Is pathogenicity of Ustilago maydis (huitlacoche) strains on maize related to in vitro production of indole-3-acetic acid?

Corn smut caused by Ustilago maydis (DC) Corda on maize (Zea mays L.) is characterized by gall (tumour) formation on aerial parts of the plant. Young galls on immature corn ears are called huitlacoche and are highly appreciated as a food delicacy. Several reports have suggested that production of the auxin indole-3-acetic acid (IAA) by U. maydis might be involved in tumour formation. Because strains showing defects in IAA biosynthesis (Iaa^– phenotype) would be valuable in elucidating the role of IAA in pathogenicity, in a previous study we isolated and analysed several such mutants. In the present work, we have crossed a null Iaa^– auxotrophic mutant with compatible wild-type strains. The main objective of the present work was to evaluate the pathogenicity of crosses involving wild-type and Iaa^– strains, in order to examine its relation to IAA production. Significant differences were found in growth, IAA production and ability to survive in water suspension among wild-type and mutant progeny strains. In general, high levels of pathogenicity were associated to high levels of IAA production by the strains, which supports the hypothesis that U. maydis strains require the ability to produce IAA in order to induce tumours in the host.     

Response of Three Hymenopteran Parasitoids Introduced for Fruit Fly Control to a Gall-Forming Tephritid,Procecidochares alani(Diptera: Tephritidae)

The response of three larval–pupal parasitoids,Diachasmimorpha longicaudata(Ashmead),Diachasmimorpha tryoni(Cameron), andTetrastichus giffardianusSilvestri, to the Hamakua pamakani gall fly,Procecidochares alaniL., was determined in the laboratory. We also observed responses of these parasitoids to their normal rearing hosts,Bactrocera dorsalis(Hendel) andCeratitis capitata(Weidemann).D. tryonilanded on pamakani galls or on dishes containingP. alanilarvae as frequently as on dishes containingC. capitata.In contrast,D. longicaudataonly rarely landed on the galls.D. tryoniandD. longicaudataoviposited in galls in fewer than 1% of our observations.D. longicaudataprobedP. alanilarvae as frequently asB. dorsalislarvae, but no parasitoid offspring were observed.D. tryonioviposited more frequently inC. capitatathanP. alani.NoD. tryonideveloped inP. alanilarvae.T. giffardianuslanded on pamakani galls andP. alanilarvae more frequently than any other host substrate. In contrast,T. giffardianusentered galls with artificially opened windows one time in 10 observations. We observed 12% parasitism ofP. alanilarvae dissected from the galls and 20% of parasitismP. alaniin the windowed galls. We discuss the implications of our results for future augmentative or classical biological control studies.     

Infection of maize leaves with Ustilago maydis prevents establishment of C4 photosynthesis

The Basidiomycete fungus Ustilago maydis is the common agent of corn smut and is capable of inducing gall growth on infected tissue of the C₄ plant maize (Zea mays). While U. maydis is very well characterized on the genetic level, the physiological changes in the host plant in response to U. maydis infection have not been studied in detail, yet.Therefore, we examined the influence of U. maydis infection on photosynthetic performance and carbon metabolism in maize leaf galls.At all stages of development, U. maydis-induced leaf galls exhibited carbon dioxide response curves, CO₂ compensation points and enzymatic activities that are characteristic of C₃ photosynthesis, demonstrating that the establishment of C₄ metabolism is prevented in infected tissue. Hexose contents and hexose/sucrose ratio of leaf galls remained high at 6 days post infection, while a shift in free sugar metabolism was observed in the uninfected controls at that time point. Concomitantly, transitory starch production and sucrose accumulation during the light period remained low in leaf galls. Given that U. maydis is infectious on young developing tissue, the observed changes in carbohydrate metabolism suggest that the pathogen manipulates the developing leaf tissue to arrest sink-to-source transition in favor of maintaining sink metabolism in the host cells.Furthermore, evidence is presented that carbohydrate supply during the biotrophic phase of the pathogen is assured by a fungal invertase.     

The three-dimensional structure of vascular tissues in Agrobacterium tumefaciens-induced crown galls and in the host stems of Ricinus communis L.

