Changes in proteins and isoenzymes in leaves of wheat when infected by stem rust

Summary Biuret assay, gel electrophoresis and immunochemistry were used to study concentrations, forms and activities of proteins of uredospores of Puccinia graminis Pers. f. sp. tritici, in healthy wheat leaves, wheat leaves that had been inoculated with incompatible races of stem rust and leaves which had become rusted.The soluble proteins of primary leaves increased by 25–117% following infection by compatible races of stem rust. There was a corresponding decrease of proteins in uninfected younger leaves. Infection by an incompatible strain of rust led to a temporary 29% increase in soluble proteins.Immunoelectrophoresis and gel electrophoresis of infected leaves showed the presence in them of the forms of malate dehydrogenase, glucose-6-phosphate dehydrogenase, catalase and -amylase characteristic of the rust fungus. In the infected leaves, the activity of certain bands of host glucose-6-phosphate dehydrogenase and catalase changed with the development of the pathogen; the malate dehydrogenase and -amylase of the host were unaffected. In leaves inoculated with an incompatible race there were no obvious changes of any of these enzymes.     

Hypersensitive lignification response as the mechanism of non-host resistance of wheat against oat crown rust

Seven-day-old seedlings of the near-isogenic wheat ( Triticum aestivum L.) lines Prelude and Prelude-Sr5, susceptible and resistant to wheat stem rust, respectively, were inoculated with uredospores of the oat crown rust fungus Puccinia coronata Cda. f. sp. avenae Fraser & Led. Fluorescence microscopy revealed that the majority of colonies developed intercellular infection structures including haustorial mother cells and haustoria after penetration of wheat mesophyll cells. All penetrated cells became necrotic, and exhibited bright yellow autofluorescence. This autofluorescence was not extractable with alkali, and fluorescent cells stained positively with phloroglucinol/HCI, suggesting that hypersensitive cell death was correlated with cellular lignification. Accordingly, the lignin biosynthetic enzymes phenylalanine ammonia-lyase (EC4.3.1.5). 4-coumarate:CoA ligase (EC6.2.1.12), cinnamyl-alcohol dehydrogenase (EC1.1.1.149), and peroxidases (EC1.11.1.7) increased in activity during the expression of resistance. The induced pattern of peroxidase iso/ymes closely resembled that observed for highly incompatible wheat/wheat stem rust interactions. Furthermore, an elieitor was extracted from oat crown rust germlings. which induces lignification when injected into the intercellular space of wheat leaves. This elieitor appears to be functionally similar to that isolated from wheat stem rust germlings. The results suggest that the non-host resistance of wheat to the xenopara-site oat crown rust closely resembles the race/cullivar-speeific resistant mechanism of highly resistant wheat varieties to wheat stem rust.     

小麦与条锈菌互作中过氧化物酶的细胞化学研究

采用细胞化学方法对小麦与条锈菌互作过程中过氧化物酶的分布及其活性大小进行了研究,结果表明：过氧化物酶主要分布于细胞壁和细胞间隙中;在未行接种的小麦叶片中,抗病品种和感病品种的过氧化物酶活性均比较低;条锈菌侵染后,诱导抗、感病品种叶片中的过氧化物酶活性升高,且抗病品种升高的幅度明显大于感病品种;感病品种中过氧化物酶活性在侵染位点附近细胞壁上表现升高,而抗病品种中该酶的活性在侵染点细胞以及远离侵染点的叶肉细胞的细胞壁和细胞间隙中均显著升高。高活性的过氧化物酶是小麦抗条锈性的生化标记和重要机制之一。     

Changes in Wheat Leaf Polysomal Messenger RNA Populations during the Early Stages of Rust Infection: EFFECTS OF CHLORAMPHENICOL AND LINCOMYCIN ON CELL-FREE TRANSLATION BY POLYSOMES FROM HEALTHY AND INFECTED LEAVES

