Interactions between Sarocladium oryzae and stem attacking fungal pathogens of rice

In laboratory tests Sarocladium oryzae, the sheath rot pathogen of rice was found to inhibit the mycelial growth of other stem-attacking rice pathogens. Among those inhibited, Sclerotium oryzae and Gaeumannomyces graminis var. graminis were most sensitive while Pyricularia oryzae and Rhizoctonia solani were less sensitive. Tissue-based tests made with rice culm segments established that Sarocladium oryzae inhibits mycelial growth and delays sclerotium formation in R. solani. Cerulenin, the toxin produced by Sarocladium oryzae showed a toxicity pattern towards rice pathogens similar to that of Sarocladium oryzae. The stem rot pathogen, Sclerotium oryzae was most sensitive to cerulenin. In two greenhouse experiments, IR58 rice plants inoculated with Sarocladium oryzae alone or together with Sclerotium oryzae, G. graminis var. graminis or R. solani were found to have reduced plant height and increased tiller number. Sheath rot severity increased when Sarocladium oryzae was inoculated as a single pathogen or together with others. Sheath rot inoculation reduced stem rot in rice plants by 76 and 58%, respectively, in Experiment 1 and 2. By its known antagonistic interaction towards stem rot and crown sheath rot pathogens which are sensitive to it and by other unknown interactions, sheath rot emerges as the dominant disease.     

Detection and quantification of phytotoxic metabolites of Sarocladium oryzae in sheath rot-infected grains of rice

AIMS: The present study describes the detection and quantification of the Sarocladium oryzae metabolites, helvolic acid and cerulenin in extracts of rice grains collected from plants infected with sheath rot. It also describes the phytotoxicity of these metabolites on rice seedlings. METHODS AND RESULTS: Helvolic acid and cerulenin in sheath rot-infected rice grains were detected using thin layer chromatography (TLC) and nuclear magnetic resonance (NMR) analyses. On the TLC plates helvolic acid and cerulenin moved as brownish yellow spots and showed R(F) values of 0.61 and 0.49, respectively. A standard assay curve was developed on the basis of selective toxicity of helvolic acid towards Calvibacter michiganensis ATCC 2140 and cerulenin towards Candida albicans 1150. The amounts of helvolic acid and cerulenin on the basis of standard assay curve were 2.2 and 1.75 microg g(-1) of infected seeds. Treatment of IR 36 rice seedlings with metabolites induced chlorosis and reduced shoot length by 20%, root length by 30% and root number by 7% relative to control. CONCLUSIONS: Helvolic acid and cerulenin were detected in infected rice grains and these metabolites induced chlorosis and reduced the seed viability and seedling health of rice. SIGNIFICANCE AND IMPACT OF THE STUDY: Antimicrobial and phytotoxic metabolites, helvolic acid and cerulenin are present in infected grains and reduce the seed viability and seedling health. These metabolites may increase the pathogenic potential and survival of S. oryzae in rice seed by competing with other seed-borne fungi.     

Molecular diversity of Fusarium oxysporum causing rot diseases of vanilla in south India

Incidence of root, stem and beans rot of vanilla (Vanilla planifolia Andrews) caused by Fusarium oxysporum Schlecht was surveyed in vanilla growing areas of south India during December 2008. The incidence of the disease varied from 1 to 100% in different locations. A total of 60 isolates of F. oxysporum were obtained from diseased samples, and nine morphologically different isolates were taken for molecular characterization using Randomly Amplified Polymorphic DNA (RAPD) markers to study the genetic variability if any, among them. PCR amplification of total genomic DNA with random oligonucleotide primers generated unique banding patterns depending upon primers and isolates. Nine oligonucleotide primers were selected for the RAPD assays, which resulted in 384 bands for nine isolates of F. oxysporum. The number of bands obtained was entered into a NTSYS and the results showed that the variability among the pathogen isolates was moderate. The nine isolates studied were grouped into single major cluster at 0.66 similarity index. Hence, it is inferred that F. oxysporum infecting vanilla in south India consists of a single clonal lineage with a moderate level of genetic diversification.     

