The carbohydrate and water balance of beans (Vicia faba) attacked by broomrape (Orobanche crenata)

Orobanche crenata parasitizing beans maintained a slightly higher osmotic pressure than the bean roots, largely because of the higher concentration of sugars in the broomrape tissues. The sugar was withdrawn from the bean mainly as sucrose, which was hydrolysed to glucose and fructose by the Orobanche. These sugars were then rapidly translocated to the developing flower spike. As well as maintaining a high osmotic pressure this hydrolysis ensured a sucrose concentration gradient between host and parasite. In the field, bean plants showed wilt symptoms at about the time that the Orobanche flower spikes emerged. It was found that the higher the level of infection the lower was the water content of the host. This fall in water content was not due to increased water loss by the bean shoots and it seemed unlikely that it was due to water removal by the parasite. It was concluded that the death of the bean was due to desiccation brought about largely by the reduced ability of the carbohydrate-starved roots to extract water from the soil.     

Validation of QTLs for Orobanche crenata resistance in faba bean (Vicia faba L.) across environments and generations

Broomrape (Orobanche crenata Forsk.) is a major root–parasite of faba bean (Vicia faba L.), that seriously limits crop cultivation in the whole Mediterranean area. This parasitic weed is difficult to control, difficult to evaluate and the resistance identified so far is of polygenic nature. This study was conducted to identify genetic regions associated with broomrape resistance in recombinant inbred lines (RILs) and to validate their previous location in the original F₂ population derived from the cross between lines Vf6 and Vf136. A progeny consisting of 165 F₆ RILs was evaluated in three environments across two locations in 2003 and 2004. Two hundred seventy seven molecular markers were assigned to 21 linkage groups (9 of them assigned to specific chromosomes) that covered 2,856.7 cM of the V. faba genome. The composite interval mapping on the F₆ map detected more quantitative trait loci (QTL) than in the F₂ analysis. In this sense, four QTLs controlling O. crenata resistance (Oc2–Oc5) were identified in the RI segregant population in three different environments. Only Oc1, previously reported in the F₂ population, was not significant in the advanced lines. Oc2 and Oc3 were found to be associated with O. crenata resistance in at least two of the three environments, while the remaining two, Oc4 and Oc5, were only detected in Córdoba-04 and Mengíbar-04 and seemed to be environment dependent.     

Differentially expressed proteins during an incompatible interaction between common bean and the fungus Pseudocercospora griseola

The common bean (Phaseolus vulgaris L.) is the main source of protein and an important source of minerals in several countries around the world. Angular leaf spot, caused by the fungus Pseudocercospora griseola, is one of the major diseases of the common bean. In this work, we used two-dimensional gel electrophoresis and mass spectrometry to analyze alterations in the proteome of common bean leaves challenged with an incompatible race of P. griseola. Twenty-three differentially expressed proteins were detected in leaves of cultivar AND 277 collected at 12, 24 and 48 h after inoculation. The proteins were digested with trypsin and submitted to MALDI-TOF/TOF and MicrOTOF-Q electrospray mass spectrometry. Nineteen of them were identified upon MS/MS fragmentation. Most of these proteins are involved with amino acid metabolism, terpenoid metabolism, phenylpropanoid biosynthesis, antioxidant systems, vitamin and cofactor metabolism, plant–pathogen interaction, carbohydrate metabolism, photosynthesis, or genetic information processing, showing that the interaction in this pathosystem affects different genes from various metabolic pathways and processes.     

Interaction between Orobanche crenata and its host legumes: unsuccessful haustorial penetration and necrosis of the developing parasite

