A model study of ergot alkaloid biosynthesis

A hypothesis of the mechanistic mode of prenylation of tryptophan, an early phase of ergot alkaloid biosynthesis, occurring by way of 3-(α,α-dimethylally)indolenine and its ring-tautomer indoline intermediates and a Cope rearrangement of the latter has been tested in a model study. 3-(α,α-Dimethylallyl)indolines derived from tetrahydrocarbazole and its cyclopentano equivalent have been synthesized by a five-step procedure. The compounds are stable up to ca. 200°C and liberate no benz-prenylated products even on pyrolysis beyond this temperature, thus diminishing the viability of the above biosynthetic hypothesis. The chemistry of the thermolyses is described.     

Activation of ergot alkaloid biosynthesis in prototrophic isolates by Claviceps purpurea protoplast fusion.

Intraspecific protoplast fusions were carried out with active ergocornine-ergokryptine and inactive ergocristine Claviceps purpurea strains and vice versa. The isolated prototrophic strains from both types of crosings produced all three alkaloid types, showing that biosynthesis of distinct alkaloid was activated in an inactive partner strain. The prototrophic isolates were stable on minimal medium but they segregated by subculturing on complete medium. In comparison with the original partner strains, differences in morphological and cytological characteristics were also established.     

黑麦草-内生真菌共生体对磷缺乏的生理生态反应

选取感染和未感染的黑麦草为材料,在田间盆栽条件下研究内生真菌感染对宿主植物抵抗磷胁迫方面的贡献。结果表明,土壤中缺磷或内生真菌感染对黑麦草地上部生长的影响不显著,但内生真菌感染对植株地下部生长和生理指标有明显影响。缺磷条件下,内生真菌感染有助于黑麦草地下部分的生长,表现在根系总长度更长,生物量更大;同时根中酚类物质和有机酸的含量也显著高于未感染植株,但因酚类物质和有机酸总量增加的同时并未伴随着二者浓度的增加,由此推测,内生真菌在改变宿主黑麦草根系代谢活动方面的贡献有限。此外,内生真菌感染显著提高了宿主植物的磷利用效率,这可能和缺磷条件下内生真菌感染植株具有更高的酸性磷酸酶活性有关。     

A mechanism of acquired resistance against an entomopathogenic nematode by Agrotis ipsilon feeding on perennial ryegrass harboring a fungal endophyte

Perennial ryegrass forms a symbiotic relationship with the fungus Neotyphodium lolii, which provides many benefits including resistance to herbivory through the production of alkaloids. The impact of endophytic grass on the third trophic level has received little attention. The black cutworm, Agrotis ipsilon, is less susceptible to the entomopathogenic nematode, Steinernema carpocapsae, when it consumes the endophytic grass. We examined the potential mechanisms of the resistance exhibited by A. ipsilon against S. carpocapsae. Although A. ipsilon larvae fed on endophytic grass had similar numbers of nematodes attached and that successfully developed into adults, they had significantly lower mortality than larvae fed on endophyte-free grass when exposed to nematodes for 1.5 h. We examined the effects of N. lolii produced ergot alkaloids, ergotamine tartrate, ergonovine maleate, ergocryptine, and erogcristine on nematode viability and infectivity. Ergonovine malate increased and ergocristine decreased the rates of nematode infectivity, whereas other treatments had no significant effect. We also investigated the effects of ergocristine on Xenorhabdus nematophila, the symbiotic bacterium of S. carpocapsae. Bacterial growth and pathogenicity were significantly reduced when the bacterium was grown in nutrient broth containing 200 μg/ml concentration of ergocristine. We conclude that herbivores capable of developing on endophytic grasses may acquire some level of resistance against S. carpocapsae due to the toxic effects of ergocristine on the bacterium, X. nematophila. Our results underscore the ability of N. lolii to affect trophic interactions through the production of alkaloids.     