An overview of the virulence factors and the biocontrol potential of Sarocladium oryzae

Sarocladium oryzae is a filamentous fungus, commonly related to sheath rot, a disease until recently considered of low relevance but whose frequency has increased worldwide in rice cultivation. Few research groups have studied this microorganism, and consequently, the knowledge concerning biochemical and genetic factors that differentiate isolates within populations in terms of virulence (virulence factors/phytotoxin production) is limited. Some works have demonstrated that avirulent isolates of S. oryzae may act as biological control agents (BCAs), primarily due to their high potential for production of the secondary metabolite cerulenin, a potent antifungal. For these reasons, the goal of this paper is to review what is known about the virulence factors of S. oryzae, to highlight the main secondary metabolites produced by the fungus and their role in sheath rot development, and to try to establish a relationship between virulent, avirulent and potential BCA strains of S. oryzae.     

Morpho‐pathological and Molecular Characterization of Bipolaris oryzae in Rice (Oryzae sativa)

Fifty isolates of Bipolaris oryzae from rice were characterized morpho‐pathologically and molecularly. Based on colony morphology and growth pattern on PDA, these isolates were grouped into four categories: black with suppressed growth (21 isolates), black with cottony growth (16 isolates), black with fluffy growth (12 isolates) and white with cottony growth (1 isolate). The frequency of the black and suppressed type was the highest (42%) with maximum aggressiveness (mean spore count of 1854/cm²), whereas the white and cottony growth isolate had lowest frequency (2%) and aggressiveness (548/cm²). Thirteen B. oryzae isolates (four isolates from Groups I, II and III and one isolate from Group IV) were further tested for their variability with random amplified polymorphic DNA (RAPD) primers. Twenty RAPD primers were screened, of which 10 gave amplification; however, only six primers gave reproducible results. Based on the molecular similarity of the RAPD profiles, the isolates were grouped in to three major clusters and maximum linkage distance between them was determined as 0.29 units. This study establishes the variability among B. oryzae isolates.     

RAPD Analysis of Indian Isolates of Rice Sheath Blight Fungus Rhizoctonia solani

Rice sheath blight fungus Rhizoctonia solani has a wide host range and is highly variable in pathogenecity, sclerotial production and cultural characteristics. In India, breeding for sheath blight resistant cultivars has been a priority area of research. However, lack of adequate information about the genetic variability of the fungal populations occurring in India, non-availability of appropriate markers and the non-availability of resistant donors are some of the limiting factors to achieve this objective. To assess the genetic variability in sheath blight fungus, 18 isolates collected from different rice growing regions of India were analyzed by using random amplified polymorphic DNA (RAPD) markers.The similarity values of RAPD profiles ranged from 0.41 to 0.85 with an average of 0.66 among all the isolates. The percentage polymorphism detected per primer varied from 79.2 to 100%. All the primers could be used to fingerprint the individual isolates. The cluster analysis using unweighted paired group method with arithmetic averages could distinguish between R. solani isolates as well as the virulent and avirulent isolates on rice.     

Analysis of Pathogenic Diversity of the Rice Bacterial Blight Pathogen (Xanthomonas oryzae pv. oryzae) in the Andaman Islands and Identification of Effective Resistance Genes

Bacterial blight (BB) caused by Xanthomonas oryzae pv. oryzae (Xoo) is a major disease of rice in the tropics for which genetic resistance in the host plants is the only effective solution. This study aimed at identification of resistance gene combinations effective against Xoo isolates and fingerprinting of the Xoo isolates of Andaman Islands (India). Here, we report the reaction of 21 rice BB differentials possessing Xa1 to Xa21 genes individually and in different combinations to various isolates of pathogen collected from Andaman Islands. Pathological screening results of 14 isolates revealed that among individual genes tested across 2 years, Xa4, Xa7 and Xa21 conferred resistance reaction across all isolates, whereas among combinations, IRBB 50 (Xa4 + xa5), IRBB 52 (Xa4 + Xa21) and IRBB 60 (Xa4 + xa5 + xa13 + Xa21) conveyed effective resistance against tested isolates. The nature of genetic diversity among four isolates selected on the basis of geographical isolation in the islands was studied through DNA finger printing. The RAPD primers S111, S119, S1117, S1109, S1103, S109 and S105 were found to be better indicators of molecular diversity among isolates than JEL primers. The diversity analysis grouped 14 isolates into three major clusters based on disease reaction wherein isolate no. 8 was found the most divergent as well as highly virulent. The remaining isolates were classified into two distinct groups. The importance of the study in the context of transfer of resistance gene(s) in the local cultivars specifically for tropical island conditions is presented and discussed.     

