Melanin production in Alternaria helianthi

Abstract

Most of the plant pathogenic fungi produce a dark phenolic polymer called melanin. The high performance liquid chromatography (HPLC) analysis of the mycelial extract of Alternaria helianthi revealed an accumulation of scytalone and a shunt metabolite 2-hydroxyjuglone which confirms the production of dihydroxynapthalene type of melanin. The growth and melanin of A. helianthi increased when grown in host extract broth at 6.5 pH and a temperature beyond 30°C had an inhibitory effect on the pathogen. The production and type of melanin produced in Alternaria helianthi is reported for the first time.     

The Influence of Plant Extracts on Phytotoxin Production and Growth Rate of Alternaria helianthi

When liquid cultures of Alternaria helianthi were supplemented with aqueous extracts of leaf tissue of its host plant (sunflower), pronounced effects on both growth and production of the toxin deoxyradicinin were apparent. Very low levels of leaf extract stimulated toxin production but did not significantly affect growth, while higher levels markedly stimulated mycelial growth and at the same time toxin production was greatly suppressed. Leaf extracts of non-host plant species were also stimulatory to phytotoxin biosynthesis.     

The infection process, sporulation and survival of Alternaria helianthi on sunflower

Electron microscopy was used to study the infection of sunflower leaves by Alternaria helianthi. Conidia germinated by producing one to many germ tubes which grew across the leaf surface before forming appressoria. The fungus directly penetrated its host through the cuticle and epidermis. Entry into the host through wounds and stomates was also observed. Extracellular sheaths were found to be associated with germ tubes and intercellular hyphae of A. helianthi. Conidiophores developed through collapsed stomates, from leaf veins, trichomes and also from mycelium growing across the host leaf surface. Microcylic conidia were produced directly from parent conidia under certain conditions. Studies using a volumetric spore trap showed that the airborne spore concentration followed a distinct periodicity with peaks occurring between 0900 and 1100 h each day. Laboratory studies showed that safflower, noogoora burr and bathurst burr could serve as alternative hosts for A. helianthi. The pathogen was readily isolated from sunflower crop debris from a diseased crop that had been harvested 1 yr earlier.     

Deoxyradicinin and 3-epideoxyradicinol production by the sunflower pathogen Alternaria helianthi

The phytotoxic compound deoxyradicinin, a metabolite of Alternaria helianthi, was isolated from naturally infected leaves of sunflower (Helianthus annuus). The production of this toxin in liquid culture together with 3-epideoxyradicinol is discussed. Production of deoxyradicinin by liquid cultures was observed to decrease after successive sub-culture of the fungus on solid medium. All 10 accessions of Helianthus tested were sensitive to deoxyradicinin although some quantitative differences between lines were noted. Evidence is presented for the metabolism of deoxyradicinin by host leaf tissue.     

Microscopic Observation on the Development of Puccinia striiformis in the Spike and Stem of Wheat

The majority of germ tubes of the pathotype CYR32 of Puccinia striiformis f.sp. tritici formed on the surface of spike organs of the susceptible wheat cv. Suwon 11 penetrated through the stomatal pore, only a few germ tubes formed small appressoria over the stomata. In the lemma, palea and glume, the stripe rust fungus spread between the parenchyma cells close to the inner epidermal layer, but the fungus did not develop between the thick‐walled cells near the outer epidermal layer of these organs. In the awn and stem, spread of the stripe rust was confined to the intercellular spaces of the chlorophyll parenchyma, beneath the invaded stomatal pore of the epidermis and the urediniospores to be released disrupted the epidermis. In the caryopsis, the spread of hyphae was restricted to the intercellular spaces of the pericarp cells.     

