Response to potyvirus infection and genetic mapping of resistance loci to potyvirus infection in Lactuca

 We have investigated the interaction between two different potyviruses and resistant cultivars of Lactuca sativa. Turnip mosaic virus (TuMV) and lettuce mosaic virus (LMV) were used to inoculate several cultivars under different temperature regimes to characterize the resistance reaction. Resistance conferred by the recessive mo locus against LMV infection did not provide immunity. Virus accumulated in plant tissues to different levels depending on the genetic background of the cultivar, suggesting that several genes were involved in the resistance phenotype. Under temperature regimes that enhanced the hypersensitive reaction, resistant cultivars produced necrotic reactions. In contrast, resistance to TuMV infection conferred by the dominant Tu locus resulted in complete immunity in the plant. No virus accumulated in inoculated leaves nor was any necrotic reaction observed. The resistance loci were characterized at the genetic level by mapping them relative to molecular markers. Only weak linkages could be identified to mo, again supporting the hypothesis that several genes are involved. The Tu locus was mapped in two different crosses relative to several markers, the closest two linked at less than 1 cM. A high-resolution genetic map of the Tu locus was constructed by screening 500 F₂ individuals for recombinants around that locus. Received: 4 June 1996/Accepted: 15 November 1996     

Biological properties,transmission, serological characterization and varietal susceptibility of an isolate of Papaya leaf curl virus affecting papaya crops in Eastern Uttar Pradesh,India

Papaya leaf curl disease (PLCD) was recorded with 5–35% incidence at six districts of Eastern Uttar Pradesh during survey. The characteristic symptoms observed were severe downward leaf curling, swelling of veins, twisting and reduction of petioles, inverted leaf bowls and stunted growth of the entire plant which bore only few small and distorted fruit. The virus isolate was identified as Papaya leaf curl virus (PaLCuV).The PaLCuV isolate was successfully transmitted by whitefly (Bemisia tabaci) but not by mechanical (sap) transmission on Carica papaya plants. Plants could be proved efficiently from infected to healthy C. papaya, Capsicum annuum, Lycopersicon esculentum, Nicotiana tabacum, Crotalaria juncea, Ageratum conyzoides, Zinnia elegans, Datura stramonium and Petunia hybrida. Symptomatic samples of these plants were tested with polyclonal antiserum of Tomato leaf curl New Delhi virus by DAC-ELISA test showed the positive relationship of the samples with geminivirus. On the basis of symptomatology, whitefly transmission, host range studies and serological relationship, the isolate was identified as whitefly transmitted geminivirus. To identify potential varietal resistances source to PaLCuV, five cultivars of C. papaya were tested against PaLCuV using whitefly insects to transmit the infection. Results revealed that two cultivars (Washington and Ranchi Dwarf) were found to be moderately resistant.     

Identification and characterisation of antixenosis and antibiosis to pea aphid (Acyrthosiphon pisum) in Pisum spp. germplasm

Acyrthosiphon pisum is a polyphagous aphid of major importance on the pea crop to which few resistant cultivars are available. In this study, we screened a germplasm collection of Pisum spp. under field conditions over two seasons yielding the identification of a number of accessions with intermediate levels of resistance. Selected accessions were further studied under semi‐controlled and controlled conditions in no choice and choice assays to validate the responses, and to further characterise the mechanisms of resistance operative. Results elucidated the valuable resistance of accession P40 (Pisum sativum ssp. sativum) and P665 (P. sativum ssp. syriacum), with the combination of both antixenosis, by reducing aphid preference, and antibiosis, by diminishing aphid proliferation.     

Analysis of a lipoxygenase pseudogene in Pisum

 Lipoxygenase (LOX) enzymes play important roles in plant biology, and in the quality of plant-derived foods, through the production of fatty acid hydroperoxides that are metabolized either to jasmonate, or to volatile aldehydes that are part of plant defence systems and/or impart tastes and aromas to fruits and vegetables. We have identified a lipoxygenase pseudogene in peas that is composed of three elements: rearranged LOX-2 and LOX-3 genes and an unidentified tract of DNA. We present evidence that such an arrangement is normally present in the genome of Pisum sativum, but is absent from Pisum fulvum lines, including a mutant line that lacks LOX-2 polypeptides. The absence of LOX-2 polypeptides and the pseudogene co-segregate. The pseudogene therefore has utility as a molecular marker for the introgression of the LOX-2-null phenotype into commercial Pisum sativum genotypes. Received: 27 April 1998 / Accepted: 17 September 1998     

Comparative differential RNA display analysis of arbuscular mycorrhiza in Pisum sativum wild type and a mutant defective in late stage development

In order to analyse gene expression associated with the late stages of arbuscular mycorrhizal development between Pisum sativum and Glomus mosseae, comparative differential RNA display was carried out using wild-type P. sativum and a mutant, RisNod24, where the fungal partner is not able to form functional arbuscules. Comparison of RNA accumulation patterns between controls, G. mosseae-colonized mutant and wild-type roots resulted in the identification of four differentially occurring cDNA fragments. One of the corresponding genes was from the fungus and three of plant origin. One plant gene, Psam4 (P. sativum arbuscular mycorrhiza-regulated), was analysed in more detail. Sequencing of a cDNA clone showed that Psam4 encodes a proline-rich protein. Northern blot analysis and quantitative RT-PCR revealed a higher basal level of Psam4 RNA accumulation in the mutant compared to the wild type. In both pea genotypes, RNA accumulation was reduced after inoculation with mycorrhiza- or nodule-forming symbiotic microorganisms, but enhanced after infection with a root pathogenic fungus.     

