SOME FACTORS AFFECTING GROWTH OF APHANOMYCES EUTEICHES IN SYNTHETIC MEDIA

Papavizas , G. C., and C. B. Davey . (USDA, ARS, Crops Research Division, Beltsville, Maryland.) Some factors affecting growth of Aphanomyces euteiches in synthetic media. Amer. Jour. Bot. 47(9) : 758–765. Illus. 1960.—Some nutritional requirements of 3 single-zoospore isolates of Aphanomyces euteiches Drechsler were studied in a synthetic medium (SM-1) consisting of mineral salts, D-glucose, DL-glutamic acid, and thioglycolic acid. Micronutrients were essential for growth, whereas vitamins were not. Controlled pH experiments showed that the fungus has a relatively wide pH range (5.2–7.7) for growth with an optimal range between 5.4 and 6.5. When the pH of the medium was maintained within the optimal range by periodic adjustments, ammonium nitrogen was utilized as the sole source of nitrogen. Nitrate nitrogen was unavailable to the fungus under all conditions. DL-glutamic acid was superior as a nitrogen source to either the D or the L isomer. Growth rate and final mycelial dry weight in a synthetic medium (SM-2) containing 14 amino acids in proportions found in 1.0% solution of yeast extract approximated those obtained in complex media. Mycelial dry weights in SM-2 were superior to those obtained in the glucose-glutamic acid-thioglycolic acid medium, but this superiority was due to DL-methionine, a sulfur-containing compound of the amino acid mixture. Sulfates were not utilized as sole source of sulfur, whereas cysteine, cystine, and thioglycolic acid supported fair amounts of growth. The optimal sulfur concentrations from thioglycolic acid for growth in SM-1 were between 128 and 192 mg/1. Mycelial yields equalling or exceeding those supported by complex media were obtained with high concentrations of D-glucose and DL-glutamic acid.     

A simple chemically,defined medium for the growth of Aphanomyces euteiches and some other oomycetes

A chemically-defined medium composed of glutathione, D-glucose, DL-asparagine, calcium and magnesium chlorides, and monobasic and dibasic potassium phosphates supported growth of several species of filamentous fungi which include seven isolates ofAphanomyces euteiches and single isolates ofA. leavis, A. stellatus, Achlya ambisexualis and several species ofPythium. Some growth occurred if a stoichiometric equivalent of the amino acids contained in glutathione were substituted for it. Dithiothreitol, a compound which keeps glutathione in the reduced form, inhibited growth ofA. euteiches at the concentrations tested. Replacement of the medium with a solution of known ionic composition caused the fungal colonies to produce and release zoospores and to produce oospores.     

GROWTH AND SEXUAL REPRODUCTION OF APHANOMYCES EUTEICHES AS AFFECTED BY THE OXIDATION STATE OF SULFUR

Davey , C. B., and G. C. Papavizas . (Crops Res. Div., ARS, USDA, Beltsville, Md.) Growth and sexual reproduction of Aphanomyces euteiches as affected by the oxidation state of sulfur. Amer. Jour. Bot. 49(4): 400–404. Illus. 1962.—Growth and sexual reproduction of Aphanomyces euteiches Drechs., as affected by the oxidation state of sulfur (S), were studied in synthetic media containing d -glucose, dl -glutamic acid, mineral salts phosphate buffer, and various S sources. Organic and inorganic S sources representing some oxidation numbers (valences) were added to the media at concentrations to provide a range from 0 to 128 mg S/liter. The initial reaction in both liquid and solid media was adjusted to pH 6.2. Liquid cultures were maintained at that pH by periodic adjustment. Oxidized S with oxidation number +6 or +4 was not utilized by the fungus, whereas good growth was obtained in the presence of S with oxidation numbers of 0 or -2. Although differences existed among isolates as to relative rates of utilization of the various S sources, there was complete conformity among isolates as to which sources were utilized for growth. Some isolates did not utilize all available S sources for sexual reproduction.     