BACKGROUND AND AIMS: Orobanche species represent major constraints to crop production in many parts of the world as they reduce yield and alter root/shoot allometry. Although much is known about the histology and effect of Orobanche spp. on susceptible hosts, less is known about the basis of host resistance to these parasites. In this work, histological aspects related to the resistance of some legumes to Orobanche crenata have been investigated in order to determine which types of resistance responses are involved in the unsuccessful penetration of O. crenata. METHODS: Samples of resistance reactions against O. crenata on different genotypes of resistant legumes were collected. The samples were fixed, sectioned and stained using different procedures. Sections were observed using a transmission light microscope and by epi-fluorescence. KEY RESULTS: Lignification of endodermal and pericycle host cells seems to prevent parasite intrusion into the root vascular cylinder at early infection stages. But in other cases, established tubercles became necrotic and died. Contrary to some previous studies, it was found that darkening at the infection site in these latter cases does not correspond to death of host tissues, but to the secretion of substances that fill the apoplast in the host-parasite interface and in much of the infected host tissues. The secretions block neighbouring host vessels. This may interfere with the nutrient flux between host and parasite, and may lead to necrosis and death of the developing parasite. CONCLUSIONS: The unsuccessful penetration of O. crenata seedlings into legume roots cannot be attributed to cell death in the host. It seems to be associated with lignification of host endodermis and pericycle cells at the penetration site. The accumulation of secretions at the infection site, may lead to the activation of xylem occlusion, another defence mechanism, which may cause further necrosis of established tubercles.     

IAA production during germination of Orobanche spp. seeds

Broomrapes (Orobanche spp.) are parasitic plants, whose growth and development fully depend on the nutritional connection established between the parasite and the roots of the respective host plant. Phytohormones are known to play a role in establishing the specific Orobanche-host plant interaction. The first step in the interaction is seed germination triggered by a germination stimulant secreted by the host-plant roots. We quantified indole-3-acetic acid (IAA) and abscisic acid (ABA) during the seed germination of tobacco broomrape (Orobanche ramosa) and sunflower broomrape (O. cumana). IAA was mainly released from Orobanche seeds in host-parasite interactions as compared to non-host-parasite interactions. Moreover, germinating seeds of O. ramosa released IAA as early as 24 h after the seeds were exposed to the germination stimulant, even before development of the germ tube. ABA levels remained unchanged during the germination of the parasites' seeds. The results presented here show that IAA production is probably part of a mechanism triggering germination upon the induction by the host factor, thus resulting in seed germination.     

Early nodulin gene expression during Nod factor-induced processes in Vicia sativa

Rhizobium leguminosarum bv. viciae -secreted Nod factors are able to induce root hair deformation, the formation of nodule primordia and the expression of early nodulin genes in Vicia sativa (vetch). To obtain more insight into the mode of action of Nod factors the expression of early nodulin genes was followed during Nod factor-induced root hair deformation and nodule primordium formation. The results of these studies suggested that the expression of VsENOD5 and VsENOD12 is not required for root hair deformation. In the Nod factor-induced primordia both VsENOD12 and VsENOD40 are expressed in a spatially controlled manner similar to that found in Rhizobium -induced nodule primordia. In contrast, VsENOD5 expression has never been observed in Nod factor-induced primordia, showing that the induction of VsENOD5 and VsENOD12 expression are not coupled. VsENOD5 expression is induced in the root epidermis by Nod factors and in Rhizobium -induced nodule primordia only in cells infected by the bacteria, suggesting that the Nod factor does not reach the inner cortical cells.     

Protein cross-linking, peroxidase and beta-1,3-endoglucanase involved in resistance of pea against Orobanche crenata

Root holoparasitic angiosperms, like Orobanche spp, completely lack chlorophyll and totally depend on their host for their supply of nutrients. O. crenata is a severe constraint to the cultivation of legumes and breeding for resistance remains the most economical, feasible, and environmentally friendly method of control. Due to the lack of resistance in commercial pea cultivars, the use of wild relatives for breeding is necessary, and an understanding of the mechanisms underlying host resistance is needed in order to improve screening for resistance in breeding programmes. Compatible and incompatible interactions between O. crenata and pea have been studied using cytochemical procedures. The parasite was stopped in the host cortex before reaching the central cylinder, and accumulation of H2O2, peroxidases, and callose were detected in neighbouring cells. Protein cross-linking in the host cell walls appears as the mechanism of defence, halting penetration of the parasite. In situ hybridization studies have also shown that a peroxidase and a beta-glucanase are differently expressed in cells of the resistant host (Pf651) near the penetration point. The role of these proteins in the resistance to O. crenata is discussed.     

