Aerobiological dynamics of potentially pathogenic fungi in a rice agroecosystem in La Habana, Cuba

The aerobiology can play a key role in protecting the rice crop since many fungi can cause serious damage to agricultural areas. In this way, the ideal time to implement different security measures can be identified. To determine the presence of potentially pathogenic fungi in the air of the rice agroecosystem, a weekly monitoring of viable fungi was carried out using a volumetric sampler. Collected fungi were quantified, isolated, and identified based on their morphological characteristics. The results obtained demonstrated that the annual average concentration of filamentous fungi in the atmosphere of rice agroecosystem studied was 1,225 cfu m⁻³ levels ranging between 115 cfu m⁻³ (April) and 2,865 cfu m⁻³ (August). Pyricularia grisea was detected in the air for 5 months, since the second week of June until the first week of October, and highest average concentration (25 cfu m⁻³) was observed in August. Of the meteorological factors evaluated, temperature and relative air humidity influence the concentration of propagules of P. grisea in the air. Besides, other fungi were detected such as Curvularia, Bipolaris, Alternaria, and Cercospora, all with relevance to rice cultivation. This is the first characterization of aeromycological biodiversity in the studied region.     

Suppression of gray leaf spot (blast) of perennial ryegrass turf by Pseudomonas aeruginosa from spent mushroom substrate

Bacteria isolated from spent mushroom substrate (SMS) were evaluated for the suppression of Pyricularia grisea, the causal agent of gray leaf spot of perennial ryegrass (Lolium perenne) turf. Thirty-two of 849 bacterial isolates (3.8%) from SMS significantly inhibited the mycelial growth of P. grisea in vitro. Six bacterial isolates that afforded maximum inhibition of P. grisea were also refractory to Rhizoctonia solani, Rhizoctonia cerealis, Sclerotinia homoeocarpa, and Fusarium culmorum. Each of the six isolates was identified as Pseudomonas aeruginosa by fatty acid profile analysis. The biocontrol activity of the bacterial isolates was not compromised by a prolonged exposure to UV radiation in vitro. In controlled-environment chamber experiments, all 32 bacterial isolates were tested for suppression of gray leaf spot on Pennfine perennial ryegrass when applied as seed treatment or foliar sprays. Foliar applications of the bacteria (10⁸ cfu/ml 0.1% carboxymethylcellulose), but not the seed treatment, significantly reduced disease severity and incidence. The three most efficient isolates from foliar application treatments, which were among the six bacterial isolates identified as P. aeruginosa, were further evaluated for suppression of gray leaf spot as a function of timing of application. The three isolates of P. aeruginosa suppressed gray leaf spot in perennial ryegrass in Cone-tainers when applied at 1, 3, and 7 days prior to inoculation with P. grisea both in controlled-environment chamber experiments, and in potted ryegrass plants maintained in the field. All application intervals, regardless of the bacterial isolate, provided significant reduction of gray leaf spot severity. Suppression of gray leaf spot by isolates of P. aeruginosa under controlled-environment chamber conditions was not different from that observed in potted ryegrass plants maintained in the field. In field experiments, an isolate of P. aeruginosa provided significant suppression of gray leaf spot when applied at 1, 7, and 14 days prior to inoculation with P. grisea. The bacterium proved effective against gray leaf spot of perennial ryegrass maintained as fairway and rough heights. These results indicate that P. aeruginosa may be a potential biocontrol agent for gray leaf spot of perennial ryegrass turf.     

Mating-type Distribution and Fertility Status in Magnaporthe grisea Populations from Argentina

Isolates of Magnaporthe grisea causing gray leaf spot on rice were collected in Argentina and analyzed for mating distribution and fertility. One hundred and twenty-five isolates of M. grisea were collected from rice plants between 2000 and 2003. Each isolate was tested for mating type through a polymerase chain reaction based assay. All M. grisea isolates from Argentina belonged to a single mating type, MAT1.1. The fertility status of isolates was determined using controlled crosses in vitro, pairing each isolate with GUY11 and KA9 (MAT1.2 standard hermaphroditic testers). Production of perithecia was scarce among isolates of the blast pathogen since a low percentage of them (7.2%) developed perithecia with only one of the fertile tester (KA9); all crosses failed with the other tester strain. Asci and ascospores were not observed. The presence of only one mating type and the absence of female fertile isolates indicate that sexual reproduction is rare or absent in M. grisea populations associated with rice in Argentina.     