Testing of life history traits of a soilborne pathogen in vitro: Do characteristics of oospores change according the strains of Aphanomyces euteiches and the host plant infected by the pathogen?

Aphanomyces euteiches is a polyphagous, homothallic soilborne pathogen producing asexual (zoospores) and sexual (oospores) spores. Even if oospores are essential for disease development and survival, to date, no study has focused on the production rates of oospores or the quality of the offspring produced by oospores. In this study, a nonabrasive oospore extraction method from infected roots of leguminous species (pea, faba bean and vetch) was developed. This methodology includes steps of grinding and filtration. The quality of oospores (viable, dormant and dead) was assessed with tetrazolium bromide staining, and germination of oospores was tested using exudates of peas, faba bean and vetch. The average yield of the extraction method was approximately 21%. Staining revealed some differences between strains and between leguminous species. The germination percentage of oospores extracted from pea, faba bean and vetch was 25%, 62% and 70%, respectively, and a significant difference was observed according to the origin of A. euteiches‐inoculated strains. Application of exudates seems to stimulate the germination of oospores (2% for the control, 18% for pea exudates and 1% for vetch exudates). Differences observed between A. euteiches strains and leguminous species indicate that more knowledge concerning the biology of oospores is needed. This will help to better estimate evolution process of the pathogen and manage resistance and crop successions.     

Quantifying the relationship between disease severity and the amount of Aphanomyces euteiches detected in roots of alfalfa and pea with a real-time PCR assay

A real-time PCR assay was used to quantify the relationship in alfalfa and pea between disease severity and the amount of Aphanomyces euteiches detected in roots. The study included isolates of race 1 and race 2 of the alfalfa pathovar of A. euteiches and an isolate obtained from diseased pea. Spearman rank correlations between pathogen DNA content and disease severity index (DSI) ratings were positive ( ? 0.57) and significant (P  0.0007) for individual alfalfa plants, bulked alfalfa plant samples, and individual pea plants. In all experiments, significantly more pathogen was detected in susceptible populations than in resistant populations. The results clearly demonstrate that resistance to A. euteiches in both alfalfa and pea is characterized by a reduction in pathogen colonization relative to levels observed for susceptible reactions. The assay was very specific for A. euteiches, producing very linear assays with DNA extracted from pathogen isolates obtained from alfalfa, pea, and bean. Possible applications of the assay in conjunction with other real-time PCR assays specific to other legume pathogens are discussed in relation to simultaneous disease screening for multiple plant pathogens and the study of microbial population dynamics in mixed plant infections.     

Phylogenetic relationships among plant and animal parasites,and saprotrophs in Aphanomyces (Oomycetes)

Molecular phylogenetic relationships among 12 species of Aphanomyces de Bary (Oomycetes) were analyzed based on 108 ITS sequences of nuclear rDNA. Sequences used in the analyses belonged to the major species currently available in pure culture and GenBank. Bayesian, maximum likelihood, and maximum parsimony analyses support that Aphanomyces constitutes a monophyletic group. Three independent lineages were found: (i) plant parasitic, (ii) animal parasitic, and (iii) saprotrophic or opportunistic parasitic. Sexual reproduction appeared to be critical in plant parasites for survival in soil environments while asexual reproduction seemed to be advantageous for exploiting specialization in animal parasitism. Repeated zoospore emergence seems to be an advantageous property for both plant and animal parasitic modes of life. Growth in unspecific media was generally faster in saprotrophs compared with parasitic species. A number of strains and GenBank sequences were found to be misidentified. It was confirmed molecularly that Aphanomyces piscicida and Aphanomyces invadans appear to be conspecific, and found that Aphanomyces iridis and Aphanomyces euteiches are closely related, if not the same, species. This study has shown a clear evolutionary separation between Aphanomyces species that are plant parasites and those that parasitize animals. Saprotrophic or opportunistic species formed a separate evolutionary lineage except Aphanomyces stellatus whose evolutionary position has not yet been resolved.     

