conidia depends on its germ tubes making contact with the host surface. Low angle, low temperature scanning electron microscopy showed that 80% or more of first-formed germ tubes of f. spp. hordei, tritici and avenae conidia emerged from close to the host leaf surface, and so made contact with it allowing them to become functional primary germ tubes. Light microscopy of f. sp.hordei confirmed this result and, in addition, showed that germ tubes frequently emerged close to, and contacted, various hydrophobic and hydrophilic artificial substrata. Geometric models of conidium-substratum interfaces were developed and a “surface point method” was derived to predict the frequency with which contact would result if germ tube emergence was a random phenomenon. However, observed contact frequencies were far higher (c. three to eight times) than predicted. Thus, the germ tube emergence site was determined as a response to substratum contact. In part, this appeared to be a non-specific response. Nevertheless, germ tube contact frequencies were greater on the curved surface of leaf epidermal cells than on planar surface, suggesting that specific recognition of leaf surface characteristics may promote directional emergence. The area of contact required to stimulate directional germ tube emergence was very small: contact with a microneedle tip or with a spiders’ suspension thread was sufficient for many conidia. Similarly, on leaves, the only contact is between the tips of a limited number of conidial wall projections and the edges of epicuticular leaf wax plates. Micromanipulation to roll conidia so that their original site of contact with a leaf was rotated away from it, led to the majority of first-formed germ tubes growing away from the leaf, i.e. emerging close to the site of original contact. The experiments indicated that the site of germ tube emergence is determined within 1 min of deposition. This implicated the release of conidial extracellular materials in recognition of the conidium-leaf surface contact site. 相似文献
3.
Denis A. Shah Gary C. Bergstrom 《European journal of plant pathology / European Foundation for Plant Pathology》2000,106(9):837-842
The transmission of Stagonospora nodorum from four naturally infected winter wheat seedlots was quantified in controlled environment germination chambers at 9, 13, 17, 21, and 25 °C. Seedlings were harvested when the second leaf began to emerge. Coleoptiles and first seedling leaves were examined for the presence of lesions caused by S. nodorum. First leaves were incubated on Bannon's medium for 2 weeks, after which they were examined for pycnidia of S. nodorum. Transmission to the coleoptile occurred at all temperatures, but decreased from 100% to 72% as temperature increased from 9 to 25 °C. Transmission to the first leaf was less, dropping from 37% to 2% as temperature increased from 9 to 25 °C. At least 44% of infected first leaves were symptomless at all temperatures, with 96% of infected leaves showing no symptoms at 25 °C. Transmission to seedling leaves occurred over a broad temperature range. Under the high densities at which wheat is sown, a significant number of infected seedlings per unit area may originate from relatively low initial seed infection levels and transmission efficiencies. 相似文献
4.
R. A. Daamen W. Stol 《European journal of plant pathology / European Foundation for Plant Pathology》1992,98(6):369-376
Data of the annual surveys of circa 100 commerical winter wheat fields were compiled to describe epidemics ofSeptoria spp. in the Netherlands during 1974–1986. In May, during the first node stage,S. tritici was dominant whileS. nodorum was virtually absent. In July, during ripening,S. tritici on average dominated overS. nodorum, though in the most continental districts of the countryS. nodorum predominated.In May between 1974 and 1984, on average 56% of the fields showed leaf infections bySeptoria spp., while in July between 1975 and 1986, on average 83% of the fields showed leaf infections. Prevalence ofSeptoria spp. has increased during the surveys. Annual intensity ofSeptoria spp. in winter wheat crops was positively correlated with precipitation and negatively with average monthly sunshine duration during the harvest-month August of the previous growing season. The correlation with sunshine during August could indicate that ascospores play a major role in subsequent epidemics; but whether it is a causal relation remains to be answered.Present address: Center for Agrobiological Research (CABO-DLO), PO Box 14, 6700 AA Wageningen, the Netherlands 相似文献
5.