Neotyphodium endophyte strain and superoxide dismutase activity in perennial ryegrass plants under water deficit

The presence of Neotyphodium endophyte in forage grass tillers has been associated with increased tolerance of abiotic stresses. The effect of four endophyte treatments (plants with three different strains of Neotyphodium lolii compared with plants without endophyte) on superoxide dismutase (SOD) (EC1.15.1.1) activity in Lolium perenne cv ‘Grasslands Samson’ was measured under high and low dehydration regimes in a glasshouse experiment. SOD activity was assayed by a microplate method utilising the inhibition of reduction of a tetrazolium dye by superoxide radicals. A progressive increase in dehydration over 2 weeks reduced shoot fresh weight, dry weight and shoot water content for high, compared with low, moisture-stressed plants. Mean shoot fresh weight was significantly lower for plants with strain AR37 endophyte than for plants with strain AR1 endophyte, wild-type or endophyte-free plants, but there was no interaction between endophyte treatment and dehydration treatment. There were no differences in mean SOD activity between the dehydration treatments, and the four endophyte treatments at any of the harvests. All harvest mean SOD levels for plants in both stress groups, however, were significantly different from the preceding harvest value. Between the first and second week of moisture stress there was a significant endophyte by harvest interaction for mean percentage change in SOD activity when activity in plants with wild-type strain endophyte increased more rapidly than in AR1, AR37 or endophyte-free plants. The results are in agreement with earlier reports suggesting that Neotyphodium endophytes do not have major effects on the water stress physiology of perennial ryegrass, although water deficits applied were not extreme.     

Correlation between growth and ergot alkaloid biosynthesis in Claviceps purpurea batch fermentation

Summary Following the growth kinetics of a C. purpurea ergotoxine-producing strain it was observed that alkaloid synthesis and alkaloid distribution depend on fungal growth velocity during idiophase. Formation of extracellular alkaloids is favoured by higher fungal growth velocity, while intracellular alkaloids begin to accumulate at a lower rate of growth. Simple lysergic acid derivatives prevali among extracellular alkaloids, whereas ergotoxines predominate among intracellular alkaloids. By varying cultivation conditions, by feeding the culture, or by varying the inoculum size, alkaloid composition can be influenced within the limits of strain capabilities.     

An ergot alkaloid biosynthesis gene and clustered hypothetical genes from Aspergillus fumigatus

The ergot alkaloids are a family of indole-derived mycotoxins with a variety of significant biological activities. Aspergillus fumigatus, a common airborne fungus and opportunistic human pathogen, and several fungi in the relatively distant taxon Clavicipitaceae (clavicipitaceous fungi) produce different sets of ergot alkaloids. The ergot alkaloids of these divergent fungi share a four-member ergoline ring but differ in the number, type, and position of the side chains. Several genes required for ergot alkaloid production are known in the clavicipitaceous fungi, and these genes are clustered in the genome of the ergot fungus Claviceps purpurea. We investigated whether the ergot alkaloids of A. fumigatus have a common biosynthetic and genetic origin with those of the clavicipitaceous fungi. A homolog of dmaW, the gene controlling the determinant step in the ergot alkaloid pathway of clavicipitaceous fungi, was identified in the A. fumigatus genome. Knockout of dmaW eliminated all known ergot alkaloids from A. fumigatus, and complementation of the mutation restored ergot alkaloid production. Clustered with dmaW in the A. fumigatus genome are sequences corresponding to five genes previously proposed to encode steps in the ergot alkaloid pathway of C. purpurea, as well as additional sequences whose deduced protein products are consistent with their involvement in the ergot alkaloid pathway. The corresponding genes have similarities in their nucleotide sequences, but the orientations and positions within the cluster of several of these genes differ. The data indicate that the ergot alkaloid biosynthetic capabilities in A. fumigatus and the clavicipitaceous fungi had a common origin.     

Surrogate transformation of perennial ryegrass, Lolium perenne, using genetically modified Acremonium endophyte.