Polysomes isolated from a susceptible variety of wheat leaves (cultivar W2691) and those inoculated with the wheat stem rust fungus (f. sp. tritici, race 126-ANZ-6, 7) were incubated in a cell-free protein-synthesizing system. Under these conditions, different size classes of polypeptides, ranging in molecular weight from 10,000 to 80,000, are radiolabeled. Using double-isotope labeling technique, we show that some discrete size classes of polypeptides are synthesized in significantly greater quantitites by polysomes from inoculated leaves compared to the corresponding size classes synthesized by polysomes from healthy leaves. These results confirm our previous observation that there are significant changes in the wheat leaf polysomal messenger RNA populations at 3 days after inoculation with the rust fungus.The effects of the organelle-specific inhibitors of protein synthesis, chloramphenicol and lincomycin, on in vitro polysomal messenger RNA translation were investigated. The polypeptides synthesized by polysomes from healthy and inoculated leaves in the presence of chloramphenicol were compared. The results show that, even in the presence of this antibiotic, the polysomes from inoculated leaves synthesize greater quantities of some size classes of polypeptides. These data indicate that changes in polysomal messenger RNA populations involve, at least in part, cytoplasmic messenger RNA.     

Extracellular beta-1,3-Glucanases in Stem Rust-Affected and Abiotically Stressed Wheat Leaves : Immunocytochemical Localization of the Enzyme and Detection of Multiple Forms in Gels by Activity Staining with Dye-Labeled Laminarin

Endo-β-1,3-glucanase activity in intercellular washing fluid (IWF) from leaves of wheat (Triticum aestivum) increased 10-fold 4 days after leaves were infected with the wheat stem rust fungus (Puccinia graminis f.sp. tritici), while exo-β-1,3-glucanase activity remained unchanged at a low level. Heat and ethylene stress had no effect, whereas mercury treatment resulted in a 2-fold increase in endo-β-1,3-glucanase activity. With a new method of activity staining using laminarin-Remazol brilliant blue as substrate in overlay gels, 18 electrophoretic forms of endo-β-1,3-glucanase were detected in IWF from unstressed leaves and up to 24 forms in IWF from stem rust-infected leaves. Most of the increase in β-1,3-glucanase activity and in the number of β-1,3-glucanases after rust infection was due to a nonspecific, stress-related effect on the plant, but two major forms of the enzyme probably originated from the fungus. β-1,3-Glucanase was localized cytochemically with anti-barley-β-1,3-glucanase antibodies. With preembedding labeling, the enzyme was demonstrated on the outside of host and fungal cell walls. Postembedding labeling localized the enzyme in the host plasmalemma and in the domain of host cell walls adjoining the plasmalemma, throughout walls of intercellular hyphal cells and haustoria, in the fungal cytoplasm, and in the extrahaustorial matrix. Cross-reactivity of β-1,3-glucanases from wheat and germinated uredospores of the rust fungus with the anti-barley-β-1,3-glucanase antibodies was confirmed in dot blot assays and on Western blots.     

Germination of Puccinia striiformis uredospores on leaves of adult winter wheat plants

In experiments with intact adult winter wheat plants and detached leaves, higher percentages of Puccinia striiformis uredospores germinated on the adaxial leaf surface, particularly the distal parts, than on the abaxial surface. This is consistent with the observation that the distal parts of the adaxial leaf surface are those which are most susceptible to yellow rust. Higher percentages of uredospores germinated on leaves of some of the winter wheat varieties examined than on those of others. These varietal differences depended on the part of leaf and the race of P. Striiformis used for the comparisons. This suggests that the differences between varieties are partly race specific.     

Fixation of carbon dioxide in the dark by the malic enzyme of bean and oat stem rust uredospores

Malic enzyme was found in both bean rust and cat stem rust uredospores. In bean rust uredospores it was shown to catalyze the formation of pyruvic acid from l-malic acid and to synthesize malic acid from pyruvic acid and CO₂. The malic enzyme from bean rust uredospores was specific for NADP and dependent on manganous ions for activity. The specific activity of the bean rust malic enzyme in crude extracts of ungerminated uredospores was approximately 6 times greater than that found in crude extracts obtained from germinated uredospores. The malic enzyme was also found in extracts obtained from healthy and rust-infected bean leaves. The specific activity of the enzyme was approximately 2 to 5 times greater in partially purified extracts obtained from the infected bean tissue at 6 days after inoculation. The specific activity of the malic enzyme in crude extracts obtained from oat stem rust uredospores was 2 times greater than the specific activity of this enzyme in crude extracts obtained from bean rust uredospores. Phosphoenolpyruvate carboxylase activity could not be demonstrated in crude extracts obtained from the ungerminated uredospores of the bean rust fungus.     