S. Nolan B.M. Cooke F.J. Monahan 《European journal of plant pathology / European Foundation for Plant Pathology》1999,105(9):917-925
Interactions between Stagonospora nodorum and Septoria tritici were studied. Results from a detached glume experiment indicated that the interaction may be isolate-dependent, as it was shown that the interaction between the two pathogens may be beneficial or antagonistic depending on the isolate of each pathogen present. The number of spores produced by both pathogens was significantly greater when an aggressive isolate of S. tritici was mixed with a non-aggressive isolate of S. nodorum, whereas the number of spores produced by both pathogens was significantly less when two non-aggressive isolates were mixed. There was a significant reduction in disease level when S. tritici was applied prior to S. nodorum, compared to vice versa in the growth chamber. Results from growth chamber and field studies showed that S. nodorum produced significantly more spores when both pathogens were present together. It is concluded that S. tritici has a stimulatory effect on spore production by S. nodorum. However, there was a reduction of S. tritici spores observed in the dual inoculation treatments, suggesting that S. nodorum inhibits S. tritici. 相似文献
6.
Adhesion to the host surface is the first step for successful plant pathogen development and has been reported to be associated with both passive and active processes. For conidia of Venturia inaequalis, which depend on leaf wetness for germination, this process has not yet been described. Conidia of V. inaequalis adhered to wet hydrophobic surfaces immediately after contact to the surface, hours before initiation of germination. Attachment of nongerminated conidia was much better on hydrophobic surfaces, such as apple leaves and polystyrene, than on hydrophilic glass. Conidia released adhesive material localized in a droplet named spore tip glue (STG) at the spore apex which interacted with a contact surface only when water was present. Histochemical investigations indicated the presence of proteins and carbohydrates in STG, lectin labeling the presence of beta-galactose and N-acetylglucosaminyl residues. Transmission electron microscopy revealed two phases in the STG at the tip of dry mature conidia; as STG was present on the outer side of the intact fungal cell wall its formation should be associated with the secretion of glue through pores of the conidial wall. Surface-active substances affected the adhesion of conidia to hydrophobic surfaces stressing the importance of hydrophobic interactions. The use of protein biosynthesis inhibitors did not affect adhesion of conidia indicating that the adhesive material was preformed. It is concluded that the coincidence of STG, contact to a hydrophobic surface, and free water are essential for the adhesion of V. inaequalis conidia. 相似文献
7.
Peter S. Solomon T. J. Greer Wilson Kasia Rybak Kerrie Parker Rohan G. T. Lowe Richard P. Oliver 《European journal of plant pathology / European Foundation for Plant Pathology》2006,114(3):275-282
The interaction between Stagonospora nodorum and a susceptible wheat cultivar was investigated using a range of microscopic techniques. Germination of pycnidiospores
occurred approximately 3 h after making contact with the leaf surface and was followed by attempted penetration 8–12 h later.
Penetration was observed through stomata and also directly through periclinal and anticlinal epidermal cell walls. Penetration
down the anticlinal cell walls appeared to occur without a differentiated penetrating structure whilst structures identified
as either lateral appressoria or hyphopodia were typically present when penetrating over a periclinal cell wall. Once inside
the leaf, the fungus continued to grow for the next 4–5 days colonising all parts of the leaf except the vascular bundles.
Only in the later phase of the infection was total host cell collapse apparent. Evidence of polyphenolic compounds was observed.
The infection cycle was completed within 7 days as indicated by sporulation on the leaf surface. These results have allowed
us to understand how the fungus physically interacts with the leaf and will help the overall understanding of the infection
process. 相似文献
8.