Summary Conditions have been developed for transforming protoplasts of the perennial ryegrass endophyteAcremonium strain 187BB. Unlike most other ryegrass endophytes, this strain does not produce the lolitrem B neurotoxin and is therefore suitable as a host for surrogate introduction of foreign genes into grasses. Transformation frequencies of 700–800 transformants/g DNA were obtained for both linear and circular forms of pAN7-1, a hygromycin (hph) resistant plasmid. Up to 80% of the linear transformants were stable on further culturing but only 25% of the circular transformants retained hygromycin resistance. Integration of pAN7-1 into the genome was confirmed by Southern blotting and probing of genomic digests of transformant DNA. Both single and tandemly repeated copies of the plasmid were found in the genome and both the number and sites of integration varied among the transformants. At least 13 chromosomes were identified in 187BB using contour-clamped homogeneous electric field (CHEF) gel electrophoresis. Probing of Southern blots of these gels confirmed that pAN7-1 had integrated into different chromosomes. The -glucuronidase (GUS) gene,uidA, was also introduced into 187BB by co-transformation of pNOM-2 with pAN7-1. GUS activity was detected by growing the transformants on plates containing 5-bromo-4-chloro-3-indolyl -D-glucuronic acid and by enzyme assays of mycelial extracts. Severalhph- anduidA-containing transformants were reintroduced into ryegrass seedlings and expression of GUS visualized in vivo, demonstrating that 187BB can be used as a surrogate host to introduce foreign genes into perennial ryegrass. Molecular analysis of fungal isolates from the leaf sheath confirmed that the pattern of pAN7-1 and pNOM-2 hybridizing fragments was identical to that observed in the fungus used as inoculum.     

Selection of ergot alkaloid producers by induced mutagenesis

Using the induced mutagenesis technique, A series of genetically modified Claviceps sp. VKM F-2609 strains that display high levels of agroclavine and elymoclavine synthesis were selected by induced mutagenesis. Compared to the parent strain, c106 displayed a 40-fold higher level of agroclavine synthesis, and c66 displayed an eightfold higher level of elymoclavine synthesis. The levels of synthesis of other alkaloids were decreased in these strains. The effects of various carbohydrates on the strain growth and ergot alkaloid biosynthesis was then investigated in both the parent strain and c106. The largest amount of agroclavine was synthesized by c106 strain growing on a medium with maltose.     

Evidence for an ergot alkaloid gene cluster in Claviceps purpurea

A gene (cpd1) coding for the dimethylallyltryptophan synthase (DMATS) that catalyzes the first specific step in the biosynthesis of ergot alkaloids, was cloned from a strain of Claviceps purpurea that produces alkaloids in axenic culture. The derived gene product (CPD1) shows only 70% similarity to the corresponding gene previously isolated from Claviceps strain ATCC 26245, which is likely to be an isolate of C. fusiformis. Therefore, the related cpd1 most probably represents the first C. purpurea gene coding for an enzymatic step of the alkaloid biosynthetic pathway to be cloned. Analysis of the 3′-flanking region of cpd1 revealed a second, closely linked ergot alkaloid biosynthetic gene named cpps1, which codes for a 356-kDa polypeptide showing significant similiarity to fungal modular peptide synthetases. The protein contains three amino acid-activating modules, and in the second module a sequence is found which matches that of an internal peptide (17 amino acids in length) obtained from a tryptic digest of lysergyl peptide synthetase 1 (LPS1) of C. purpurea, thus confirming that cpps1 encodes LPS1. LPS1 activates the three amino acids of the peptide portion of ergot peptide alkaloids during D-lysergyl peptide assembly. Chromosome walking revealed the presence of additional genes upstream of cpd1 which are probably also involved in ergot alkaloid biosynthesis: cpox1 probably codes for an FAD-dependent oxidoreductase (which could represent the chanoclavine cyclase), and a second putative oxido-reductase gene, cpox2, is closely linked to it in inverse orientation. RT-PCR experiments confirm that all four genes are expressed under conditions of peptide alkaloid biosynthesis. These results strongly suggest that at least some genes of ergot alkaloid biosynthesis in C. purpurea are clustered, opening the way for a detailed molecular genetic analysis of the pathway. Received: 26 August 1998 / Accepted: 19 October 1998     

Contribution of ergot alkaloids to suppression of a grass-feeding caterpillar assessed with gene knockout endophytes in perennial ryegrass