The three-dimensional pattern of phloem and xylem in 10-d-to two-month-old tumors induced by Agrobacterium tumefaciens (C58) and in adjacent Ricinus communis L. stem tissues was studied in thick sections by clearing with lactic acid and by staining with lacmoid. The crown galls contained two types of vascular strands: treelike branched bundles, which developed towards the tumor surface in fast-growing regions, and globular bundles in the slowly developing parts. Both types of vascular bundles contained xylem and phloem and were continuous with the vascular system of the host plant. The tumor bundles were interconnected by a dense net of phloem anastomoses, consisting of sieve tubes but no vessels. These vascular patterns reflect the apparent synthesis sites, concentration gradients and flow pathways of the plant hormones additionally produced in the tumors upon expression of the T-DNA-encoded genes. The A. tumefaciens-induced crown gall affected vascular differentiation in the host stem. In the basipetal direction, the tumor induced more xylem differentiation directly below it, where the crown-gall bundles joined the vascular system of the host. In the centripetal direction, the crown gall caused the development of pathologic xylem characterized by narrow vessels, giant rays and absence of fibers. On the other hand, most probably as a consequence of its gibberellic acid content, the host plant stimulated a local differentiation of regenerative phloem and xylem fibers with unique ramifications, only at the base of the tumor. However, fibers were absent from the main body of the crown gall. The study shows that A. tumefaciens-induced crown galls are characterized by a sophisticated network of vascular tissues in the tumor and are accompanied by a perturbated vessel system in the host. The hormonal mechanisms controlling vascular differentiation in the tumor and neighboring host tissues are discussed. In addition, the gall constriction hypothesis is proposed for explaining the mechanism which gives priority in water supply to the growing gall over the host shoot.We thank Dr. Zs. Koncz (Max-Planck-Institut für Züchtungsforschung, Köln, Germany) for Agrobacterium strains and the Deutsche Forschungsgemeinschaft (SFB 199) for financial support to C.I.U.     

油茶叶肿病子房瘿体和叶片瘿体的形态结构特征观察

采用光学显微镜观察了油茶叶肿病子房瘿体和叶片瘿体的形态特征和组织结构特点。结果表明:(1)油茶叶肿病瘿体是油茶的幼嫩子房和幼叶被细丽外担菌感染后所导致的组织增生而成的,细丽外担菌分布于成熟子房瘿体的外表面和叶片瘿体的表面。(2)子房瘿体由受感染的雌蕊子房增殖而来,成熟后表皮层脱落。(3)子房壁分两层,外层子房壁肉质肥厚,主要由大型薄壁细胞构成,是食用的主要部分,内层子房壁为较薄的心皮层,内外两层子房壁之间具有较大的空隙;心皮内有胚珠,胚珠着生在中轴胎座上,胚珠内部中空而没有育性。(4)叶片瘿体为受感染的幼嫩叶片增殖所致,由大型薄壁细胞构成,瘿体表面具表皮层,成熟后表皮脱落。(5)在正常叶片与叶片瘿体的过渡区内有维管束相通,瘿体侧的厚度比正常叶片厚度增加3～4倍,细胞体积增大5～10倍,但瘿体细胞内无叶绿体。     

Variation in selection pressures on the goldenrod gall fly and the competitive interactions of its natural enemies

Summary Larvae of the tephritid fly Eurosta solidaginis induce ball-shaped galls on the stem of tall goldenrod, Solidago altissima. Survival probability depends on gall size; in small galls the larva is vulnerable to parasitoid oviposition, whereas larvae in large galls are more frequently eaten by avian predators. Fly populations from 20 natural old fields in central Pennsylvania were monitored in 1983 and 1984 to examine the distribution of the selection intensity imposed by natural enemies, the parasitoids Eurytoma gigantea and E. obtusiventris, the inquiline Mordellistena unicolor, and the predatory birds Dendrocopus pubescens and Parus atricapillus. Mordellistena and E. obtusiventris are able to attack galls of all diameters while E. gigantea and the predatory birds preferentially assaulted small and large diameter galls, respectively. Eurosta in intermediate sized galls had the highest survivorship, hence selection had a stabilizing component. However, parasitoid attack was more frequent than bird attack, and the two did not exactly balance, thus there was also a directional component. The mean directional selection intensity on gall size was 0.21 standard deviations of the mean, indicating that larger gall size was favored. Interactions among the insect members of the Eurosta natural enemy guild are complex and frequent.     