Association between border cell responses and localized root infection by pathogenic Aphanomyces euteiches

Background and Aims

The oomycete Aphanomyces euteiches causes up to 80 % crop loss in pea (Pisum sativum). Aphanomyces euteiches invades the root system leading to a complete arrest of root growth and ultimately to plant death. To date, disease control measures are limited to crop rotation and no resistant pea lines are available. The present study aims to get a deeper understanding of the early oomycete–plant interaction at the tissue and cellular levels.

Methods

Here, the process of root infection by A. euteiches on pea is investigated using flow cytometry and microscopic techniques. Dynamic changes in secondary metabolism are analysed with high-performance liquid chromatography with diode-array detection.

Key Results

Root infection is initiated in the elongation zone but not in the root cap and border cells. Border-cell production is significantly enhanced in response to root inoculation with changes in their size and morphology. The stimulatory effect of A. euteiches on border-cell production is dependent on the number of oospores inoculated. Interestingly, border cells respond to pathogen challenge by increasing the synthesis of the phytoalexin pisatin.

Conclusions

Distinctive responses to A. euteiches inoculation occur at the root tissue level. The findings suggest that root border cells in pea are involved in local defence of the root tip against A. euteiches. Root border cells constitute a convenient quantitative model to measure the molecular and cellular basis of plant–microbe interactions.     

Phenotypic differences among single-oospore cultures of Phytophthora palmivora and P. botryosa from Heavea brasiliensis

Oospores ofPhytophthora palmivora andP. botryosa fromHevea brasiliensis were produced when complementary strains of the same species were incubated on V-8 juice agar in continuous darkness, with or without a subsequent period of continuous light. The oospores germinated at a rate of 15–30 % in demineralised water at 26 °C in normal daylight conditions. Other substrates did not improve the germination rate. Single-zoospore colonies derived from sporangia formed by a single oospore were similar to each other in morphology and in pathogenicity toHevea leaves. Over 400 single-oospore isolates from four intraspecific matings ofP. palmivora, and 102 from one pairing ofP. botryosa, were examined. The progeny differed in morphological appearance, mating behaviour, temperature-growth relations, pathogenicity toHevea leaf petioles and cacao pods, rate of production, shape and size of sporangia and in the abundance of chlamydospores. The progeny from an intraspecific cross ofP. botryosa was more variable, with a few isolates being similar in appearance toP. palmivora, having permanently lost their parental characteristic of producing small oval sporangia in clumps. One isolate in particular was indistinguishable fromP. palmivora in morphology and in its ability to produce functional oospores when mated withP. palmivora. Oospores formed by interspecific crosses could not be germinated. With both species, many progeny was less pathogenic than the parents, and many completely non-infective isolates with respect toHevea, cacao and other host plants were produced. Sexual reproduction resulted in a diversity of phenotypes, and both parental types and recombinants were recovered.     

The presence of the arbuscular mycorrhizal fungus Glomus intraradices influences enzymatic activities of the root pathogen Aphanomyces euteiches in pea roots

 Fungal enzyme activities were quantified in an interaction study between the fungus Glomus intraradices and the pea pathogen Aphanomyces euteiches. Fungal and host enzymes were separated by polyacrylamide gel electrophoresis and the activity of A. euteiches–specific glucose-6-phosphate dehydrogenase (Gd), phosphoglucomutase and peptidase (PEP) enzymes were quantified by densitometry. The activity of A. euteiches–specific enzymes increased until 14 days after inoculation with A. euteiches, and then decreased. The plants preinoculated with G. intraradices showed no symptoms of severe root rot even though the pathogen was present and active in these plants. Thus, plants preinoculated with G. intraradices were more tolerant of infection with A. euteiches than non-mycorrhizal plants. This effect was evident even though the A. euteiches infection levels of mycorrhizal and non-mycorrhizal plants were the same. A. euteiches enzyme activities in the mycorrhizal plants were different to those in non-mycorrhizal plants. The peaks of PEP and Gd enzyme activity of A. euteiches were lower and the development of A. euteiches PEP activity was later in the mycorrhizal plants than in the non-mycorrhizal plants. Accepted: 14 November 1996     