Neotyphodium and Epichloë species (Ascomycota: Clavicipitaceae) are fungal symbionts (endophytes) of grasses. Many of these endophytes produce alkaloids that enhance their hosts’ resistance to insects or are toxic to grazing mammals. The goals of eliminating from forage grasses factors such as ergot alkaloids that are responsible for livestock disorders, while retaining pasture sustainability, and of developing resistant turf grasses, require better understanding of how particular alkaloids affect insect herbivores. We used perennial ryegrass Lolium perenne L. (Poaceae) symbiotic with Neotyphodium lolii × Epichloë typhina isolate Lp1 (a natural interspecific hybrid), as well as with genetically modified strains of Lp1 with altered ergot alkaloid profiles, to test effects of ergot alkaloids on feeding, growth, and survival of the black cutworm, Agrotis ipsilon (Hufnagel) (Lepidoptera: Noctuidae), a generalist grass‐feeding caterpillar. Neonates or late instars were provided clippings from glasshouse‐grown plants in choice and rearing trials. Wild‐type endophytic grass showed strong antixenosis and antibiosis, especially to neonates. Plant‐endophyte symbiota from which complex ergot alkaloids (ergovaline and lysergic acid amides such as ergine) or all ergot alkaloids were eliminated by endophyte gene knockout retained significant resistance against neonates. However, this activity was reduced compared to that of wild‐type Lp1, providing the first direct genetic evidence that ergot alkaloids contribute to insect resistance of endophytic grasses. Similarity of larval response to the two mutants suggested that ergovaline and/or ergine account for the somewhat greater potency of wild‐type Lp1 compared to the knockouts, whereas simpler ergot alkaloids contribute little to that added resistance. All of the endophyte strains also produced peramine, which was probably their primary resistance component. This study suggests that ergot alkaloids can be eliminated from an endophyte of perennial ryegrass while retaining significant insect resistance.     

The resistance of the perennial ryegrass cultivar Endura to ryegrass mosaic virus

The perennial ryegrass cv. Endura is particularly resistant to infection with two ryegrass mosaic virus isolates, RMV-Roth and RMV-Sax. A few plants appeared immune to RMV-Roth but were infected by RMV-Sax. Two plants that developed only mild symptoms after infection with RMV-Roth contained few virus particles, but passage through these resistant plants caused no detectable change in the virulence of RMV-Roth towards S 22 Italian ryegrass. In offsets derived from one of these resistant plants, RMV-Sax caused severe symptoms and attained a high virus concentration but it was unable to infect if the plant was already infected with RMV-Roth.     

Association of a fungal endophyte in perennial ryegrass with antibiosis to larvae of the southern armyworm, Spodoptera eridania

Larvae of the Southern armyworm Spodoptera eridania Cramer (Lepidoptera:Noctuidae), feeding on perennial ryegrasses (Lolium perenne L.) infected with an endophytic fungus (Acremonium loliae Latch, Christensen and Samuels), had a much lower survival rate (7–13%) than larvae feeding on endophyte-free ryegrasses (82–90%). Death of the larvae on endophyte-infected entries occurred rapidly between 144 h and 168 h of feeding. This corresponded with armyworms feeding on the base of the plant, where endophyte concentration is highest. Twenty-four hours after the start of the bioassay the larval mass and rate of larval development were significantly higher on endophytic entries. From 48–144 h no differences were seen, but after 144 h the mass of larvae on endophyte-infected grasses sharply declined. Observations from this bioassay further substantiate the association between A. loliae-infected ryegrass and antibiosis to several lepidopterous and coleopterous insect pests.