Induction of systemic resistance in rice to bacterial blight by 1,2,3-benzothiadiazole 7-carbothioic acid-S-methyl ester (BTH) treatments

Use of BTH to evaluate the disease severity and induction of systemic resistance in rice to bacterial blight caused by Xanthomonas oryzae pv. oryzae is investigated. A new batch of 25 isolates of Xanthomonas oryzae pv. oryzae was obtained from infected rice lead tissues collected from Pattambi, Kerala, south India. Their identification was confirmed by the plant inoculation test on to IR24 rice plants which produced characteristic bacterial blight lesions. Among the 25 of X.o. pv. oryzae, four of the isolates were also virulent to IRBB21 rice plants (a near isogenic line of IR24) which carry the Xa-21 gene for BB resistance. The results confirm that there are pathogen strains in India which can overcome Xa-21. Development of BB lesions developed in IR24 (BB susceptible) plants after they were treated with BTH applications either as seed treatment or as foliar spray at 0.1, 0.5, 0.1 and 2.0 mM concentrations showed that even at 2.0 mM concentrations, IR24 plants were still susceptible to the pathogen. There was very little or marginal effect of BTH on the induction of resistance to BB in IR24 rice plants. When the same concentrations of BTH were applied to IRBB21 (Xa-21) rice plants, they showed pronounced triggering of systemic resistance to BB pathogen even at 0.1 mM concentration of BTH applied either as seed treatment or as foliar spry. Disease severity index was reduced to 5 (against a score of 9 in untreated) and there was 85–86% reduction in BB incidence in plants that received 0.1 mM BTH. These results provide evidence that BTH-induced systemic resistance complements the R-gene resistance in IRBB21 plants but not in IR24 rice plants.     

Molecular characterisation of Fusarium oxysporum causing rot diseases in small cardamom (Elettaria cardamomum Maton)

Incidence of root rot and foliar yellowing, rhizome rot, panicle wilt and stem rot diseases of small cardamom (Elettaria cardamomum Maton) are caused by Fusarium oxysporum Schlecht., and were surveyed in the high ranges of Idukki district, Kerala during 2010–2011. The diseases were noticed in different areas to varying degrees. Root rot was found to be most severe, followed by pseudostem rot, rhizome rot and panicle wilt. The Fusarium infections were prevalent throughout the year (January–December) and varied from 1.5 to 10.6%. Even though the pathogen was isolated from different plant parts, during pathogenicity studies, all the isolates could cross-infect other plant parts too. Twenty different isolates of F. oxysporum were obtained from diseased samples, and five morphologically distinct isolates were analysed with Randomly Amplified Polymorphic DNA (RAPD) markers to study the genetic variability, if any, among them. PCR amplification of total genomic DNA with random oligonucleotide primers generated unique banding patterns, depending upon primers and isolates. Nine oligunucleotide primers were selected for the RAPD assays, which resulted in 221 bands for the five isolates of F. oxysporum. The number of bands obtained was entered into an NTSYS, and the results showed moderate genetic variability among F. oxysporum isolates causing root rot, rhizome rot, panicle wilt and pseudostem rot, collected from different locations. The dendrogram of different isolates into groups resulted in one major cluster at 0.61 similarity index comprising of four isolates (CRT 3, CRR 3, CPW 2 and CSR 1) and one isolate (CRT 5) formed in a separate cluster. Among the five isolates of F. oxysporum, CRT 5 was entirely different from the other four isolates. The isolates also differ according to the geographical area, as revealed from the genetic variability observed in different root rot isolates (CRT 3 and CRT 5). It is inferred that despite moderate variability, F. oxysporum, infecting small cardamom in Idukki district of Kerala, consists of a single clonal lineage.     