Control of blast and sheath blight diseases of rice using antifungal metabolites produced by Streptomyces sp. PM5

Two antifungal aliphatic compounds, SPM5C-1 and SPM5C-2 with a lactone and ketone carbonyl unit, respectively obtained from Streptomyces sp. PM5 were evaluated under in vitro and in vivo conditions against major rice pathogens, Pyricularia oryzae and Rhizoctonia solani. These compounds were dissolved in distilled water/medium to get the required concentrations. The well diffusion bioassay indicated that the of SPM5C-1 remarkably inhibited the mycelial growth of P. oryzae and R. solani in comparison to SPM5C-2. Though SPM5C-2 showed low antifungal activity against P. oryzae, it was not active against R. solani. Further, SPM5C-1 completely inhibited the growth of P. oryzae and R. solani at concentrations of 25, 50, 75 and 100 μg/ml. Greenhouse experiments revealed that spraying of SPM5C-1 at 500 μg/ml on rice significantly decreased blast and sheath blight development by 76.1% and 82.3%, respectively, as compared to the control with a corresponding increase in rice grain yield.     

Expression of an elicitor-encoding gene from <Emphasis Type="Italic">Magnaporthe grisea</Emphasis> enhances resistance against blast disease in transgenic rice

Elicitors are molecules that stimulate defense responses in plants. Previously, an elicitor-encoding gene, named pemG1, was isolated from Magnaporthe grisea. To assess the function of pemG1 in rice (Oryza sativa L. cv. Nipponbare), the gene was cloned under a constitutive maize ubiquitin promoter and introduced into Nipponbare cultivar. The resultant plants showed stable integration and constitutive expression of the pemG1 gene. The expression of defense-related gene for phenylalanine ammonia-lyase was triggered and proline content was also increased in pemG1-expressing plants. The pemG1-expressing plants showed enhanced resistance against rice blast after inoculation with M. grisea spores, suggesting that the pemG1 expression enhances disease resistance in transgenic rice. DQ and JM contributed equally to this paper.     

RAPD analysis of blast resistant somaclones from upland rice cultivar IAC 47 for genetic divergence

Seventeen somaclones of upland rice cultivar IAC 47 showing different plant types, and either resistance or susceptibility to leaf blast, were utilized for random amplified polymorphic DNA (RAPD) analysis. Somaclones exhibited differences in reaction to isolates of Pyricularia grisea. Two somaclones (SC02 and SC04) were resistant to all three field isolates of somaclones, while the cultivar IAC 47 was susceptible. The inheritance study of two distinct plant types, one with erect bright green leaves and the other with droopy yellow green leaves, showed that a single possibly different, dominant gene governs each plant type. Of 32 random decamer primers utilized, OPA02 and OPD02 detected polymorphisms between somaclones showing erect bright green leaves and droopy yellow green leaves. Reliable grouping exhibiting 80% similarity was achieved with 17 primers. Leaf blast resistance to race IC-2 of P. grisea was associated with the plant type of erect bright green leaves.     