Pre‐infection processes of Botryosphaeriaceae spp.: adhesion of conidia to different substrata 
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下载免费PDF全文 Species of Botryosphaeriaceae are important wound pathogens of grapevines as causal agents of botryosphaeria dieback, but the behaviour of their conidia pre‐infection is unknown and may be important for disease development. Adhesion properties of conidia were investigated for Botryosphaeria dothidea, Neofusicoccum luteum and N. parvum on substrata with different affinities for water. Greatest adhesion on any surface was reached after 5 min for isolates N. luteum MM558, B. dothidea 007 and N. parvum G652 (53·1, 54·0 and 50·6%, respectively) and for N. luteum isolate CC445 after 20 min (61·4%). As conidia adhered well to all artificial substrata, it appeared as if the attachment process was nonspecific. Overall, surface wettability did not play a major role in the adhesion of conidia. Spore surface proteins appeared to play a role in the adhesion process because treatment of conidia of N. luteum MM558 with a protease completely prevented adhesion. Histochemical labelling of conidia and germlings with Coomassie brilliant blue (specific for proteins) was positive for all isolates, with a blue ‘halo’ often seen surrounding conidia or near the germ tube emergence point after incubation times conducive to germination. Alcian blue also stained material surrounding conidia after longer incubation times, which indicated that mucopolysaccharide and protein production may be involved in a second phase of adhesion. 相似文献
9.
Jürgen Köhl Carin H. van der Plas Wilma M. L. Molhoek Nyckle J. Fokkema 《European journal of plant pathology / European Foundation for Plant Pathology》1995,101(6):627-637
Saprophytic antagonists were evaluated for suppression of sporulation ofBotrytis allii andB. cinerea on artificially killed segments of onion leaves that were pre-inoculated with the pathogens. During incubation of the antagonisttreated leaf segments in moist chambers, periods of leaf wetness and leaf dryness were alternated to simulate conditions in the field. Interruption of humid conditions with dry periods had a differential effect on antagonists.Alternaria alternata, Chaetomium globosum, Ulocladium atrum andU. chartarum suppressed sporulation ofB. allii almost completely under continuously wet conditions, and when the leaf wetness periods were interrupted with drying periods of 9h imposed 16, 40, and 64 h after the antagonists were applied. When leaf wetness was interrupted 16 h after antagonist application, the number of conidia ofB. allii produced cm–2 leaf surface after eight days was under the detection limit of 5.2 × 103 conidia on leaves treated with these antagonists compared to 3.7 × 105 conidia on leaves that were not treated. On the other hand,Gliocladium roseum, G. catenulatum andSesquicillium candelabrum, all highly efficient under continuously wet conditions, were of low to moderate efficiency when leaf wetness periods had been interrupted 16 h after application of the antagonists. The antagonists showed the same differentiation and sensitivity to interrupted wetness periods when tested withB. cinerea. 相似文献
10.
S. Nolan B.M. Cooke 《European journal of plant pathology / European Foundation for Plant Pathology》2000,106(2):203-207
A field study is described which explored the possibility of controlling Stagonospora nodorum and Septoria tritici on wheat using a barley pathogen, Drechslera teres. Pre-treatment of wheat cv. Hussar flag leaves with D. teres resulted in a significant reduction in disease caused by S. nodorum and S. tritici, resulting in a significant increase in grain yield. When cv. Brigadier leaves were treated with D. teres prior to inoculation with S. nodorum there was an initial increase in disease expression whilst D. teres had no effect on symptoms produced by S. tritici on cv. Brigadier. There was significantly less disease on leaves of cvs. Hussar and Brigadier pre-treated with D. teres prior to inoculation with an equal mixture of S. nodorum and S. tritici compared to plants pre-treated with water. It is concluded that D. teres and other non-host pathogens show potential as biological control agents for S. nodorum and S. tritici. 相似文献
11.
Ascospores of Mycosphaerella pomi, the pathogen of Brooks fruit spot of apple, were produced in pseudothecia on previously infected and overwintered apple leaves from late April through early August in Aomori Prefecture, Japan. In June 2003, the ascospores were germinating and producing Cylindrosporium-type conidia on apple fruit and leaf surfaces in an orchard. After ascospores were sprayed on apple leaves, Cylindrosporium-type conidia developed on the leaf surfaces. Such Cylindrosporium-type conidia caused typical symptoms of Brooks fruit spot on apple trees after inoculations. These results suggested that the Cylindrosporium-type conidia also serve as an infection source, in addition to the ascospores, for Brooks fruit spot in apple orchards. 相似文献
12.