QTL mapping of resistance to race Ug99 of Puccinia graminis f. sp. tritici in durum wheat (Triticum durum Desf.)

Stem rust caused by Puccinia graminis f. sp. tritici was historically one of the most destructive diseases of wheat worldwide. The evolution and rapid migration of race TTKSK (Ug99) and derivatives, first detected in Uganda in 1999, are of international concern due to the virulence of these races to widely used stem rust resistance genes. In attempts to identify quantitative trait loci (QTL) linked with resistance to stem rust race Ug99, 95 recombinant inbred lines that were developed from a cross between two durum wheat varieties, Kristal and Sebatel, were evaluated for reaction to stem rust. Seven field trials at two locations were carried out in main and off seasons. In addition to the natural infection, the nursery was also artificially inoculated with urediniospores of stem rust race Ug99 and a mixture of locally collected stem rust urediniospores. A genetic map was constructed based on 207 simple sequence repeat (SSR) and two sequence tagged site loci. Using composite interval mapping, nine QTL for resistance to stem rust were identified on chromosomes 1AL, 2AS, 3BS, 4BL, 5BL, 6AL 7A, 7AL and 7BL. These results suggest that durum wheat resistance to stem rust is oligogenic and that there is potential to identify previously uncharacterized resistance genes with minor effects. The SSR markers that are closely linked to the QTL can be used for marker-assisted selection for stem rust resistance in durum wheat.     

Proteins in intercellular washing fluid from noninoculated and rust-affected leaves of wheat and barley

Proteins in intercellular washing fluid (IWF) from wheat (Triticum aestivum) and barley (Hordeum vulgare) leaves were separated by two-dimensional isoelectric focusing-polyacrylamide gel electrophoresis and stained with Coomassie brilliant blue (CBB) or silver. Intracellular protein from the cut ends of leaves accounted for only a small proportion of total protein in IWF from wheat leaves. When these were heavily infected with the stem rust fungus (Puccinia graminis f. sp. tritici) and grown at 19°C, four infection-related CBB-stainable proteins were detected in IWF.

To compare IWF proteins from wheat and barley leaves infected with the same pathogen, conditions were established that permitted luxuriant growth of stem rust of wheat in barley (exposure to chloroform before inoculation and maintenance at 25°C thereafter). Under these conditions, at least 10 infection-related silver-stainable proteins were detected in IWF from infected wheat in addition to the more than 50 that were of host origin. The electrophoretic properties of 8 of the infection-related proteins were the same as those of 8 infection-related proteins in IWF from barley.

IWF from wheat and barley grown under these conditions was analyzed for Concanavalin A-binding glycoproteins immobilized on nitrocellulose membrane replicas made from gels. Of the many infection-related glycoproteins that were detected in IWF from stem rust-affected wheat, approximately 20 occupied the same positions as those from stem rust-affected barley. The glycoprotein pattern of IWF prepared from wheat leaves grown at 19°C and infected with the leaf rust fungus (P. recondita f. sp. tritici) was markedly different to that of IWF from the same host infected with the stem rust fungus. We conclude that IWF from rust-affected cereal leaves may be a useful source of surface or extracellular proteins from the parasitic mycelium.

     

The Association of Brome Mosaic Virus and Wheat Rusts.

Evidence is presented in support of transmission of brome mosaic virus by uredospores of wheat stem rust (Puccinia graminis f. sp. tritici). The presence of BMV associated with uredospores is shown by the use of sensitive serological assays such as, fluorescent antibody binding studies, enzyme-linked immunosorbent assay and immunosorbent electron microscopy. The virus is shown to be carried externally on the uredospores. The nature of the association of the virus with uredospores and its relation to the mode of carriage and transmission of the virus by the uredospores, as well as the importance of this association in the epidemiology of the virus is discussed.     