Can there be an escalating arms race without coevolution? Implications from a host-parasitoid simulation

Summary Under a restricted set of conditions, predator-prey or parasite-host systems may exhibit an escalating arms race over several generations that is not coevolutionary. Preconditions for such a process include high correlation between prey/host quality and defensive capability, and phenotypic plasticity in predator/parasite-counter defenses that responds to quality. We present simulation models based on the parasitoid waspEurytoma gigantea, which lays its egg in the goldenrod gall induced by the flyEurosta solidaginis. For the parasitoid to successfully lay an egg, the gall walls must be thinner than the parasitoid's ovipositor is long. Wall thickness is highly correlated with gall size, so probability of successful attack declines with gall size. However, since the parasitoid eats the gall tissue, individuals developing in small galls have little food and mature with shorter ovipositors than those which develop in large galls. The simulation showed that the population mean parasitoid size is set by mean gall size. Since small galls are more frequently parasitized, there is a selection pressure on the gallmaker to induce larger galls. But, an additional simulation showed that since parasitoid ovipositor length depends on gall size, an evolutionary increase in gall size will also result in a non-evolutionary increase in parasitoid body size and ovipositor length over several generations.     

Parasitoid pressure and the radiation of a gallforming group (Cecidomyiidae: Asphondylia spp.) on creosote bush (Larrea tridentata)

Summary We tested the Enemy Impact Hypothesis, which predicts that communities of one tropic level are organized by the tropic level above. In the case of gallforming insect communities, the hypothesis predicts that gall morphology will diverge, minimizing the number of parasitoids shared among species. We used the monophyletic group of gallforming cecidomyiids (Asphondylia spp.) on creosote bush (Larrea tridentata) to test this hypothesis, predicting that species with thicker gall walls should exclude species of parasitoids with shorter ovipositors and have lower levels of parasitism. Of 17 parasitoid species reared from Asphondylia galls on creosote bush, 9 accounted for over 98% of parasitism. Seven of these 9 species had ovipositors long enough to penetrate 10 of 13 gall morphs measured. There was no significant relationship between gall wall thickness and number of associated parasitoid species (r ²=0.01, P>0.05, n=13). There was no relationship between gall wall thickness and types of parasitoid species colonizing galls: parasitoids with the shortest ovipositors colonized all types of gall morphs and were dominant members of the parasitoid assemblages in galls with the thickest walls. Ultimately, there were no significant differences in percent parasitism among Asphondylia species, regardless of gall wall thickness. We found no difference in numbers of associated parasitoids or percent parasitism in galls with different textures (e.g. hairy versus smooth), different locations on the plant or different phenologies. Our results suggest that enemy impact has not influenced the diversity of this gall community. Gall wall thickness, phenology, location on the plant and surface structure do not appear to influence the distribution of parasitoid species. Other explanations are offered to account for diversity in gall morphology among these species.     

Effects of Gall Induction by <Emphasis Type="Italic">Epiblema Strenuana</Emphasis> on Gas Exchange,Nutrients, and Energetics in <Emphasis Type="Italic">Parthenium Hysterophorus</Emphasis>

Gall induction by arthropods results in a range of morphological and physiological changes in their host plants. We examined changes in gas exchange, nutrients, and energetics related to the presence of stem galls on Parthenium hysterophorus L. (Asteraceae) induced by the moth, Epiblema strenuana Walker (Lepidoptera: Tortricidae). We compared the effects of galls on P. hysterophorus in the rosette (young), pre-flowering (mature), and flowering (old) stages. Gall induction reduced the leaf-water potential, especially in flowering stage plants. In young and mature stage plants, galling reduced photosynthetic rates considerably. Gall induction reduced the transpiration rate mostly in mature plants, and this also diminished stomatal conductance. Energy levels in most galls and in shoot tissue immediately below the galls were significantly higher than the energy levels in stem tissue immediately above the galls, indicating that the gall acts as a mobilizing sink for the moth. Galling had significant effects on concentrations of minerals such as boron, chloride, magnesium, and zinc. In galled plants, reduced leaf-water potential and reduced rates of photosynthesis, transpiration, and stomatal conductance may have altered mineral element levels. These observed effects demonstrate that E. strenuana has the potential to regulate P. hysterophorus.     