Masahiro Nao 《Journal of General Plant Pathology》2008,74(3):208-212
In Ehime Prefecture, Japan, lettuce leaf spot (Septoria lactucae) caused huge losses in marketable lettuce yields. To explore potential measures to control disease outbreaks, the effects
of inoculum density, leaf wetness duration and nitrate concentration on the development of leaf spot on lettuce (Lactuca sativa) were evaluated. Conidia were collected from diseased plants in an infested field by single-spore isolation and were used
to inoculate potted lettuce plants with different conidial concentrations. Lesions developed on inoculated lettuce plants
at inoculum concentrations from 100 to 106 conidia/ml. The disease was more severe when the inoculum exceeded 102 conidia/ml, and severity increased with increasing concentrations. Assessment of the relationship between disease development
and the duration of postinoculation leaf wetness revealed that symptoms appeared when the inoculated plants remained wet for
12 h or longer. The number of lesions and total nitrogen content in the lettuce leaves both increased when nitrate was applied. 相似文献
13.
The relative abundances of DNA of Mycosphaerella graminicola and Phaeosphaeria nodorum in archived wheat samples are closely correlated with UK anthropogenic emissions of oxidized sulphur over the last 160 years. To test whether this could be a causal relationship, possible modes of action of sulphur on the two fungi were examined. Mycelial growth of the two fungi in solutions of sulphurous acid was similar. Sulphurous acid at pH 4 reduced percentage germination of P. nodorum conidia more strongly than M. graminicola conidia. In spray inoculations of wheat cv. Squarehead's Master, Cappelle Desprez and Riband with water or sulphurous acid (pH 4), the ratio of leaves infected by P. nodorum to leaves infected by M. graminicola was increased by factors of 2·5, 2·1 and 0·6, respectively at pH 4. The same three cultivars of wheat were grown in sand and vermiculite and fertilized with nutrient solution containing 2·5 or 0·5 mm sulphate. Both pathogens infected less frequently at 2·5 mm sulphate, by a factor of about 2. The severity of infection by M. graminicola was reduced on all three cultivars by a factor of about 4·5 at 2·5 mm sulphate, but severity of P. nodorum was reduced only by a factor of about 2. Both elevated free sulphate concentrations in soil and sulphite in rainwater could therefore increase the prevalence of P. nodorum relative to M. graminicola, which is consistent with the historical changes in abundance. 相似文献
14.
Yield Reduction in Wheat in Relation to Leaf Disease From Yellow (tan) Spot and Septoria Nodorum Blotch 总被引:3,自引:0,他引:3
J.S. Bhathal R. Loughman J. Speijers 《European journal of plant pathology / European Foundation for Plant Pathology》2003,109(5):435-443
Yellow or tan spot (caused by Pyrenophora tritici-repentis) and septoria nodorum blotch (caused by Phaeosphaeria nodorum) occur together and are a constraint to wheat yields in Australia. Recently, higher crop yields and lower fungicide costs have made fungicides an attractive management tool against these diseases. Yield-loss under different rates of progress of yellow spot and septoria nodorum blotch was examined in four experiments over three years to define the relationship between disease severity and yield. In these experiments, differences in disease were first promoted by inoculations either with P. tritici-repentis-infected stubble or aqueous spore suspensions of P. nodorum. Disease progress was further manipulated with foliar application of fungicide. The pattern of disease development varied in each year under the influence of different rainfall patterns. The inoculation and fungicide treatments produced differences in disease levels after flag leaf emergence. The infection of yellow spot or septoria nodorum blotch caused similar losses in grain yield, ranging from 18% to 31%. The infection by either disease on the flag or penultimate leaf provided a good indication of yield-loss. Disease severity on flag leaves during the milk stage of the crop or an integration of disease as area under the disease progress curve on the flag leaves based on thermal time explained more than 80% variance in yield in a simple regression model. The data provided information towards the development of disease management strategies for the control of septoria nodorum blotch and yellow spot. 相似文献
15.