甘蔗内生解淀粉芽孢杆菌CGB15的分离、鉴定及生防活性

真菌病害占作物病害种类的一半以上,病原真菌是目前已知种类最多的作物病原菌。从作物根际与/或体内分离筛选具有生防活性的微生物,并应用于病害的防控,是除作物品种改良与化学防治外的另一种高效的病害防控策略。【目的】本研究拟筛选并分离鉴定对重要作物病原真菌具有拮抗作用的甘蔗内生细菌,为开发生物防治作物真菌病害新策略提供理论依据。【方法】采用平板对峙法初步筛选对病原真菌具有拮抗能力的甘蔗叶片内生细菌,通过16SrRNA基因测序鉴定其种属;进一步检测候选拮抗内生细菌对甘蔗鞭孢堆黑粉菌(Sporisorium scitamineum)致病发育过程关键步骤：有性配合/菌丝生长、冬孢子萌发的抑制率,田间试验检测其对甘蔗鞭黑穗病的防治效果;检测候选拮抗内生细菌对稻梨孢菌(Pyricularia oryzae)附着胞形成、离体叶片及盆栽条件下叶片病斑形成的抑制作用。【结果】分离自甘蔗叶片的细菌菌株,编号为CGB15,经分子鉴定为解淀粉芽孢杆菌(Bacillus amyloliquefaciens)。CGB15菌株能有效抑制甘蔗鞭孢堆黑粉菌有性配合/菌丝生长,对峙培养条件下使真菌菌落呈现光滑;抑制冬孢子萌发,...     

Tenuazonic acid,toxin of rice blast fungus,induces disease resistance and reactive oxygen production in plants

Effects of tenuazonic acid (TA) on rice leaf segments and on their interaction with compatible races of the blast fungus (Magnaporthe grisea, former name is Pyricularia oryzae) were studied. TA induced small brown necrotic spots on leaves Application of TA (1 or 5 mM) to leaves in mixtures with M. grisea spores induced a local disease resistance, which reduced the frequency of compatible lesions. TA was not fungitoxic but, in contact with the leaf, increased the capability of leaf diffusates to inhibit germination of M. grisea spores. In the infected leaves, the diffusate fungitoxicity was higher than in the healthy ones. Antioxidant enzymes, superoxide dismutase and catalase, and scavengers of hydroxyl radical, mannitol and formate, strongly inhibited the TA-induced diffusate fungitoxicity. It is suggested that the disease resistance induced by TA is mediated, at least partially, by generation of reactive oxygen species by rice leaves, which inhibit the development of the fungus directly or indirectly.     

PGPR mediates induction of pathogenesis-related (PR) proteins against the infection of blast pathogen in resistant and susceptible ragi [Eleusine coracana (L.) Gaertner] cultivars

The Pseudomonas fluorescens isolate 1 (Pf1) was found to protect the ragi [Eleusine coracana (L.) Gaertner] blast fungus, Pyricularia grisea. Induction of defense proteins viz. chitinase, β-1,3 glucanase, peroxidase (PO) and polyphenol oxidase (PPO) by the Pf1 isolate was studied against P. grisea. Chitinase in a resistant, susceptible and commonly used cultivar with and without challenge inoculation of P. grisea, revealed changes in the isoform pattern by UV illumination after staining the gel with fluorescent brightner 28. Native PAGE (polyacrylamide gel electrophoresis) of PO showed the single isoform in all the treatments including the control and a significant increase in the intensity of the band in the inoculated control and Pf1 treatment in all the varieties. Isoform analysis of PPO showed the induction of PPO in P. fluorescens treated plants challenged with P. grisea.     

Transgenic indica rice expressing Mirabilis jalapa antimicrobial protein (Mj-AMP2) shows enhanced resistance to the rice blast fungus Magnaporthe oryzae

Mj-AMP2, a knottin-type antimicrobial peptide, in vitro inhibits the growth of several plant pathogenic fungi including Magnaporthe oryzae. We demonstrate that transgenic rice (Oryza sativa L.) plants expressing the Mj-AMP2 gene show enhanced resistance to M. grisea, the causal agent of the rice blast disease. Mj-AMP2 was efficiently expressed and the level of Mj-AMP2 ranged from 0.32% to 0.38% of the total protein in the transgenic rice plants. In vitro inhibitory activity assays with the crude protein extract from transgenic rice indicated that the Mj-AMP2 protein produced was biologically active. Constitutive expression of Mj-AMP2 in transgenic rice reduces the growth of M. grisea by 63% with respect to untransformed control plant, and no effect on plant phenotype was observed. Transgene expression of Mj-AMP2 gene was not accompanied by an induction of pathogenesis-related (PR) gene expression indicating that the transgene product itself is directly active against the pathogen. The results presented in this study suggest that the Mj-AMP2 gene could be a useful candidate for protection of rice plants against the rice blast fungus M. grisea.     