Fluorescent pseudomonad mixtures mediate disease resistance in rice plants against sheath rot (<Emphasis Type="Italic">Sarocladium oryzae</Emphasis>) disease

Plant growth-promoting rhizobacterial (PGPR) strains were isolated from different agro-ecosystems of Tamil Nadu, India, and were tested for their efficacy against the sheath rot pathogen Sarocladium oryzae under in vitro, glasshouse and field conditions. Vigour and a relative performance index (RPI) were used to assay the growth promotion and antagonistic activity of Pseudomonas strains against S. oryzae under in vitro conditions. The results revealed the significant performance by strains Pf1, TDK1 and PY15 compared to other strains. Further, the combination of Pseudomonas strains Pf1, TDK1 and PY15 was more effective in reducing sheath rot disease in rice plants compared to individual strains under glasshouse and field conditions. Quantitative and native polyacrylamide gel electrophoresis (PAGE) analysis of peroxidase (PO), polyphenol oxidase (PPO) and chitinase activity in rice plants showed an increased accumulation of defence enzymes in the treatment with a combination of Pf1, TDK1 and PY15 compared to the treatment with individual strains and untreated controls. The present study revealed the probable influence of antagonism, plant growth promotion and induced systemic resistance (ISR) by the mixture of Pseudomonas bioformulations in enhancing the disease resistance in rice plants against sheath rot disease.

Population Structure of Magnaporthe grisea from North-western Himalayas and its Implications for Blast Resistance Breeding of Rice

Neutral and pathogenicity markers were used to analyse the population structure of Magnaporthe grisea rice isolates from the north‐western Himalayan region of India. Random amplified polymorphic DNA (RAPD)‐based DNA fingerprinting of 48 rice isolates of M. grisea with five primers (OPA‐04, OPA‐10, OPA‐13, OPJ‐06 and OPJ‐19) showed a total of 65 RAPD bands, of which 54 were polymorphic. Cluster analysis of 48 rice isolates of M. grisea on the basis of these 65 RAPD bands revealed the presence of high genotypic diversity and continuous DNA fingerprint variation in the pathogen population. No correlation was observed between RAPD patterns and virulence characteristics of the pathogen. The observed population structure contrasted with presumed clonal reproductive behaviour of the pathogen and indicated the possibility of ongoing genetic recombination in the pathogen population. Analysis of the virulence organization of five RAPD groups (RG1–RG5) using 20 rice genotypes comprising at least 15 resistance genes revealed that no combination of resistance genes would confer resistance against all RAPD fingerprint groups present in the M. grisea rice population. The possible implications of the observed population structure of M. grisea for blast resistance breeding have been discussed.     

Purification and partial characterization of a phytotoxin produced by sarocladium oryzae,the rice sheath rot pathogen: Reinigung und partielle charakterisierung eines vom reisblattscheidenfäule-pathogen sarocladium oryzae erzeugten phytotoxins

An extracellular, hydrophilic, thermostable phytotoxin was purified to homogeneity from culture fluids of Sarocladium oryzae and sheath rot infected rice plants. The phytotoxin was purified by solvent extraction, gel filtration on Sephadex G-75 and HPLC. Toxicity was evaluated with detached leaf sheath and electrolyte leakage bioassays. Purified phytotoxin induced visible symptoms of the disease, when applied to rice sheath even at a low concentration of 5?μg. The toxin is a glycoprotein with carbohydrate as major component. The importances of the carbohydrate moiety for toxic activity was indicated by inactivation of toxic compound after periodate oxidation. The toxin caused lesions on a number of other monocots and dicots and proved to be non-host specific. This is the first report of the purification and characterization of S. oryzae toxin from in vitro and in vivo and we propose its name SO-toxin.     

Potassium deficiency aggravates yield loss in rice by restricting the translocation of non‐structural carbohydrates under Sarocladium oryzae infection condition