Identification of markers linked to the race Ug99 effective stem rust resistance gene Sr28 in wheat (Triticum aestivum L.)

Wheat stem rust caused by Puccinia graminis f. sp. tritici can cause devastating yield losses in wheat. Over the past several decades, stem rust has been controlled worldwide through the use of genetic resistance. Stem rust race TTKSK (Ug99), first detected in Uganda in 1998, threatens global wheat production because of its unique virulence combination. As the majority of the currently grown cultivars and advanced breeding lines are susceptible to race TTKSK, sources of resistance need to be identified and characterized to facilitate their use in agriculture. South Dakota breeding line SD 1691 displayed resistance to race TTKSK in the international wheat stem rust nursery in Njoro, Kenya. Seedling screening of progeny derived from SD 1691 crossed to susceptible LMPG-6 indicated that a single resistance gene was present. Allelism and race-specificity tests indicated the stem rust resistance gene in SD 1691 was Sr28. The chromosome arm location of Sr28 was previously demonstrated to be 2BL. We identified molecular markers linked to Sr28 and validated this linkage in two additional populations. Common spring wheat cultivars in the central United States displayed allelic diversity for markers flanking Sr28. These markers could be used to select for Sr28 in breeding populations and for combining Sr28 with other stem rust resistance genes.     

Partial characterization of peroxidase isoenzymes from rust-affected wheat leaves

Four anodic peroxidase isoenzymes from wheat leaves were purified by column chromatography and their kinetic behavior with common substrates were examined. One isoenzyme is more active in wheat resistant to stem rust fungi and differed from the others in carbohydrate content and also by a specific activity 2–4-fold higher with non-physiological electron donors. As a substrate, eugenol exhibited kinetic behavior different from p-phenylenediamine, guaiacol or o-dianisidine with all isoenzymes. All four isoenzymes showed similar pH and temperature optima and kinetic behavior and apparent K_m values for both H₂O₂ and non-physiological electron donors.     

Effect of Rust Infection on Cell Walls of Barley and Wheat; Immunocytochemistry Using Anti-Barley Thionin as a Probe

Polyclonal antiserum prepared against barley cell wall thionin was used to localize and quantitate immunoreactive material on the cellular level in healthy and rust-infected leaves of barley and wheat. Three types of sites were used for the immunocytochemical analysis: as control sites, mesophyll cell walls were selected in uninoculated leaves, and in leaves that were inoculated with rust but where the sites were not in contact with the pathogen: these were compared with mesophyll cell walls that were in contact with intercellular rust hyphae in inoculated leaves.
Similar amounts of cell wall thionin were detected in all 3 barley cultivars before inoculation. At sites where intercellular hyphae of Puccinia hordei had made contact with mesophyll cell walls, less thionin was found in the compatible host cv. Larker, but in incompatible hosts (cvs. Gold and Bolivia) the thionin concentration did not differ from that of the controls.
Two cultivars of wheat were studied with respect to immunoreactive material in their mesophyll cell walls, the universal rust suscept cv. Little Club and the highly rust-resistant cv. Khapli. Before inoculation, leaves of cv. Khapli contained about twice the amount of immunoreactive material in mesophyll cell walls than those of cv. Little Club. This relation was unchanged in walls that had made contact with P. graminis tritici , but in non-contacted walls of infected cv. Little Club leavest, he concentration of this material had risen to levels typical for those of cv. Khapli. Tests for immunoreactive material with pre-embedding cytochemistry yielded negative results, indicating that it is not exposed on the surface of mesophyll walls in barley and wheat.     

Genetic studies of leaf and stem rust resistance in six accessions of Triticum turgidum var. dicoccoides.