Genetic mapping with dispersed repeated sequences in the rice blast fungus: mapping the SMO locus

Summary The SMO genetic locus in strains of the fungus Magnaporthe grisea that infect weeping lovegrass, directs the formation of correct cell shapes in asexual spores, infection structures, and asci. We have identified and characterized a Smo^– strain of M. grisea that infects rice. The smo mutation in this strain segregates as a single gene mutation and is allelic to previously identified smo alleles. A marked reduction in pathogenicity co-segregates with the Smo^– phenotype, suggesting that the SMO locus plays a role in rice pathogenicity. A family of dispersed repeated DNA sequences, called MGR, have been discovered in the nuclear DNA of M. grisea rice pathogens. Genetic crosses between Smo^– rice pathogens and Smo⁺ non-rice pathogens were used to follow the segregation of the SMO locus and individual MGR sequences. Using DNA blot analysis with cloned MGR hybridization probes, we mapped the SMO locus to a chromosomal region flanked by two closely linked MGR sequences. We demonstrated that the copy number of MGR sequences could be reduced in subsequent crosses to non-rice pathogens of M. grisea, and that new MGR sequences did not occur following meiosis indicating that these sequences are stable in the genome. We conclude that restriction fragment polymorphism mapping with cloned MGR sequences as hybridization probes is an effective way to map genes in the rice blast fungus.     

Use of plant extracts and biocontrol agents for the management of brown spot disease in rice

Fifty plant extracts, four oil cakes and eight antagonistic organisms were tested against Bipolaris oryzae (Cochliobolus miyabeanus), the causal agent of brown spot disease of rice. In vitro studies indicated that two leaf extracts, Nerium oleander and Pithecolobium dulce exerted the higher percent inhibition to mycelial growth (77.4, 75.1%) and spore germination (80.3, 80.0%) of B. oryzae. Among the four oil cake extracts tested in vitro against B. oryzae, neem cake extract showed the maximum inhibition percent to mycelial growth (80.18%) and spore germination (81.13%) of the pathogen followed by mahua cake extract, castor and gingelly cake extract. Trichoderma viride (Tv2) was significantly effective in inhibiting the mycelial growth (62.92%) and spore germination (77.03%) of the pathogen followed by Trichoderma harzianum (Th5) and Trichoderma reesei (Tr3). The promising leaf extracts, oil cake extracts and antagonistic microorganisms were further evaluated for their efficacies in disease management under glasshouse and field conditions. In glasshouse studies, post-infectional spraying of rice plants with neem cake extract, N. oleander leaf extract and T. viride (Tv2) was significantly effective in reducing the incidence of brown spot of rice by 66, 52 and 45 percent respectively. Two rounds of spraying of rice plants with neem cake extract, N. oleander leaf extract and T. viride (Tv2) in the field at initial appearance of disease and 15 days later reduced the incidence of brown spot (70, 53 and 48% disease reduction respectively) and increased the yield by 23, 18 and 15 percent respectively.     