Biocontrol of broomrape (Orobanche crenata Forsk. and Orobanche foetida Poir. ) by Pseudomonas fluorescens isolate Bf7-9 from the faba bean rhizosphere

Bacteria of the faba bean (Vicia faba L.)/Orobanche spp. root environment were evaluated for their potential use as biocontrol agents for the parasitic weed. Bacteria were isolated mainly from the rhizosphere of faba bean as well as from diseased Orobanche underground structures and an Orobanche-suppressive soil from three districts of northern Tunisia. Out of 351 bacterial isolates, 337 were tested for pathogenicity in an inverted pyramidal-shape screening programme including a Lactuca sativa L. seedlings bioassay, root-chamber and pot experiments. In pre-selection screening on L. sativa seedlings, 37 isolates (11%) showed a strong growth inhibitory effect, of which 70 and 84% also had a significant suppressive activity on the pre-emergence structures of O. foetida and O. crenata, respectively, in root-chamber experiments. Among five bacterial isolates selected for pot trials, strain Bf7-9 of Pseudomonas fluorescens showed high biocontrol activity against both species of Orobanche and positively influenced faba bean growth. The bacterium reduced shoot emergence of O. crenata and O. foetida by 64 and 76% and their dry weight by 39 and 63%, respectively, compared with non-inoculated controls. Pseudomonas marginalis strain Nc1-2 exhibited also a tendency to reduce incidence of O. crenata and to improve faba bean performance. Results of the present study suggest that application of naturally occurring rhizosphere bacteria offers an additional approach for biocontrol of Orobanche spp. that can supplement current methods of control in an integrated weed management strategy.     

Multivariate analysis of the Vicia sativa L. aggregate

GIL, J. & CUBERO, J. I., 1993. Multivariate analysis of the Vicia sativa L. aggregate . The sativa group of species was studied by using multivariate analysis and karyological analysis. Thirty biometrical characters were studied by using 92 Vicia sativa L. accessions from a variety of geographical sources. The four main taxa analysed were: sativa, macrocarpa, cordata and angustifolia. Principal component analysis provided clear separation among sativa, cordata and angustifolia in terms of the first two components. Karyotype analysis confirmed the PCA results, and by combining both methods, misclassed specimens can be correctly determined. Cluster analyses using the characters which displayed the greatest loads over the first components were performed in order to identify the most valuable characters from the taxonomic point of view. These were flower length, calyx length, pod width, constriction of the pod between seeds, leaf length, leaflet width, seed length and seed width. Our results suggest an early separation of angustifolia from the ancestral stem. The taxon cordata may be useful in future plant breeding programmes not only for crossing with V. saliva to increase the leaflet size of this taxon, but also as a bridge species between sativa and angustifolia.     

The relationship between nodulin gene expression and the Rhizobium nod genes in Vicia sativa root nodule development

The role of the Rhizobium nod genes in the induction of nodulin gene expression was examined by analyzing nodules formed on vetch roots by bacterial strains containing only the nod region. Introduction of an 11-kb cloned nod region of the R. leguminosarum sym plasmid pRL1JI into sym plasmid-cured rhizobia conferred on the recipient strains the ability to induce nodules in which all nodulin genes were expressed. This proves that from the sym plasmid only the nod region is involved in the induction of nodulin gene expression. A transconjugant of Agrobacterium carrying the same nod region induces nodules in which only early nodulin gene expression is detected. Thus, the nod region is essential for the induction of early nodulin gene expression. In this case, nodule cytology may indicate that a defense response of the plant interferes with the induction of late nodulin gene expression. Indirect evidence is presented that indeed the Rhizobium nod genes are also in some way involved in the induction of the expression of late noduling genes. The combination between histological data and pattern of nodulin gene expression furthermore reveals a correlation between nodule structure and nodulin gene expression. This correlation may aid in speculations about the functions of nodulins.     

Mucilage secretion and its interaction with soil,and contact reduction

Contact reduction is a mechanism by which plant roots are able to mobilise Mn from insoluble oxides in the rhizosphere. Contact between the root surface is established and develops when the mucilage produced by root cells forms a gel upon its interaction with the soil. The mucigel may not only mould to the surface of soil particles, but also may diffuse into aggregates such that the soil and root surfaces overlap. In such a zone, the apparent free space and the soil solution become one and the "right set of circumstances" to facilitate reduction and subsequent uptake of Mn and perhaps Fe are established.     