Cytological studies on rust fungi. (vi) fine structures of infection process of Kuehneola japonica (diet.) dietel

The behavior of rust fungi in their host plants has been elucidated by electron microscopy. However, most of the ultrastructural studies on rust fungi have focused on the uredial stage. In order to elucidate the features of the sporidial stage, we studied the fine structure of Kuehneola japonica, a short-cycle rust, in rose leaves. Infection pegs arising from appressoria penetrated the host walls. Papillae formed at the time of penetration against the outer epidermal cell walls. The papillae which had formed at the penetration sites grew extensively and partially surrounded the intracellular hyphae which were connected with the infection pegs. The intracellular hyphae in the epidermal cells developed further and entered adjacent parenchyma cells. Walls of parenchyma cells either invaginated or thin papillae formed at penetration sites and the invaginated walls or papillae surrounded the necks of the intracellular hyphae. Intracellular hyphae in both epidermal and parenchyma cells were not enveloped by the sheath before 20 days after inoculation. In specimens prepared 20 days after inoculation, some of the intracellular hyphae were enveloped by a sheath in both palisade and spongy parenchyma cells. The sheathed hyphae resembled haustoria of other rust fungi which had been described previously. Teliospore initials were formed in mycelial masses in intercellular spaces between the epidermal cells and palisade parenchyma cells 20 days after inoculation. Uninucleate teliospores developed from teliospore initials 30 days after inoculation.Contribution No. 32.     

Leaf curl disease of Almond caused byTaphrina deformans (Berk.) Tul.

Summary The host/parasite relationship ofTaphrina deformans (Berk.) Tul. on Almond,Prunus dulcis (Miller) D. A. Webb (=Prunus amygdalus Stokes), has been studied with the light microscope by clearing and sectioning infected leaves.A quantitative study of the host reaction shows that the presence of the fungus causes immediate cell division (hyperplasia) followed by cell enlargement (hypertrophy) and cell differentiation. The epidermal and bundle sheath cells in infected regions contain anthocyanin.The vegetative mycelium is located in intercellular spaces in three distinct leaf regions. The sub-epidermal and intercellular hyphae are morphologically similar, consisting of an irregularly branching network of cells separated by unusual septa. Sub-cuticular hyphae have a more regular shape and become short and wide during development of the disease.Infection margins illustrate changes in the healthy leaf caused byT. deformans and observations indicate that the fungus spreads in the upper leaf regions.     

Analysis of Cultural and Genetic Diversity in Alternaria helianthi and Determination of Pathogenic Variability Using Wild Helianthus Species

The study aims at assessment of morphological, molecular and pathogenic variability of Alternaria helianthi, incitant of leaf blight of sunflower. Morphological characteristics determined for 26 isolates of A. helianthi from India revealed variations in shape of culture, pigmentation, conidial measurements, number of septa and colony growth. The conidia of isolate Ah‐7 were long, while conidia of isolate Ah‐15 were short. Based on cultural characters, isolates were classified into four groups. Genetic variability of the isolates was assessed by random amplified polymorphic DNA analysis. Good polymorphism was observed and cluster analysis indicated presence of six genetically distinct groups among the isolates. The isolates Ah‐1, Ah‐7 and Ah‐14 were genetically distinct. Resistant sources are not available in cultivated sunflower, while wild Helianthus species possess resistance to multiple stresses. We evaluated reaction of wild Helianthus species to isolates of A. helianthi. Among wild Helianthus species, H. tuberosus followed by H. occidentalis showed moderately to highly resistant reaction to all the isolates and recorded less disease incidence. The species H. argophyllus followed by H. laevigatus showed more disease incidence. The cultivated sunflower recorded susceptible reaction to most of the isolates and recorded high disease incidence. The isolates differed significantly for pathogenic reaction and were grouped into three pathogenicity groups; low, medium and high. Six isolates induced <20% disease incidence and were included in the low pathogenicity group. Majority of isolates were in the medium pathogenicity group. Six isolates i.e. Ah‐9, Ah‐10, Ah‐18, Ah‐20, Ah‐24 and Ah‐26 induced more than 50% disease incidence and were considered high pathogenicity group. Our results demonstrate the existence of considerable variation in resistance of Helianthus species to A. helianthi and also in morphological and genetic characters of A. helianthi isolates prevalent in India.     