Detection of the putative<Emphasis Type="Italic"> cis-</Emphasis>region involved in the induction by a<Emphasis Type="Italic"> Pyricularia oryzae</Emphasis> elicitor of the promoter of a gene encoding phenylalanine ammonia-lyase in rice

A rice PAL (phenylalanine ammonia-lyase) gene sequence (rPAL-P5), which is highly similar to and likely the same as a previously described rice ZB8PAL gene, including the 5-upstream and exon I coding regions of PAL, was isolated using PCR amplification. The expression of several PALs, including rPAL-P5, was strongly induced following inoculation with Pyricularia oryzae or treatment with a P. oryzae elicitor. To identify the promoter region induced by the P. oryzae elicitor, we constructed and subsequently transformed rPAL-P5 promoter deletion series into rice calli using particle bombardment. Results from both elicitor-inducible reporter gene and gel mobility shift assays demonstrated that the sequence –349 to –256 of the rPAL-P5 promoter includes a cis-element involved in the induction of P. oryzae.Abbreviations CTAB Cetyltrimethylammonium bromide - 2,4-D 2,4-Dichlorophenoxyacetic acid - GUS -Glucuronidase - 4-MU 4-Methylumbelliferone - 4-MUG 4-Methylumbelliferyl glucuronide - NOS Nopaline synthase - PAL Phenylalanine ammonia-lyase Communicated by J.C. Register III     

Expression of the bacteriophage T4 lysozyme gene in tall fescue confers resistance to gray leaf spot and brown patch diseases

Tall fescue (Festuca arundinacea Schreb.) is an important turf and forage grass species worldwide. Fungal diseases present a major limitation in the maintenance of tall fescue lawns, landscapes, and forage fields. Two severe fungal diseases of tall fescue are brown patch, caused by Rhizoctonia solani, and gray leaf spot, caused by Magnaporthe grisea. These diseases are often major problems of other turfgrass species as well. In efforts to obtain tall fescue plants resistant to these diseases, we introduced the bacteriophage T4 lysozyme gene into tall fescue through Agrobacterium-mediated genetic transformation. In replicated experiments under controlled environments conducive to disease development, 6 of 13 transgenic events showed high resistance to inoculation of a mixture of two M. grisea isolates from tall fescue. Three of these six resistant plants also displayed significant resistance to an R. solani isolate from tall fescue. Thus, we have demonstrated that the bacteriophage T4 lysozyme gene confers resistance to both gray leaf spot and brown patch diseases in transgenic tall fescue plants. The gene may have wide applications in engineered fungal disease resistance in various crops.     

Purification and anti-fungal activity of chitinase against Pyricularia grisea in finger millet

Pseudomonas fluorescens isolate 1 (Pfl) protected finger millet plants treated with the ragi blast fungus, Pyricularia grisea, by upto 27% depending on the cultivar. Induction of pathogenesis-related proteins, viz., chitinase by Pfl isolate, was studied against Py. grisea. The activity of chitinase from plants treated with Pfl was significantly higher than the control plant after pathogen inoculation in all cultivars tested. Chitinase in the cultivars, with and without challenge by Py. grisea, revealed changes in the isoform pattern by western blot analysis. Chitinase was purified by affinity chromatography from the Pfl-treated leaves. It showed a single band at 57 kDa after SDS-PAGE. Western blot analysis using barley chitinase antiserum confirmed a 57 kDa chitinase. The chitinase had anti-fungal activity against Py. grisea in vitro. This revised version was published online in August 2006 with corrections to the Cover Date.     

Identification of RAPD markers linked to a major blast resistance gene in rice

Rice blast, caused byPyricularia grisea, is a major production constraint in many parts of the world. The Korean rice variety Tongil showed high levels of resistance for about six years when widely planted under highly disease-conducive conditions, before becoming susceptible. Tongil was found to carry a single dominant gene, designatedPi-10t, conferring resistance to isolate 106 of the blast pathogen from the Philippines. We report here the use of bulked segregant RAPD analysis for rapid identification of DNA markers linked toPi-10t. Pooled DNA extracts from five homozygous blast-resistant (RR) and five susceptible (rr) BC₃F₂ plants, derived from a CO39 × Tongil cross, were analyzed by RFLP using 83 polymorphic probes and by RAPD using 468 random oligomers. We identified two RAPD markers linked to thePi-10t locus: RRF6 (3.8 ± 1.2 cM) and RRH18 (2.9 ± 0.9 cM). Linkage of these markers withPi-10t was verified using an F2 population segregating forPi-10t. The two linked RAPD markers mapped 7 cM apart on chromosome 5. Chromosomal regions surrounding thePi-10t gene were examined with additional RFLP markers to define the segment introgressed from the donor genome.Pi-10t is likely to be a new blast-resistance locus, because no other known resistance gene has been mapped on chromosome 5. These tightly linked RAPD markers could facilitate early selection of thePi-10t locus in rice breeding programmes.     