Six accessions of Triticum turgidum var. dicoccoides L. (4x, AABB) of diverse origin were tested with 10 races of leaf rust (Puccinia recondita f.sp. tritici Rob. ex Desm.) and 10 races of stem rust (P. graminis f.sp. tritici Eriks. &Henn.). Their infection type patterns were all different from those of lines carrying the Lr or Sr genes on the A or B genome chromosomes with the same races. The unique reaction patterns are probably controlled by genes for leaf rust or stem rust resistance that have not been previously identified. The six dicoccoides accessions were crossed with leaf rust susceptible RL6089 durum wheat and stem rust susceptible 'Kubanka' durum wheat to determine the inheritance of resistance. They were also crossed in diallel to see whether they carried common genes. Seedlings of F1, F2, and BC1F2 generations from the crosses of the dicoccoides accessions with RL6089 were tested with leaf rust race 15 and those from the crosses with 'Kubanka' were tested with stem rust race 15B-1. The F2 populations from the diallel crosses were tested with both races. The data from the crosses with the susceptible durum wheats showed that resistance to leaf rust race 15 and stem rust race 15B-1 in each of the six dicoccoides accessions is conferred by a single dominant or partially dominant gene. In the diallel crosses, the dominance of resistance appeared to be affected by different genetic backgrounds. With one exception, the accessions carry different resistance genes: CI7181 and PI 197483 carry a common gene for resistance to leaf rust race 15. Thus, wild emmer wheat has considerable genetic diversity for rust resistance and is a promising source of new rust resistance genes for cultivated wheats.     

Effect of temperature, light and host on prepenetration development of Puccinia graminis avenae and Puccinia coronata avenae

The influence of temperature and light on prepenetration development of single and mixed isolates of Puccinia graminis avenae and Puccinia coronata avenae was studied on 0–2% water agar and on leaves of three oat cultivars and on three non-cultivated species of Avena. Germination of uredospores of P. graminis avenae and P. coronata avenae occurred best at 10–30^oC and at 20^oC respectively. The optimum temperature for germ-tube growth and for appressorial formation was 20^oC for both rusts. An inverse relationship was observed between light intensity and prepenetration development with maximal germination of uredospores, germ-tube growth and appressorial formation occurring in darkness. Under optimum conditions maximum percentage germination and appressorium formation of both rusts was attained within 4 and 12 h after inoculation respectively. The proportion of germinated uredospores of crown rust which gave rise to appressoria was about twice that observed for stem rust. No significant differences were observed in prepenetration development between the single and mixed race inocula of the two rusts. Although germination of uredospores was significantly greater on water agar than on oat leaves, there were no significant differences in prepenetration development of the rusts on the various oat cultivars and species examined. Consequently, the data failed to indicate the presence of resistance mechanisms operating during the prepenetration phase of the infection process on the cultivars and species examined.     

Interaction between crown rust (Puccinia coronata) and two viruses of ryegrass

In Lemtal Italian and S.24 perennial ryegrass plants, two isolates of ryegrass mosaic virus (RMV) suppressed the amount of crown rust emerging on leaves inoculated with Puccinia coronata uredospores by up to 75% compared with the amount on virus-free plants. Severity of rust infection on barley yellow dwarf virus (BYDV) infected plants generally did not differ significantly from that on virus-free plants. When both RMV and BYDV were present, rust was restricted in Lemtal plants to a level intermediate between those occurring on plants infected by either virus alone, and in S.24 plants to a level below that obtained with either virus alone. The mean water soluble carbohydrate (WSC) content of Lemtal plants was reduced more than 20% by RMV, but was not significantly altered by BYDV. In S.24 plants the WSC content was increased by 10% by RMV and by 60% by BYDV. Rust reduced the WSC content of healthy and virus-infected plants, the reduction being positively correlated with the level of rust on the sampled leaves. In plants of Lemtal, but not of S.24, the degree of rust infection was positively correlated with the WSC content of leaves from rust-free control plants.     