The leaf internal morphology and ultrastructure of Zostera muelleri irmisch ex aschers. (Zosteraceae): a comparative study of the intertidal and subtidal forms

The leaf anatomy, histochemistry and ultrastructure of the intertidal and subtidal seagrass Zostera muelleri Irmish ex Aschers. from Westernport Bay, Victoria were studied. Unusual anatomical and ultrastructural features are compared with other seagrasses and their functional significance is assessed. Subcuticular cavities are present in the young blade, but not observed in the older blade nor young and old leaf sheath. Wall ingrowths occur in the blade epidermal cells particularly on the inner tangential walls and the lower portions of the radial walls. Plasmodesmata are present between adjacent epidermal cells and between the epidermal and mesophyll cells, suggesting that solutes could transfer between these tissues both symplastically and apoplastically. Each leaf has three longitudinally aligned vascular bundles, each of which comprises a single xylem element isolated from the phloem tissue. The phloem consists of nacreous-walled sieve elements accompanied by phloem parenchyma cells which also process wall ingrowths. The xylem walls are completely hydrolysed and the middle lamella borders directly on the xylem lumen. Leaves have prominent air lacunae bisected transversely by septa at regular intervals along their length. Each septum consists of a file of small parenchyma cells with wall protuberances projecting into intercellular space. There are no major structural differences between the subtidal and intertidal plants, but the former have larger leaves and more leaves per shoot than the latter. In addition, a network of unusual reticulated fungal hyphae is present in the leaf intercellular spaces of the subtidal form and this network may facilitate solute transfer in these plants.     

A greenhouse assay to screen sunflower for resistance to Alternaria helianthi

A greenhouse assay to screen sunflower for resistance to Alternaria helianthi is described. A comparison of conditions led to the following standard conditions being recommended. The first or second pair of leaves of seedling plants at the V8 growth stage are inoculated using inoculum grown on sunflower leaf extract agar for 5–10 days at an inoculum density of 1–2 spores cm² of leaf tissue. A 48 h dew period should be applied to plants covered by a plastic tent. A dew period temperature of 26/26°C night/day and a post-dew period temperature relative to that experienced under local growing conditions should be applied. Lesions are measured 7 days after inoculation, and mean lesion size per plant is calculated. Mean lesion size of lines being tested is expressed as a proportion of the mean lesion size of a susceptible standard included in each screening experiment.     

Growth promotion activity and biological control for the management of leaf blight incited by Alternaria helianthi

The Pseudomonas fluorescens (Pf1), Bacillus subtilis (Bs1) are the major potential biocontrol agents against foliar pathogens. MPf1 and MBs1 were found to be the most effective in inhibiting the mycelial growth of Alternaria helianthi. These biocontrol agents have the maximum capacity in controlling the spore germination, and data showing the growth-promoting effect of biocontrol agents and inhibition of seed-borne fungi are available. Seed-borne infections of A. helianthi are controlled by seed treatment with P. fluorescens, which showed least seed infection. The root length and shoot length has also been increased.     

Cell wall degradation by Taphrina deformans in host leaf cells

Curled peach leaves, naturally infected by Taphrina deformans, were studied by scanning and transmission electron microscopy, combined with cytochemistry, in order to observe the modifications induced by the pathogen in the host cells, particularly in the wall-to-wall boundary zone. It was found that the asci, which are formed only on the upper leaf surface, perforate the cuticle by lysis and not only by mechanical action; hyphae growing in the intercellular spaces cause a partial dissolution of the leaf cell walls by secretion of polysaccharide-degrading enzymes including cellulase. Alteration of the host plasma membrane often accompanies cell wall degradation. It was also found that in the curled areas the palisade layer is replaced by a less differentiated tissue, while the spongy parenchyma is always well recognizable, notwithstanding cellular alteration.     

In vitro production of perithecia ofDiaporthe helianthi

In trials with various agar media and autoclaved stem pieces of weeds and cultivated plants, perithecia ofDiaporthe helianthi Muntañola-Cvetkoviet al., developed only on autoclaved stem pieces. The simple, useful culture technique for producing perithecia is fully described.     

Specific PCR-based detection of Alternaria helianthi: the cause of blight and leaf spot in sunflower

Alternaria helianthi is an important seed-borne pathogenic fungus responsible for blight disease in sunflower. The current detection methods, which are based on culture and morphological identification, are time-consuming, laborious and are not always reliable. A PCR-based diagnostic method was developed with species-specific primers designed based on the sequence data of a region consisting of the 5.8S RNA gene and internal transcribed spacers—ITS 1 and ITS 2 of nuclear ribosomal RNA gene (rDNA) repeats of A. helianthi. The specificity of the primer pairs AhN1F and AhN1R designed was verified by PCR analysis of DNA from 18 Alternaria helianthi strains isolated from India, 14 non-target Alternaria spp. and 11 fungal isolates of other genera. A single amplification product of 357-bp was detected from DNA of A. helianthi isolates. No cross-reaction was observed with any of the other isolates tested. The detection limit of the PCR method was of 10?pg from template DNA. The primers could also detect the pathogen in infected sunflower seed. This species-specific PCR method provides a quick, simple, powerful and reliable alternative to conventional methods in the detection and identification of A. helianthi. This is the first report of an A. helianthi-specific primer set.     