Some biochemical characteristics of fungi isolated from salmonid eggs

Fungal isolates from salmonid eggs displayed apparently unique patterns of biochemical characteristics at both the generic and specific levels. of the five genera examinedAchlya andPythium were able to assimilate 13–16 out of 19 carbohydrates.Aphanomyces was able to assimilate only glucose and starch, which was assimilated by all isolates. Members ofSaprolegnia displayed identical patterns of carbohydrate assimilation, except forS. hypogyna, which was also able to assimilate melibiose, in common withAchlya, Pythium, andLeptolegnia. Pythium was the only genus capable of assimilating salicin. OnlyAchlya andP. monospermum were able to assimilate rhamnose. In terms of amino acid assimilation isolates ofSaprolegnia ferax andS. diclina displayed an identical patterns, as did isolates ofS. parasitica andS. hypogyna. OnlyAphanomyces frigidophilus isolate was capable of assimilating cysteine. All genera exceptPythium assimilated glutamine, a fundamental amino acid. All isolates exhibited lipase and fatty acid esterase activities but no cellulase acitivity. The biochemical characteristics discovered in this study offer possibilities for identification and classification of these fungi, which are discussed herein.     

Nitrogen modulation of Medicago truncatula resistance to Aphanomyces euteiches depends on plant genotype

Nitrogen (N) availability can impact plant resistance to pathogens by the regulation of plant immunity. To better understand the links between N nutrition and plant defence, we analysed the impact of N availability on Medicago truncatula resistance to the root pathogen Aphanomyces euteiches. This oomycete is considered to be the most limiting factor for legume production. Ten plant genotypes were tested in vitro for their resistance to A. euteiches in either complete or nitrate‐deficient medium. N deficiency led to enhanced or reduced susceptibility depending on the plant genotype. Focusing on four genotypes displaying contrasting responses, we determined the impact of N deficiency on plant growth and shoot N concentration, and performed expression analyses on N‐ and defence‐related genes, as well as the quantification of soluble phenolics and different amino acids in roots. Our analyses suggest that N modulation of plant resistance is not linked to plant response to N deprivation or to mechanisms previously identified to be involved in plant resistance. Furthermore, our studies highlight a role of glutamine in mediating the susceptibility to A. euteiches in M. truncatula.     

The potential of antagonistic moroccan Streptomyces isolates for the biological control of damping‐off disease of pea (Pisum sativum L.) caused by Aphanomyces euteiches

Three hundred and fifty‐nine isolates of actinobacteria collected from different Moroccan soils were evaluated for their in vitro antimicrobial activity against the oomycete pathogen Aphanomyces euteiches, the causal agent of damping‐off of pea and other legumes. Eighty‐seven isolates (24%) had an inhibitory in vitro effect against A. euteiches. Fourteen bioactive isolates with the greatest inhibitory effect against A. euteiches and no inhibitory effect on plant beneficial rhizobia were tested for their ability to protect pea seeds and seedlings against the damping‐off disease using culture supernatants or spore suspensions as treatments. The two most protective isolates, OB21 and BA15, significantly reduced, compared to untreated control plants, damping‐off by 33% and 47%, respectively. The two bioactive isolates were classified as species of the genus Streptomyces based on 16S rDNA analysis and morphological and chemical characteristics.     