Histocytological aspects of four types of ambrosia galls on Machilus zuihoensis Hayata (Lauraceae)

Four types of prosoplasmatic galls induced by Daphnephila midges are found on leaves of Machilus zuihoensis, a species endemic to Taiwan: urn- and small urn-shaped, obovate, and hairy oblong galls. In addition to containing nutritive tissues, these galls are lined with fungal hyphae. The objective of this study was to describe and compare the structural organization of the various gall morphologies and to examine the ultrastructure of the nutritive and fungal cells lining the gall chambers. The morphology and ultrastructure of mature-stage galls were examined by light, scanning electron, and transmission electron microscopy. Diverse epidermal cell shapes and wax textures were observed in the leaves and galls of M. zuihoensis. In small urn-shaped, obovate, and hairy oblong galls vascular bundles extend from the gall base to near the centre of the gall top. In contrast, vascular bundles in urn-shaped galls are distributed in the gall wall and extend to close to the outer gall top. Trichomes were present only abaxially on leaves and on hairy oblong gall surfaces. Starch granules, tannins, and mucilage were distributed differently among the four gall types. Further, fungal mycelia spread in the interior gall wall and partially passed through the intercellular spaces of nutritive cells and reached the sclerenchyma. Histological analyses revealed that the surface structure of galls differs from that of the leaf and that the epidermal organization differs among the four gall types. Different types of leaf galls on the same plant have different patterns of tissue stratification and contain different ergastic substances. The results of this study will contribute to the understanding of tritrophic relationships and the complex interactions among parasitic gall-inducing insects, mutualistic fungi, and host plants.     

Growth of coyote willow and the attack and survival of a mid-rib galling sawfly,Euura sp.

We studied the relationship between variation in age and shoot characteristics of the host plant Salix exigua Nuttall (coyote or sandbar willow) and the attack and survival of Euura sp. (an unnamed leaf-midrib galling sawfly). Variation in shoot characteristics resulted from reduced growth as willow ramets aged. Mean shoot length per ramet and mean longest leaf length per shoot decreased by 95% and 50% respectively between 1- and 9-year-old willow ramets. All measured shoot characteristics-shoot length, longest leaf length, number of leaves per shoot, and mean internode length-were significantly negatively correlated with ramet age (r ² ranged from –0.23 to –0.41). Correlations between shoot characteristics were highly positive, indicating that plants also grew in a strongly integrated fashion (r ² ranged from 0.54 to 0.85). Four hypotheses were examined to explain sawfly attack patterns. The host-plant hypothesis was supported in explaining enhanced larval sawfly survival through reduced plant resistance. As willow ramets aged, the probability of Euura sp. attack decreased over 10-fold, from 0.315 on 1-year-old ramets to 0.024 on 2- to 9-year-old ramets. As shoot length increased, the probability of sawfly attack increased over 100-fold, from 0.007 on shoots <100 mm, to 0.800 on shoots in the 1001–1100 mm shoot length class. These attack patterns occurred even though 1-year-old ramets and shoots >500 mm each represented less than 2% of the total shoots available for oviposition. Host plant induced mortality of the egg/early instar stage decreased by 50% on longer leaves and was the most important factor determining survival differences between vigorous and non-vigorous hosts. Sawfly attack was not determined by the resource distribution hypothesis. Although shoots <200 mm contained 82% of the total leaves available, they contained only 43% of the galls initiated. The attack pattern also was not explained by the gall volume hypothesis. Although gall volume increased on longer shoots, there was no significant variation in mid or late instar mortality over shoot length, as would be expected if food resources within smaller galls were limited. The natural enemy attack hypothesis could not explain the pattern of oviposition since predation was greater on longer shoots and leaves. In addition, larval survival was related to oviposition behavior. Due to a 69% reduction in late instar death and an 83% reduction in parasitism, survival of progeny in galls initiated close to the petiole base was 2.8 times greater than in galls initiated near the leaf tip. A 75% reduction in gall volume over this range of gall positions may account for the observed increases in late instar mortality and parasitism.     

Parasitoid attack and its consequences to the development of the galling psyllid Baccharopelma dracunculifoliae