Right here,right now: Populations of Actinotus helianthi differ in their early performance traits and interactions

Populations across the geographical distribution of a species are shaped by different local environments to produce distinctive patterns of variation in plant traits. Among‐population variation is, therefore, important for understanding potential shifts in distributions under changing environments, but is often not included in studies. In particular, critical data on the suitability of local environments for plant traits expressed at different life stages are lacking. To address this we performed two experiments to disentangle the influence of the local environment on multiple plant traits for populations of Actinotus helianthi from across its latitudinal range. A common environment experiment was used to compare early plant traits of germination, early seedling growth and survival for 17 populations of A. helianthi. To examine how biotic interactions vary across populations, we evaluated whether plant traits, including height and number of pseudanthia, influence visitor diversity and abundance, and if insect visitor abundance or diversity was associated with seed set success. We found that populations varied in germination success between 0.2 ± 0.1% and 64.2 ± 2.3%. Seedling growth and early survival varied among populations by as much as a factor of two and 44 respectively. We recorded variation in plant traits across hierarchical spatial scales from the maternal plant to biogeographical regions. The abundance and diversity of insect visitors also varied among populations and seed set was found to be site specific. There was a trend for populations with taller plants and larger floral display sizes to be more frequently visited by pollinators. We also identified a positive linear relationship between the number of visits by flies and seed set success. These results suggest that the local environment has a strong role in directly and indirectly influencing variation in plant traits within populations of A. helianthi, and potentially other perennial species.     

Stomatal cavity modulates the gas exchange of Sorghum bicolor (L.) Moench. grown under different water levels

This work aimed to evaluate the effects of lower water levels on leaf intercellular spaces and to assess their relations with the gas exchange, anatomy, and growth of Sorghum bicolor. Experiments were conducted in a greenhouse, in which plants were subjected to three water conditions (ten replicates, n = 30): well-irrigated, decreased irrigation, and limited irrigation. Lower water levels had no significant effect on the growth of S. bicolor but increased the biomass of the roots. Moreover, the number of leaves, leaf area, and leaf size as well as the chlorophyll content were not affected by lower water levels, and no significant changes were detected for whole plant photosynthesis, transpiration, or stomatal conductance. The water content of the plants and the water potential remained unchanged. However, compared with other treatments, the decreased irrigation decreased water loss and increased the water retention. Lower water levels increased the intercellular CO₂ percentage, mesophyll area, and proportion of stomatal cavities and promoted minor changes in leaf tissue and stomatal traits. The increased stomatal cavities provided higher CO₂ uptake and prevented excessive water loss. Thus, modifications to the intercellular spaces promoted conditions to avoid excessive water loss while concurrently improving CO₂ uptake, which are important traits for drought-tolerant plants.

     

Internal Transcribed Spacer Sequence Analysis of Puccinia helianthi Schw. and Its Application in Detection of Sunflower Rust

Two basidiomycete‐specific primers ITS1‐F and ITS4‐B were used in identification of the genus Puccinia. The primers showed good specificity for the genus with an 816‐bp product that was amplified exclusively. Twenty sequences of internal transcribed spacer (ITS) regions of Puccinia helianthi isolates from China remain unchanged. The whole ITS length (including ITS1 sequence 194 bp, 5.8S rRNA gene 156 bp, ITS2 sequence 206 bp) was 556 bp. By comparing the aligned ITS sequences of several Puccinia isolates from China, Spain and the United States, ITS homogeneity among these sunflower rust isolates was >99%. Genetic homology and phylogeny of P. helianthi with other Puccinia spp. was investigated. Nineteen sequences of rDNA ITS1 and ITS2 were determined and used as phylogenetic markers. Phylogenetic analysis of ITS regions showed that Puccinia spp. of sunflower was clustered in one clade with P. komarovii and P. violae, divergent from Puccinia spp. of Chrysanthemum, P. tenaceti of tansy (Tanacetum vulgare) and Puccina spp. of big sagebrush (Artemisia tridentate) indicating sunflower rust had distant phylogenetic relationships with other Compositae rusts. With the specified primers SR‐1 and SR‐2, either from purified urediniospores or symptomless (but infected) sunflower leaves could be examined specifically. Therefore, results of this study help in detection and polygenetic study of rust fungi occurring on sunflower.     