采用前期筛选出的对黄瓜枯萎病菌有较好拮抗作用的3株木霉菌,即哈茨木霉Trichoderma harzianum 809、拟康氏木霉Trichoderma pseudokoningii 886和棘孢木霉Trichoderma asperellum 525,利用盆栽试验,测定了木霉菌孢子不同类型施用对黄瓜幼苗生长、生理特性及枯萎病防效的影响。结果表明:哈茨木霉809、拟康氏木霉886、棘孢木霉525分生孢子和厚垣孢子对黄瓜枯萎病的盆栽防效均在66.81%以上,且以拟康氏木霉886厚垣孢子防效最高,达到81.46%。当黄瓜幼苗长至三叶一心时,3株木霉菌分生孢子和厚垣孢子处理的黄瓜幼苗株高、茎粗、根体积、叶面积、全株鲜质量均比CK显著上升,以厚垣孢子886的促进效果最显著,其株高、茎粗、根体积、叶面积、全株鲜质量分别较CK增加了85.33%、108.43%、235.29%、144.38%、272.32%。同时,3株木霉菌分生孢子和厚垣孢子处理的黄瓜幼苗叶绿素含量、根系活力、叶片可溶性糖含量、叶片可溶性蛋白含量也均比CK显著上升,厚垣孢子886的促进效果仍最显著,其叶绿素含量、根系活力、叶片可溶性糖含量、叶片可溶性蛋白含量分别较CK增加了97.47%、86.05%、172.49%、201.91%。 相似文献
16.
Sarah L. Rawlings Richard J. O&#x;Connell Jonathan R. Green 《Physiological and Molecular Plant Pathology》2007,70(4-6):110-119
The spores (conidia) of the bean anthracnose fungal pathogen, Colletotrichum lindemuthianum, adhere to the aerial parts of plants to initiate the infection process. In previous studies we have shown that the Colletotrichum spores are surrounded by a fibrillar spore coat, comprising several major glycoproteins. Previous evidence showed that a monoclonal antibody (UB20) that recognised these glycoproteins was able to inhibit adhesion of spores to a hydrophobic surface. In this paper we have further studied the role of the spore coat in adhesion, germination and fungal development by studying the effects of UB20 and protease treatment of spores. The latter treatment has previously been shown to remove the spore coat. Spores germinate on glass, polystyrene and water agar, however, appressoria only develop on glass or polystyrene, showing a requirement for a hard surface. Removal of the spore coat with protease inhibits adhesion at 30 min, before the secretion of ECM glycoproteins. Protease treatment also inhibits the development of appressoria and reduces pathogenicity on leaves. Incubation of spores with the MAb UB20 inhibits adhesion at 30 min, but does not affect appressorium formation or pathogenicity. The results suggest that an intact spore coat has two functions; it is required for adhesion to a hydrophobic surface and for the detection of a hard surface necessary for appressorium formation. We suggest that contact with a hard surface, rather than adhesion, is the key event leading to appressorium formation. 相似文献
17.
The surface of the barley coleoptile is relatively hydrophobic. When the coleoptile surface was treated with water for 20 min, the contact angle of water droplets decreased and the surface became relatively hydrophilic. When conidia ofErysiphe graminis were inoculated on the hydrophobic surface of barley coleoptiles and immersed immediately in water, approximately 70% of the appressoria were normal after 24 h. In contrast, when conidia of E. graminis were inoculated on the hydrophilic surface of pre-wetted coleoptiles, only about 30% of the appressoria were normal. About 76% of the conidia that were strongly adherent developed normal appressoria. In contrast, only 20% of the conidia with weaker adherence developed normal appressoria. Application of a polycation(poly-
-ornithine: PLO) solution to the coleoptile surface prior to inoculation served to attach conidia to the surface of coleoptiles immersed in water. After PLO treatment, 70% of the conidia were strongly adherent. Furthermore, in water, 72% of the conidia developed normal appressoria on the surface of coleoptiles pretreated with PLO. These results suggest that normal appressorium development of E. graminis depends greatly on the intensity of adhesion of conidia to the substratum during the process of morphogenesis in water. 相似文献
18.