Sheath rot disease (ShR) caused by Sarocladium oryzae (S. oryzae) infection is an emerging disease that causes severe yield loss by restricting the translocation of non‐structural carbohydrates (NSC). Potassium (K) nutrition plays a critical role in disease resistance and the exportation of NSC. However, the physiological mechanisms of K with respect to ShR have not been thoroughly elucidated to date. The objectives of this study were to reveal the mechanisms by which K increases ShR resistance by regulating NSC translocation of rice, therefore, a field experiment combined with an inoculation experiment was conducted. We demonstrate that ShR disease incidence and disease index decreased dramatically with an increasing K application. K deficiency sharply induced the accumulation of NSC in the flag leaf (FL) and flag leaf sheath (FLS) under S. oryzae infection condition, which reduced the contribution of transferred NSC to final yield. A permutational multivariate analysis showed that K deficiency had a greater (49.0%, P < 0.001) effect on the NSC content variation in FL than that of S. oryzae infection (15.0%, P < 0.001). S. oryzae infection dramatically increased the difference in apparent transferred mass of NSC and cell membrane injury of diseased organs between K‐deficient and K‐sufficient rice. Finally, we demonstrate that cell membrane injury was a limiting factor imposed by K deficiency, which restricts the export of NSC from source organs. This work highlights the importance of K in improving ShR resistance by regulating NSC translocation (particularly the stem NSC).     

Virulence Analysis and Race Classification of Xanthomonas oryzae pv. oryzae in China

Two hundred and eighty‐five isolates of Xanthomonas oryzae pv. oryzae were randomly collected from 22 rice‐growing provinces in China. Ninety‐one representative isolates were chosen to assess the differential characteristics of 24 near‐isogenic rice lines containing a single resistance gene or two to four genes. Most isolates were avirulent on pyramided lines, except IRBB51, and hence, the pyramided lines cannot be used as differentials for the virulence analysis of X. oryzae pv. oryzae in China. The 13 rice lines with a single gene were used further to establish a system of races classification of X. oryzae pv. oryzae in China. IR24 and IRBB10 were susceptible to the isolates with several exceptions, whereas IRBB5, IRBB7 and IRBB21 were resistant. Based on the interactions between the isolates of X. oryzae pv. oryzae and the 13 near‐isogenic rice lines, six single‐gene rice cultivars (IRBB5, IRBB13, IRBB3, IRBB14, IRBB2 and IR24) were chosen as differentials, and the 285 tested isolates were classified into nine races. The reaction patterns of the nine races in order were: RRRRRR, RRRRRS, RRRRSS, RRRSSS, RRSSSS, RSRRRS, RSSRRS, RSSSSS and SSSSSS. The race frequencies were 10.18%, 10.53%, 4.91%, 10.18%, 24.21%, 5.96%, 11.23%, 22.46% and 0.35% respectively. The virulence of representative strains of eight Philippine races on 13 rice lines with a single gene was determined and compared with the Chinese races. The frequency distributions of X. oryzae pv. oryzae races were primarily described for the different regions in China.     

Serologischer Nachweis des Gurkenmosaik- Virus unter Verwendung vereinfachter Präzipitationsteste (Kurze Mitteilung)

A?atoxins are carcinogenic metabolites produced by Aspergillus flavus. Rice seeds may be contaminated by it at the time of harvesting or during storage. Detection of aflatoxigenic strains by TLC and analysis of genetic variability among 50 A. flavus cultures from seeds of various rice genotypes by PCR using 18 RAPD primers is reported here. About 58% isolates were aflatoxigenic whereas 42% were non-toxic. There were 246 bands and 48 haplotypes. Approximately 99% bands were polymorphic, and thus high degree of genetic variability was observed. All the primers were informative with PIC values of range 0.75–0.95. Seventeen RAPD markers were not found to be useful for the detection of aflatoxigenic A. flavus. However, one RAPD primer 3B could differentiate aflatoxigenic and non-toxigenic isolates to some extent. One allele of Primer 3B at approximately 480?bp was present in 85% aflatoxin non-producers and in 6% aflatoxigenic isolates. This information may be utilised for designing markers for differentiating toxic/non-toxic isolates of A. flavus.     

Variations in random amplified polymorphic DNA profile and toxin production among isolates of Colletotrichum falcatum Went from sugarcane in Tamil Nadu,India

Red rot, caused by Colletotrichum falcatum Went, is one of the most important diseases of sugarcane (Saccharum officinarum L.). The pathogen shows a great diversity in virulence as a number of pathotypes are known to occur in nature. In the present study, the toxin producing ability and genetic variability among isolates of C. falcatum collected from major sugarcane growing areas of Tamil Nadu, India were analysed. The C. falcatum isolates differed significantly in their ability to produce toxin in vitro. The toxin from C. falcatum isolate Cf 671a induced the maximum electrolyte leakage (300 μS) from sugarcane leaf tissues. The genetic relatedness of the isolates of C. falcatum differing in toxin production potential was investigated by using RAPD analysis. Analysis of the genetic coefficient matrix derived from the scores of RAPD profiles showed that minimum and maximum percent similarities among the tested C. falcatum isolates were in the range of 19 to 95% respectively. The phylogenetic analysis by the UPGMA identified two main clusters. Cluster A contains only one isolate (Cf 98061) and all the other isolates were placed in Cluster B confirming high genetic diversity among the isolates. No correlation was observed between clustering of the C. falcatum isolates in the dendrogram and their toxin producing abilities.     