Differences in the methyl ester distribution of homogalacturonans from near-isogenic wheat lines resistant and susceptible to the wheat stem rust fungus

Plants possess an efficient nonself surveillance system triggering induced disease resistance mechanisms upon molecular recognition of microbial invaders. Successful pathogens have evolved strategies to evade or counteract these mechanisms, e.g., by the generation of suppressors. Pectic fragments produced during host cell wall degradation can act as endogenous suppressors of the hypersensitive response in wheat leaves. We have isolated and characterized homogalacturonans from cell walls of two wheat cultivars susceptible to the stem rust fungus, Puccinia graminis f. sp. tritici, namely cvs. Prelude and Marquis, and from near-isogenic lines of both cultivars containing the Sr5-gene for hypersensitive rust resistance. Two independent approaches were used to compare their methyl esterification: i) immunochemistry using the monoclonal antibodies JIM5, JIM7, PAM1, and LM7 and ii) chromatography of oligogalacturonides representing stretches of contiguous nonmethyl-esterified GalA residues. The results clearly indicate a significant difference in the homogalacturonans from susceptible and resistant wheat lines. The difference can best be explained by assuming a nonrandom and more blockwise distribution of the methyl esters in the homogalacturonans of susceptible wheat cultivars as compared with a presumably more random distribution in the near-isogenic resistant lines. Possible consequences of this difference for the enzymatic generation of endogenous suppressors are discussed.     

种间竞争梯度对白车轴草与其病原菌白车轴草单孢莠菌相互作用的影响

白车轴草（Trifolium repens)在与其病原菌白车轴草单孢锈菌（Uromyces trifolii-repentis)的长期相互作用中分化形成了抗病型（Resistance)无性系和易感型（Susceptibility)无性系。该研究工作旨在了解：1）在种间竞争不断增强的环境梯度中,抗型无性系和易感型无性系的生长表现有何区别？2）在同样的实验条件下,分别对抗病型无性系和易感型无性系进行接种感染后,两者的生长表现又有何区别？在一严重感病的白车轴草自然种群中,分别标定了17个抗病型无性系和14个易感型无性系,从各元性系的匍匐茎上分别剪取长5cm,具两个叶两个腋芽的小段作实验材料。接种孢子采自同一植物种群植株的病叶。实验在一个处在次生演替阶段的草本植物群落上进行,在该群落的种间竞争梯度上选定3个分别具有弱、中等和强种间竞争的生境（Habitat)建立实验站,每站设置等量的实验和对照组。结果显示：1）随着环境中种间竞争强度的增加,无论接种与否,抗病型和易感型白车轴草的叶生长量均凝减;2）在弱或强种间竞争环境条件下,无论接种与否,易感型无性系的生长均好于抗抗病型无性系;但在中等间竞争强度的环境条件下,对照实验中易感型无性系的生长显著好于抗病型无性系,而接种实验中的结果相反。这一研究结果表明,种间竞争强度可能是影响给定生境中寄主植物抗病型和易感型遗传型比率的重要因子之一,这一影响还将随着病原菌存在而否而发生改变。     

Lectin Binding Studies on the Cell Walls of Soybean Rust (Phakopsora pachyrhizi Syd.)

Walls of uredospores, infection structures, intercellular hyphae and haustoria of the soybean rust fungus (Phakopsora pachyrhizi) were studied by electron microscopy using gold-labeled wheat germ lectin (WGL) and Concanavalin A (ConA) as cytochemical probes. Receptors for WGL (probably chitin) were detected in all fungal walls included in this study. WGL-binding occurred throughout the entire walls (uredospores, appressorial cone, penetration hyphae, haustorial mother cells) or only to the inner wall layers (germ tubes, appressoria, intercellular hyphae).     

Possible Involvement of Lipoxygenase in the Mechanism of Resistance of Oats to Puccinia coronat avenae

Possible participation of the peroxidation system in the cultivar-race specificity was studied for the oat-crown rust system. The levels of lipid peroxidation and total lipoxygenase (LOX) activity were extensively increased in leaves of cv. Shokan l responding with resistance to race 226. One anionic and one cationic LOX isozyme was detected in the extract of Shokan 1 leaves inoculated with race 226. In addition, three anionic and one cationic isozymes were consistently found in the extract of uninoculated and compatible race 203-inoculated leaves. The blockage experiments with race 226-inoculated leaves using RNA and protein synthesis inhibitors indicated that the two LOX isozymes characteristic of the incompatible combination are de novo synthesized and their activity is causally linked to the resistance expression. Production of the two isozymes was also demonstrated in the five resistant Pc oat lines, but not in the two susceptible Pc lines.