This study was aimed to determine the parasitism rates of the galling psyllid Baccharopelma dracunculifoliae (Hemiptera: Psyllidae), and the effects of parasitoid attack on gall growth dynamics. Also, life history traits of the most common parasitoid, Psyllaephagus baccharidis (Hymenoptera: Encyrtidae), are described. A cohort of galls was followed throughout its development, and a sample of galls was collected monthly from April to August 1999. Furthermore, a caging experiment was performed to determine the periods of parasitoid attack. Parasitism rates reached 45.2% at the end of gall development, and the caging experiment suggested that most of the attack occurred at the beginning of gall development. P. baccharidis was responsible for 93% of the observed parasitism. This koinobiont parasitoid attacked galls early during their development and probably stimulated nymph feeding, causing a higher growth of parasitised galls. This alteration in gall growth dynamics may have indirect, harmful consequences to the host plant, since larger galls usually are stronger nutrient sinks for the plant. Healthy nymphs of B. dracunculifoliae growing in galls with parasitised nymphs had a larger size than healthy nymphs in unparasitised clutches, regardless of nymph number. This may have unexpected beneficial consequences to the galling psyllid, since the resultant larger adults may have increased survivorship and reproductive success. These results contrast with the common view that parasitoids are always beneficial to the host plant in three-trophic systems, and koinobiont parasitoids may constitute exceptions due to their feeding behaviour.

Zusammenfassung

Diese Studie zielte darauf ab, die Parasitierungsraten der gallbildenden Psyllide Baccharopelma dracunculifoliae (Hemiptera: Psyllidae) und die Effekte des parasitoiden Befalls auf die Wachstumsdynamik der Gallen zu bestimmen. Außerdem wird die Lebensweise des häufigsten Parasitoiden Psyllaephagus baccharidis (Hymenoptera: Ecyrtidae) beschrieben. Eine Kohorte von Gallen wurde durch ihre Entwicklung verfolgt und eine Probe von Gallen monatlich von April bis August 1999 gesammelt. Darüber hinaus wurde ein Käfigexperiment durchgeführt, um die Zeitspannen des parasitoiden Befalls zu bestimmen. Die Parasitierungsraten erreichten 45.2 % am Ende der Gallentwicklung und das Käfigexperiment läßt vermuten, dass der Großteil des Befalls zu Beginn erfolgte. P. baccharidis war für 93 % der beobachteten Parasitierung verantwortlich. Dieser koinobionte Parasitoid befiel die Gallen früh in ihrer Entwicklung und stimulierte vermutlich den Fraß der Nymphe und verursachte damit ein höheres Wachstum der parasitierten Gallen. Diese Veränderung in der Wachstumsdynamik der Gallen könnte indirekte, schädliche Auswirkungen auf die Wirtspflanze haben, da größere Gallen normalerweise größere Stickstoffsenken für die Pflanze sind. Gesunde Nymphen von B. dracunculifoliae, die in Gallen mit parasitierten Nymphen wuchsen, waren unabhängig von der Nymphenzahl größer als gesunde Nymphen in nicht parasitierten Gelegen. Das könnte unerwartete positive Konsequenzen für die gallbildende Psyllide haben, da die resultierenden größeren Adulten eine erhöhte Überlebenschance und einen erhöhten reproduktiven Erfolg haben könnten. Diese Ergebnisse stehen im Widerspruch zu der allgemeinen Meinung, dass Parasitoide in tritrophischen Systemen immer positiv auf den Wirt wirken. Konobionte Parasitoide könnten aufgrund ihres Fraßverhaltens eine Ausnahme bilden.     

Endophytic insect communities of two prairie perennials (Asteraceae: Silphium spp.)

Little is known of the biology of most insects that are endemic to prairie ecosystems of North America, with the exception of large and conspicuous species. In particular, species that are sequestered within plant tissues are commonly overlooked. In this paper, we assess the biodiversity of endophytic insects that inhabit stems of Silphium laciniatum L. and S. terebinthinaceum Jacquin (Asteraceae), endemic plants of tallgrass prairies. Endophytic herbivores, gall wasps Antistrophus rufus Gillette and A. minor Gillette (Hymenoptera: Cynipidae) and stem-boring larvae of the beetle Mordellistena aethiops Smith (Coleoptera: Mordellidae) were attacked by 10 species of natural enemies. We report new host plant associations for herbivores, and new host insect associations for parasitoids. The two plant species differed significantly in their densities of gall wasps and the vertical dispersion of galls within stems. Interactions within and between trophic levels attest to the biodiversity of endophytic insect communities, and the specialized nature of these insects suggests they are highly vulnerable to habitat conservation practices that involve destruction of dead vegetation.     