Intercellular protuberances in the ground tissue ofCocos nucifera L.

Summary Prolific filamentous intercellular protuberances have been observed in the intercellular spaces of the ground parenchyma tissue in the stems ofCocos nucifera. They are visually similar to some intercellular material reported in several other plant tissues but their chemical composition is unknown. Tests for lignin, cellulose, callose, suberin and waxes have proved negative and those for pectin inconclusive. The amount of intercellular material is closely related to the thickness of the parenchyma cell wall and the protuberances appear to be produced continuously by an active cytoplasm.     

Compared Anatomy of Young Leaves of Prunus persica (L.) Batsch with Different Degrees of Susceptibility to Taphrina deformans (Berk.) Tul

Anatomical observations of leaves infected by Taphrina deformans were studied in tolerant peach trees (TPT) and in very susceptible (VSPT) ones. Leaves from the first sampling (2nd April) showed hyphae penetrating through the stomata or into the cuticle of the host tissue; anatomical structures of leaf sections were similar for both TPT and VSPT. The ultrastructure of the leaves of TPT showed seemingly normal mesophyll cells. In contrast, mesophyll cells of the VSPT showed important signs of degradation. Cells were organelle‐free and the middle lamella was expanded and invaded by hyphae of T. deformans. In some samples, the leaves of TPT showed deformed epidermal cells, loss of some spongy cells and increase of the intercellular spaces and division of the palisade cells. The pathogen proliferation in the leaves of the VSPT was considerably superior. In this case, stimulation of cell division occurred in the abaxial epidermis. Cells showed periclinal and oblique divisions, with an increased number of plasmodesmata; palisade or spongy cells were not differentiable. Leaves from TPT collected on 26th April showed hyphae with a non‐cylindrical section and with a squashed aspect. The hyphae were very evident in the intercellular spaces, showing abundant endoplasmic reticulum of rough type (RER) in the cytoplasm. On the other hand, epidermis of the leaves of the VSPT had numerous hyphae under the cuticle, which were growing in a thick pectin matrix. Leaves from TPT and VSPT collected on 6th May showed relevant differences. The leaves of TPT had a palisade mesophyll with fewer cells but with active chloroplasts. In contrast, the leaves from VSPT showed empty mesophyll cells, the cytoplasm was collapsed and the adaxial epidermis was covered with the fungus fructification. The observed anatomical and ultrastructural differences of leaves from TPT and VSPT confirm a different behaviour in plant‐host reaction at early stages of infection.     

Cytological Observations of the Infection Process by Phomopsis helianthi (Munt.-Cvet) in Leaves of Sunflower

The infection process of Phomopsis helianthi and the specific degradation of infected tissue were studied in detail using light and transmission electron microscopy. In comparison with other vascular pathogens, the infection and degradation process was in some aspects different. The favourite tissue for the pathogen to grow in was the phloem. Parenchymatic cells in and around vascular bundles were extremely sensitive to infection long before hyphae arrived, probably due to a toxin. In the parenchymatic cells the first changes were visible at the chloroplasts where electron-dense material accumulated in the thylakoid space. The chloroplast stroma changed contrast and later the whole cytoplasm also appeared electron dense. In the vascular bundles, first the phloem was destroyed and then hyphae invaded the adjacent mesophyll, the cambium, and finally the vessel elements. In particular, the compact mesophyll of the midvein was severely affected. Vessel elements were lined with electron-dense material and some were filled with flocculent material. Severe wall destruction indicated the action of a complete set of cell wall-degrading enzymes before hyphae entered the tissue; it always started at the innermost wall layer. Wall degradation in vascular tissue and adjacent parenchyma with intercellular spaces was different. Before the degradation of the protoplasts started, the cell walls were completely metabolized and only the secondary walls of the vessels resisted for longer. There were no host–cell reactions visible that could be interpreted as a defence reaction.