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Résumé Le ray-grass vivace (Lolium perenne), contaminé par le champignon endophyte Acremonium loliae Latch, Christensen & Samuels, a présenté une augmentation de la resistance à de nombreux coléoptères et lépidoptères nuisibles. Cette note examine les réactions de Spodoptera eridania Cramer (Lépido., Noctuidae) alimenté sur trois lignées de ray-grass contaminées par le champignon et trois lignées saines. Après 168 h d'alimentation sur ray-grass contaminé, les chenilles presentent une très forte mortalité; la survie n'est que de 7 à 13% contre 82 à 90% pour le ray-grass sain. Le décès brutal des chenilles correspond à leur alimentation sur la base de la plante ou la concentration du champignon est la plus forte. Les chenilles consomment constamment, broutant plus des 2/3 du feuillage du ray-grass; les broutements des six séries ne différaient pas significativement.Au bout de 24 h, la nombre de chenilles passées du 3ème au 4ème stade, et l'augmentation de poids sont plus élevés pour les séries sur plante contaminée, ce qui suggère un avantage initial pour les chenilles en présence de champignon endophyte, l'analyse en poids sec a montré que l'augmentation de poids initial est réel. Entre 48 et 144 h, cependant, le nombre de 4ème stade et le poids des chenilles sont les mêmes dans les deux séries. Après 144 h, le poids des chenilles sur ray-grass contaminé diminue significativement; aucune n'était parvenue au 5ème stade, contre 11% sur ray-grass sain. Nous n'avons pas observé de signes apparents de neurotoxicité. Au lieu de cela, il ya a eu interaction avec un processus physiologique fondamental, ce qui a provoqué une forte perte de poids larvaire et la mort, indiquant l'intervention d'inhibiteurs métaboliques.

     

The uptake and transport of silicon by perennial ryegrass and wheat

Summary In experiments with perennial ryegrass and wheat, silicon (Si) concentration in flowing solution culture was maintained constant at 0, 10 and 20 mgl⁻¹ (ryegrass) or 0, 20 and 40 mgl⁻¹ (wheat). Uptake and transport were measured in both species at frequent harvests over periods of up to 80 days. By the final harvests the initial differences in concentration between plants grown at high or low Si were largely eliminated. Much more Si was taken up by both species from the culture solution than was present in the transpiration stream. With ryegrass, the calculated cumulative amounts taken up through mass flow by plants grown at 10 or 20mgl⁻¹ Si, represented less than 40 and 70 per cent, respectively, of the total Si uptake. Up to 94 per cent of the Si taken up by wheat was transported rapidly to the shoots; older leaves contained up to 11.8 per cent Si.     

Influence of temperature on alkaloid levels and fall armyworm performance in endophytic tall fescue and perennial ryegrass

The symbiotic relationships between Neotyphodium endophytes (Clavicipitacea) and certain cool‐season (C3) grasses result in the synthesis of several alkaloids that defend the plant against herbivory. Over a 3 month period we evaluated the effects of temperature on the expression of these alkaloids in tall fescue, Festuca arundinacea Schreb, and perennial ryegrass, Lolium perenne L. (Poaceae). Response surface regression analysis indicated that month, temperature, and their interaction had an impact on the alkaloid levels in both grasses. We aimed to identify the alkaloids most closely associated with enhanced resistance to the fall armyworm, Spodoptera frugiperda JE Smith (Lepidoptera: Noctuidae), and clarify the role of temperature in governing the expression of these alkaloids. The dry weights and survival of fall armyworms feeding on endophyte‐infected tall fescue or perennial ryegrass were significantly lower than for those feeding on uninfected grass, whereas endophyte infection had no significant influence on survival. For tall fescue, a four‐alkaloid model consisting of a plant alkaloid, perloline, and the fungal alkaloids ergonovine chanoclavine, and ergocryptine, explained 47% of the variation in fall armyworm dry weight, whereas a three‐alkaloid model consisting of the plant alkaloid perloline methyl ether and the fungal alkaloids ergonovine and ergocryptine explained 70% of the variation in fall armyworm dry weight on perennial ryegrass. Although temperature had a significant influence on overall alkaloid expression in both grasses, the influence of temperature on individual alkaloids varied over time. The levels of those alkaloids most closely linked to armyworm performance increased linearly or curvilinearly with increasing temperature during the last 2 months of the study. We conclude that the growth temperature of grasses can influence the performance of fall armyworm, and that this effect may be mediated through a set of plant‐ and endophyte‐related alkaloids.