BIOGEOGRAPHY OF ASEXUAL AND SEXUAL REPRODUCTION IN CALOGLOSSA (DELESSERIACEAE,RHODOPHYTA) FROM AUSTRALIA AND NEW ZEALAND

Caloglossa species are widely distributed in mangroves and salt marshes around the world and their life history patterns are being investigated in laboratory culture. In Australia all isolates of C. monosticha, C. postiae and C. ogasawaraensis have Polysiphonia‐type (P‐type) sexual life histories. Among the 70 C. leprieurii isolates from Australia and New Zealand P‐type sexual reproduction also is dominant. However, ten isolates of C. leprieurii from the Spencer Gulf and the Gulf of St. Vincent in South Australia give rise to successive tetrasporphyte generations without gametophytes. Moreover, one isolate from Queensland is asexual. Only one South Australia isolate, obtained from Lake Alexandrina at the mouth of the Murray River, is sexual. South Australia and Pacific Mexico are two regions in which asexual reproduction is dominant. In another mangrove dwelling red alga Bostrychia moritiziana (Rhodomelaceae) non‐sexual reproduction also is frequent in Australia, New Caledonia and Bali (Indonesia). This asexual reproductive pattern of tetrasporophytic recycling appears to have arisen independently among individual populations of various red algal species in different regions. Investigations are underway on the molecular phylogeny of the Caloglossa leprieurii isolates.     

In planta selfing and oospore production of Phytophthora cinnamomi in the presence of Acacia pulchella

This paper provides the first evidence of A2 type 1 and type 2 isolates of Phytophthora cinnamomi producing selfed oospores in planta in an Australian soil and in a potting mix. Oospores were observed in infected lupin (Lupinus angustifolius) roots incubated for 7 d either in the substrate under potted Acacia pulchella plants, or in soils collected from under and near varieties of A. pulchella in jarrah (Eucalyptus marginata) forest. The A2 type isolates varied in their ability to produce selfed oospores and none were produced by A1 isolates. The gametangial association was amphigynous and spores were predominantly spherical with diameters from 13–40 μm. The oospores were viable but dormant. Two A2 type isolates produced small numbers of selfed oospores with amphigynous antheridia axenically in Ribeiro's liquid medium within 30 d, and one A2 type 2 isolate produced oospores after mating with an A1 strain. Evidence is presented that the presence of roots of Acacia pulchella, and particularly A. pulchella var. glaberrima and var. goadbyi, enhances the production of oospores.     

掘氏疫霉同宗配合、异宗配合特性的研究

本文对掘氏疫霉的同宗配合、异宗配合特性进行了研究,发现新分离的掘氏疫霉A~2交配型菌株,不经过配对培养可以产生卵孢子;菌种在15℃下保存,自身可孕性能力逐渐减退。菌株通过接种黄瓜后,异宗配合特性可以恢复,同宗配合特性不能恢复。经过营养生长,无性繁殖,菌株后代的交配型不引起改变。通过对疫霉属有关种不同交配型与掘氏疫霉各菌株不同交配型配对培养,以及菌种不同保存时间、不同培养基、疫霉属有关种的种间和种内配对,讨论了掘氏疫霉同宗配合、异宗配合特性的影响因素。     

Real‐time PCR Suggests that Aphanomyces euteiches is Associated with Reduced Amounts of Phytophthora medicaginis in Alfalfa that is Co‐inoculated with Both Pathogens

Aphanomyces euteiches and Phytophthora medicaginis are two pathogens of seedling and mature alfalfa (Medicago sativa L.) that are frequently found in the same field sites. In order to investigate possible interactions of these two pathogens, two greenhouse experiments were conducted on seedling alfalfa from check populations representing the phenotypic classes of dual susceptibility and dual resistance to both pathogens. Seedlings were challenged with multiple inoculum concentrations of A. euteiches and P. medicaginis. Separate real‐time PCR assays specific for A. euteiches and P. medicaginis were used to quantify the amount of each pathogen in root tissue. For both pathogens, significantly more pathogen DNA was detected in the susceptible check population Saranac than in the resistant check population WAPH‐1 in all treatment combinations. In general, co‐inoculation with both A. euteiches and P. medicaginis resulted in significantly reduced amounts of P. medicaginis DNA detected when compared with amounts detected from inoculations with P. medicaginis alone. This relationship was observed for the analysis of bulked plant samples and also for individual plants. Co‐infestation by both pathogens did not reduce the quantity of A. euteiches detected. Possible mechanisms responsible for the inhibition of accumulation of P. medicaginis by A. euteiches are discussed.     