Genetic and virulence variation in Fusarium oxysporum f. sp. cepae causing root and basal rot of common onion in Iran

Root and basal rot of common onion (Allium cepae L.) caused by Fusarium oxysporum f. sp. cepae is one of the most important diseases causing tremendous losses in onion‐growing areas worldwide. In this study, random amplified polymorphic DNA (RAPD), intersimple sequence repeats (ISSR) and virulence studies were conducted to analyse 26 F. oxysporum f. sp. cepae isolates obtained from the main onion‐growing regions of Iran, including Fars, Azerbaijan and Isfahan states. Cluster analysis using UPGMA method for both RAPD and ISSR markers revealed no clear grouping of the isolates obtained from different geographical regions, and the isolates were observed to derive probably from the same clonal lineage. Pathogenicity test indicated that all F. oxysporum f. sp. cepae isolates were pathogenic on onion; however, virulence variability was observed among the isolates. The grouping based on virulence variability was not correlated with the results of RAPD and ISSR analyses.     

Outbreak of Rhizopus Rot Caused by Rhizopus oryzae on Seedlings of Grafted Cucumber on Pumpkin Rootstock in South Korea

In 2013, an outbreak of Rhizopus rot caused by Rhizopus oryzae occurred in cucumber grafted onto pumpkin rootstock sampled from seedling farms in Changnyeong, South Korea. A water‐soaked appearance of the affected tissue was the first symptom of this soft fungal rot in the seedling stems of grafted cucumber. Lesions at the graft sites softened and rapidly, rotted, and turned brown or dark brown. Measurements and taxonomic characteristics were most similar to R. oryzae. DNA sequencing and phylogenetic analysis of the internal transcribed spacer rRNA gene region confirmed that the isolates were indeed R. oryzae. Koch's postulates were supported by pathogenicity tests conducted on healthy plants. Based on mycological characteristics, pathogenicity test, and molecular analysis, the causal fungus was identified as R. oryzae Went & Prinsen Geerligs. To our knowledge, this is the first report of Rhizopus rot caused by R. oryzae in seedlings of grafted cucumber on pumpkin rootstock in South Korea.     

稻瘟病菌株的DNA指纹分析及小种鉴别

基于对稻瘟病菌(Pyricularia oryzae)基因文库的分析,我们找到了一套含重复顺序的克隆。其中POR6和POR7被证实具有高度的多态性并随机散布于稻瘟病菌生理小种的致病性时,可以获得可分辨的基因组特异的杂交带型。我们还分析了致病性与8个稻瘟病菌株DNA指纹图谱之间的关系,结果表明各个小种组合间的百分相似率S_xy,值与该小种组合间共同侵染的鉴别品种数目有正相关性。     

Phenotypic variation of Rhizoctonia oryzae in sheath disease of rice in Myanmar

Similarity in the cultural characteristics among closely related species of Rhizoctonia creates confusion and uncertainity in diagnosis. The present research was conducted to study the existence of phenotypic groups among isolates of R. oryzae in Myanmar. It was aimed to study the variation in phenotypic and molecular profiles among some isolates of R. oryzae and R. zeae. We found the occurrence of two distinct phenotypic groups of R. oryzae and a group of R. zeae. Ribosomal DNA-ITS sequencing was conducted and the resulting dendrogram agreed with those of the morphological grouping. A genetic distance of 0.064–0.072 wts was found between the R. oryzae and R. zeae groups. A pairwise distance of 0.014 and 0.022 was found between the RO1 and RO2 groups of R. oryzae. Our research revealed the existence of two distinct phenotypes in the isolates of R. oryzae collected from rice sheath in Myanmar and their differentiating features with R. zeae.