稻瘟病菌群体遗传结构的研究进展

稻梨孢引起的稻瘟病是世界水稻生产的最重要病害,严重影响水稻的产量和米质。文中综述了分子标记技术在稻瘟病菌群体遗传结构研究上的应用,分析了病原菌遗传宗谱的特点及其与致病谱的关系,探讨了导致稻瘟病菌群体遗传结构发生变化的相关因素。     

Characterization of a novel plant growth-promoting bacteria strain Delftia tsuruhatensis HR4 both as a diazotroph and a potential biocontrol agent against various plant pathogens

A novel, plant growth-promoting bacterium Delftia tsuruhatensis, strain HR4, was isolated from the rhizoplane of rice (Oryza sativa L., cv. Yueguang) in North China. In vitro antagonistic assay showed this strain could suppress the growth of various plant pathogens effectively, especially the three main rice pathogens (Xanthomonas oryzae pv. oryzae, Rhizoctonia solani and Pyricularia oryzae Cavara). Treated with strain HR4 culture, rice blast, rice bacterial blight and rice sheath blight for cv. Yuefu and cv. Nonghu 6 were evidently controlled in the greenhouse. Strain HR4 also showed a high nitrogen-fixing activity in N-free Döbereiner culture medium. The acetylene reduction activity and ¹⁵N₂-fixing activity (N₂FA) were 13.06 C₂H₄ nmol ml⁻¹ h⁻¹ and 2.052 ¹⁵Na.e.%, respectively. The nif gene was located in the chromosome of this strain. Based on phenotypic, physiological, biochemical and phylogenetic studies, strain HR4 could be classified as a member of D. tsuruhatensis. However, comparisons of characteristics with other known species of the genus Delftia suggested that strain HR4 was a novel dizotrophic PGPB strain.     

Transfer of a grapevine stilbene synthase gene to rice (Oryza sativa L.)

A gene derived from grapevine (Vitis vinifera) coding for stilbene synthase has been transferred into protoplasts of the commercially important japonica rice cultivar Nipponbare using PEG-mediated direct gene transfer. Transgenic plants were regenerated from calli selected on kanamycin. Southern blot analysis of genomic DNA isolated from regenerants and progeny plants demonstrated that the stilbene synthase gene is stably integrated in the genome of transgenic rice plants and inherited in the offspring. The transient formation of stilbene-synthase-specific mRNA shortly after inoculation with the fungus of the rice blast Pyricularia oryzae has demonstrated that the grapevine stilbene synthase promoter is also active in monocotyledonous plants. Preliminary results indicate an enhanced resistance of transgenic rice to P. oryzae. Received: 1 July 1996 / Revision received: 5 November 1996 / Accepted: 30 November 1996     

适用于双向电泳的米曲霉孢子破壁方法研究

为探究米曲霉(Aspergillus oryzae)孢子适用于双向电泳的最佳破壁方法,采用5种不同的破壁方法对米曲霉孢子进行破壁,用血球计数板进行破壁率计算,Bradford方法测定释出的可溶性蛋白含量,并进行双向电泳可行性验证。结果表明,在普通光学显微镜下,破壁后的米曲霉孢子多为碎片,极少数为孢壁内空圆球。5种破壁方法中石英砂研磨+超声、液氮研磨、MP·Fast-prep均质器法在孢子浓度较低(107个/m L)时破壁效果较佳,但是随着孢子浓度的不断提升(109个/m L),只有均质器法能保证较高的破壁率,破壁率高达90%,且适用于双向电泳的蛋白质提取。