Vittorio Rossi Elisabetta Pattori Riccardo Bugiani 《European journal of plant pathology / European Foundation for Plant Pathology》2008,121(2):147-159
The dynamics of the production of Stemphylium vesicarium conidia and Pleospora allii ascospores from different inoculum sources on the ground were compared in a model system of a wildflower meadow mainly composed
of yellow foxtail, creeping cinquefoil and white clover. The meadow was either inoculated (each October) or not inoculated
with a virulent strain of S. vesicarium, and either covered or not covered with a litter of inoculated pear leaves. Spore traps positioned a few centimetres above
the ground were exposed for 170 7-day periods between October 2003 and December 2006. Ascospores and conidia were trapped
in 46 and 25% of samples, respectively. Ascospore numbers trapped from the pear leaf litter were about five times higher than
those from the meadow, while conidial numbers were similar from the different inoculum sources. The ascosporic season was
very long, with two main trapping periods: December–April, and August–October; the former was most important for the leaf
litter, the latter for the meadow. The conidial season lasted from April to November, with 92% of conidia caught between July
and September. The fungus persistently colonized the meadow: the meadow inoculated in early October 2003 produced spores until
autumn 2006. The present work demonstrates that orchard ground is an important source of inoculum for brown spot of pear.
Thus, it is important to reduce inoculum by managing the orchard ground all year long. 相似文献
19.
The inoculum sources of ascospores of Pleospora allii and of conidia of its anamorph Stemphylium vesicarium were investigated in relation to the brown spot disease epidemiology on pear. Dead and living leaves of three pear varieties (Abate Fétel, Conference and William), seven grasses (Poa pratensis, Festuca rubra, Festuca ovina, Lolium perenne, Digitaria sanguinalis and Setaria glauca) and Trifolium repens, which are used in pear orchard lawns, were inoculated with conidia of Stemphylium vesicarium virulent on pear and incubated under controlled-environment. Stemphylium vesicarium was always re-isolated from dead leaves of the considered plants, but not from symptomless green or yellowish living leaves. The fungus was occasionally re-isolated from leaf segments showing unspecific necrosis. Inoculation of pear leaves with isolates from grasses demonstrated that the fungus did not lose pathogenicity. Pseudothecia, ascospores and conidia were produced on all the dead inoculated leaves; differences between specimens were found for phenology of pseudothecia, their density and size, and for the number of conidia produced. Pseudothecia were produced faster in the lawn species than in pear leaves, and their density was higher, especially for S. glauca, L. perenne and P. pratensis. Ascospore maturation and ejection was more concentrated for the pseudothecia developed on pear leaves than for those on F. ovina and S. glauca. All the lawn species produced more conidia than pear leaves. 相似文献
20.
A. J. Gevens T. L. W. Carver B. J. Thomas R. L. Nicholson 《Physiological and Molecular Plant Pathology》2001,58(6):277
The extracellular matrix (ECM) released by conidia of Pestalotia malicola when incubated on artificial and natural substrata was investigated. Scanning electron microscopy (SEM) images indicated the presence of ECM beneath conidial appendages. Stains for non-specific esterase activity revealed that enzyme activity was initially present at the conidial appendages. Gelatin peel tests observed with light microscopy and SEM indicated that a strong initial spore adhesion occurs at the appendages flanking the conidium body. That the ECM was seen beneath firmly adhered conidial appendages suggests that it has a role in adhesion. Harvested ECM material from germinating conidia was deglycosylated and acetylated for GC/MS monosaccharide identification. Mole percent calculations show mannose to be the predominant monosaccharide present. 相似文献