Seasonal acquisition of mineral nutrients by a chalcid gall on lowbush blueberry

Seasonal accumulation of various mineral nutrients by galls of the chalcidHemadas nubilipennis on lowbush blueberry were examined in various phases of gall development. Levels of copper, nickel iron and zinc were higher in tissues of galls in initiation phase compared to tips of ungalled shoots and in general were higher than galls in growth and maturation phases. Levels of manganese and magnesium in gall tissues decrease throughout the season compared to ungalled shoots. Levels of calcium are less in gall tissue in initiation phase compared to ungalled shoots, and elevated in maturation phase. Patterns of mineral concentration within galls at various phases of development are related to known physiological roles of minerals in plant nutrition; however we conclude that patterns are variable and their significance in gall physiology requires further study.     

The functional resource of a gall-forming adelgid

Interactions among shoots within plant modules could allow gall-insects to acquire resources from other plant parts near the feeding sites. As a result, nearby plant parts may act as a functional resource, or extended resource base. We tested for functional interconections between galls and adjacent ungalled shoots in Adelges cooleyi Gil. (Homoptera: Adelgidae) on Picea engelmanni, Engelmann spruce. Observations of gall and surrounding shoot weights showed that gall weights were twice normal shoot weights, but that surrounding shoot weights were unaffected. Reducing photosynthate availability by covering galls or surrounding shoots with opaque cloth suggested that functional interconnections exist among them; covering galls reduced surrounding current-year ungalled shoot weight, and covering surrounding shoots reduced their weight even further, but neither covering treatment affected gall or gall-insect weight. These patterns suggest that surrounding shoots constitute an extended and flexibly utilized resource base for adelgid galls. Resources made available via functional interconnections appeared to be equally available throughout adelgid galls. No differences were found in gall-insect performance in parts of the gall closer to connections with surrounding shoots compared to more distantly-located gall-insects. Further studies are required to examine patterns of resource movement among unmanipulated galls and shoots. Functional resources may be common features of plant/gall-insect interactions, potentially playing an important role in gall-insect reproductive success and habitat selection.     

梭梭叶苞状虫瘿结构特征和生长发育研究

该研究采用形态和显微结构观察方法,并结合基于转录组测序和差异表达基因富集分析,研究梭梭叶苞状虫瘿的生长发育特点以及梭梭叶苞状虫瘿与梭梭之间的相互关系,为昆虫与植物协同进化和梭梭虫害防治提供理论依据。结果表明:(1)叶苞状虫瘿的生长发育阶段可以分为3个时期,生长期、形成期和衰亡期。(2)在生长期和形成期的叶苞状虫瘿与梭梭同化枝、鳞叶部位的解剖结构有明显的差别:生长期叶苞状虫瘿的表皮细胞外的角质层损伤,但表皮细胞完整、形态差异不大、排列紧密,没有栅栏细胞组织和花环结构,只有含水量较高的海绵组织,且细胞比同化枝和鳞片小而密,细胞数量是鳞片中的2倍左右,维管柱直径比同化枝和鳞片小;形成期叶苞状虫瘿的表皮细胞外的角质层受到严重损伤,表皮细胞不完整、形态差异大、排列疏松,海绵组织含水量严重减少,维管组织不明显。(3)梭梭叶苞状虫瘿中与植物细胞正常发育相关、光合作用相关的基因富集下调表达,与胁迫相关基因富集上调表达。研究认为,梭梭的叶苞状虫瘿只为促进木虱的生长发育,在提高梭梭光合作用方面没有作用。     

Indole Glucosinolates and Camalexin do not Influence the Development of the Clubroot Disease in Arabidopsis thaliana

Root galls of Brassicaceae caused by Plasmodiophora brassicae are dependent on increased auxin and cytokinin formation. In this study we investigated whether indole glucosinolates are involved in indole‐3‐acetic acid (IAA) biosynthesis in root galls, by using a genetic approach. The cytochrome P450 enzymes, CYP79B2 and CYP79B3, convert tryptophan to indole‐3‐acetaldoxime (IAOx), which is a precursor for indole glucosinolates and the phytoalexin camalexin in Arabidopsis thaliana. Root galls of the Arabidopsis ecotypes Wassilewskija (WS) and Columbia (Col) accumulated camalexin, WS at levels up to 320 μg/g dry weight. By contrast, camalexin was absent in root galls of cyp79b2/b3 double mutants. Infection rate and disease index as a measure of club development in mutant and wild‐type plants of the two ecotypes were investigated and no differences were found in gall formation. This demonstrates that camalexin is an ineffective inhibitor of P. brassicae and indole glucosinolates are not the source of elevated levels of IAA in galls, because free IAA levels in mutant galls were comparable with those in wild type.