Proteomic Profiling Unravels Insights into the Molecular Background Underlying Increased <Emphasis Type="Italic">Aphanomyces euteiches</Emphasis>-Tolerance of <Emphasis Type="Italic">Medicago truncatula</Emphasis>

To investigate the molecular mechanisms underlying susceptibility of legumes to the root pathogen Aphanomyces euteiches (oomycota), comparative proteomic studies have been carried out. In a first approach, we have analysed two Medicago truncatula lines of the French CORE collection (F83.005-5 (R2002) and F83.005-9 (R2002)), which showed either increased or decreased susceptibility to A. euteiches as compared to the widely adopted line A17. Several proteins were identified to be differentially induced after pathogen challenge in the two M. truncatula accessions with altered disease susceptibility, whereof proteins with increased abundances in the more resistant line F83.005-9 could be involved in mechanisms that lead to an improved disease resistance. Among these proteins, we identified two proteasome alpha subunits, which might be involved in defense response. To broaden our studies on A. euteiches-tolerance of M. truncatula, we investigated two other phenomena that lead to an either increased A. euteiches-resistance or to an enhanced susceptibility. The topic of an enhanced plant resistance to A. euteiches was studied in plants showing a bioprotective effect of a pre-established arbuscular mycorrhiza (AM) symbiosis. Evaluation of root fresh weights and pathogen spreading in the root system clearly indicate that mycorrhizal plants show increased A. euteiches-resistance as compared to non-mycorrhizal plants. Proteome analyses revealed the induction of similar protein patterns as in the M. truncatula accessions with comparatively high resistance level to A. euteiches. In a third approach, increased A. euteiches susceptibility was effected by exogenous abscisic acid (ABA) application prior to root infection. Evaluation of the abundance levels of a group of pathogenesis related class 10 (PR10)-like proteins, which were previously identified to be regulated after A. euteiches infection, revealed a correlation between the abundance levels of these proteins and the A. euteiches infection level or severity. Requests concerning seeds from the Medicago truncatula lines F83.005-5 and F83.005-9 should be addressed to Jean-Marie Prospéri, INRA-SGAP Laboratory, Laboratoire de Ressources Génétiques et d’Amélioration des Luzernes méditerranéennes, Mauguio, France, jean-marie.prosperi@ensam.inra.fr.     

Interactions between the vesicular-arbuscular mycorrhizal fungus Glomus fascicuhtum and Aphanomyces euteiches root rot of peas

Interactions between Glomus fasciculatum and Aphanomyces euteiches root rot of peas (Pisum sativum), were studied in pot experiments using irradiated soil. Infections with the pathogen were suppressed by VAM when plants were challenge inoculated after two weeks. No reduction of the pathogen was detected when the plants were inoculated with both fungi at the same time. The suppression of the pathogen, obtained by preinoculation with G. fasciculatum, was not reduced when the inoculum level of the pathogen was increased thirty times. The induced resistance to A. euteiches in VAM plants was partially a systemic effect. When root systems were split into two halves, one with mycorrhiza and one with A. euteiches, the oospore production was reduced in both root systems. The infection with the pathogen was only suppressed when both fungi were present in the same pot. The background for the induced resistance is discussed.     

Comparison of Groundnut bud necrosis virus isolates based on movement protein (NSm) gene sequences

The nucleotide and amino acid sequences of the movement protein (NSm) genes of five isolates of Groundnut bud necrosis virus (GBNV) originating from different hosts and parts of India such as cowpea and tomato from Kerala, groundnut from Tamil Nadu, and potato from Madhya Pradesh and Rajasthan were determined and compared to the known NSm sequences. Sequence analysis revealed that the NSm genes of GBNV isolates were identical in length (924 bp encoding 307 amino acids). GBNV isolates shared maximum identity (98–100%) at amino acid levels with GBNV‐Type isolate, while 82–83% and 34–65% amino acid sequence identities were observed with Watermelon silver mottle virus and other Tospoviruses respectively. The NSm genes among GBNV isolates originating from different hosts and locations appeared highly conserved (93–100%), suggesting their common origin.