Hydrogen peroxide yields during the incompatible interaction of tobacco suspension cells inoculated with Phytophthora nicotianae

Rates of H(2)O(2) production by tobacco suspension cells inoculated with zoospores from compatible or incompatible races of the pathogen Phytophthora nicotianae were followed by direct measurement of oxygen evolution from culture supernatants following catalase addition. Rates of HO(2)(*)/O(2)(-) production were compared by following the formation of the formazan of sodium, 3'-[1-[phenylamino-carbonyl]-3,4-tetrazolium]-bis(4-methoxy-6-nitro) benzene-sulfonic acid hydrate. In the incompatible interaction only, both reactive oxygen species (ROS) were produced by the cultured host cells in a minor burst between 0 and 2 h and then in a major burst between 8 and 12 h after inoculation. Absolute levels of H(2)O(2) could not be accurately measured due to its metabolism by host cells, but results are consistent with the majority of H(2)O(2) being formed via dismutation of HO(2)(*)/O(2)(-). The effects of inhibitors of endogenous Cu/Zn superoxide dismutase (diethyldithiocarbamate) and catalase (3-amino-1,2,4-triazole and salicylic acid) were also examined. Yields of ROS in the presence of the inhibitors diphenylene iodonium, allopurinol, and salicylhydroxamic acid suggest that ROS were generated in incompatible host responses by more than one mechanism.     

Preliminary characterization of the repeated DNA sequence from Vicia sativa

We have identified a family of interspersed repeated sequences present in about 40,000 copies in the genomes of Vicia sativa and its near relative Vicia faba. The element vif is at least 6 kb in length, and members of the repeat family display a degree of heterogeneity in restriction pattern. Homologous elements in V. faba are much more heterogeneous than their V. sativa counterparts; however, analysis of five different V. faba lines revealed substantially the same patterns, suggesting that this family was reamplified prior to the divergence of the lines studied.     

高寒山区混播草地燕麦和毛苕子种间的竞争关系

植物通过调整生长发育阶段的生长行为和形态特征来适应种间竞争关系的变化.在祁连山区建立了禾本科牧草燕麦与豆科毛苕子混播草地,以相对产量(RY)、相对密度(RD)和相对产量总值(RYT)为指标,研究了这2种1年生植物在不同物候期的种间竞争关系.结果表明:随着物候期的变化,种间竞争关系发生着动态变化,在出苗期,二者存在激烈的种间竞争,2个物种限制彼此相对数量的发展,株高、叶片数等增长缓慢;分蘖期,种间竞争转换为种间协作,分蘖数、叶片数等迅速增大,相对产量总值不断积累;进入拔节期,毛苕子开始扩大相对数量,限制了燕麦的生长,导致了激烈的种内竞争;到结实期,种内竞争再次转化为种间竞争.不同物候期的燕麦和毛苕子通过对植物形态可塑性的调整,更好地响应了种间竞争关系的转换.     

箭筈豌豆两个肌动蛋白基因片段的克隆及序列分析

通过同源克隆获得了箭筈豌豆两个不同的Actin基因片段,为研究该箭筈豌豆其它基因的表达状况提供了内标参照。根据近缘物种Actin基因序列设计一对引物,通过RT-PCR技术分别从叶片和果实材料中克隆获得了两条不同的Actin基因片段。生物信息学分析表明,叶片中克隆的片段长度604 bp,编码201个氨基酸;果实中克隆的片段长度677 bp,编码225个氨基酸。两条序列与其它物种Actin基因的碱基序列相似度高于80%,氨基酸序列相似度高于93%。将来自叶片和果实的两条序列分别命名为VsACT7和VsACT11,并在GenBank注册,登录号分别为HM004434和GU946218。     

Genome structure in higher plants. Reassociation kinetics of DNA from Vicia faba and Vicia sativa

The work been concerned with a study of the kinetics of reassociation of total DNA and that of the fraction of unique sequences in plants from the Vicia family, i. e. Vicia faba and Vicia sativa. The size of the genome was determined by the kinetics of reassociation of the DNA of the fraction of unique sequences and the amount of DNA per nucleus was determined cytophotometrically. It has been shown that the size of the genome expressed in C(0)t units and the size expressed in gramms are not the same which testifies to the absence of true unique genes in the genome of the species studied. The analysis of the possible methodical errors was carried out. On the basis of the data obtained a suggestion was made of a model of chromosomes organization including 12 units of polynemization for Vicia faba and 4 units for Vicia sativa.