A Pathotype Classification for Mycosphaerella pinodes

Genetic variation of Mycosphaerella pinodes in the pathogenesis of Pisum sativum is described for the first time. On a particular host line, isolates varied from those producing a few necrotic flecks to those causing large lesions on stems or leaves. Based on reactions of nine differential host lines, 45 isolates from a wide range of geographical locations could be classed, by stem symptoms, into 9 groups or, by leaf symptoms, into 16 groups.     

Lectin-mediated agglutination of plant protoplasts

Abstract The ability of concanavalin A, soybean agglutinin and lectins from Pisum sativum and Bandeiraea simplicifolia to mediate the agglutination of protoplasts prepared from Nicotiana glauca, Zea mays, and Lactuca sativa was assessed. Pea lectin failed to mediate agglutination; the other lectins agglutinated the three cell types tested. A microtiter assay was used to assess the activity of the lectins. The three active lectins had different activities against each of the protoplast types tested.     

Effect of dual inoculation ofRhizobium and vesicular arbuscular mycorrhizal fungi onPisum sativum

The interaction of two symbionts,Rhizobium (a bacterium) andGigaspora calospora (a VAM fungus) was studied inPisum sativum (a nodulating legume).Pisum sativum plants inoculated with VA mycorrhizal fungi andRhizobium singly and in combination responded favourably as compared to uninoculated control. Characteristically dual inoculation exerted a higher beneficial effect on shoot and root dry mass, phosphorus and nitrogen uptake, nodule formation and degree of mycorrhizal infection than either inoculum alone.     

Optical Resolution and Biological Activities of α-Ionylideneacetic Acid.

Nuclease activity associated with cells and protoplasts was analyzed by agarose gel electrophoresis. Datura innoxia protoplasts were found to possess a high exonuclease activity. On the other hand, Datura innoxia cells had an endonuclease activity, but no apparent exonuclease. The exonucleases from the protoplasts were active at pH 5 and 6, but not at pH 9. Endonuclease activity from the cells was also inhibited at pH 9. Cultured cells of Daucus carota, Glycine max, Pisum sativum and Vicia hajastana had endonuclease activity, but did not exhibit exonuclease activity. Nicotiana suaveolens cells had both types of nuclease activity. On the other hand, cells from cereals such as Triticum monococcum, Oryza sativa, and Zea mays had active exonuclease activity.     

Natural loss‐of‐function mutation of EDR1 conferring resistance to tomato powdery mildew in Arabidopsis thaliana accession C24

To screen for potentially novel types of resistance to tomato powdery mildew Oidium neolycopersici, a disease assay was performed on 123 Arabidopsis thaliana accessions. Forty accessions were fully resistant, and one, C24, was analysed in detail. By quantitative trait locus (QTL) analysis of an F₂ population derived from C24 × Sha (susceptible accession), two QTLs associated with resistance were identified in C24. Fine mapping of QTL‐1 on chromosome 1 delimited the region to an interval of 58 kb encompassing 15 candidate genes. One of these was Enhanced Disease Resistance 1 (EDR1). Evaluation of the previously obtained edr1 mutant of Arabidopsis accession Col‐0, which was identified because of its resistance to powdery mildew Golovinomyces cichoracearum, showed that it also displayed resistance to O. neolycopersici. Sequencing of EDR1 in our C24 germplasm (referred to as C24‐W) revealed two missing nucleotides in the second exon of EDR1 resulting in a premature stop codon. Remarkably, C24 obtained from other laboratories does not contain the EDR1 mutation. To verify the identity of C24‐W, a DNA region containing a single nucleotide polymorphism (SNP) unique to C24 was sequenced showing that C24‐W contains the C24‐specific nucleotide. C24‐W showed enhanced resistance to O. neolycopersici compared with C24 not containing the edr1 mutation. Furthermore, C24‐W displayed a dwarf phenotype, which was not associated with the mutation in EDR1 and was not caused by the differential accumulation of pathogenesis‐related genes. In conclusion, we identified a natural edr1 mutant in the background of C24.     

Cytochemical localization of ATPase plasma membrane and acid phosphatase by cerium-based method in a salt-adapted cell line of Pisum sativum

In order to study a possible application of cerium-based techniquesin plant cells, ATPase and acid phosphatase activities havebeen compared in two cell lines of Pisum sativum calli, onesensitive to NaCI and the other selected to be grown under salinity(85 mM NaCI). ATPase activity was unchanged and localized inthe plasma membrane of both cell lines. Acid phosphatase activitywas significantly increased in the salt-selected line and localizedin the cell walls, Golgi complex, multivesicular bodies andvacuoles. These results indicated a possible involvement ofboth activities in the maintenance of cell growth in the selectedline under saline conditions. Key words: Acid phosphatase, Pisum sativum, plasma membrane ATPase, salt stress, ultrastructure     

Selection, biological properties and fitness of resistance-breaking strains of Tomato spotted wilt virus in pepper

In glasshouse tests, infective sap from plants infected with 17 different isolates of Tomato spotted wilt virus (TSWV) from four Australian states was inoculated to three Capsicum chinense accessions (PI 152225, PI 159236 and C00943) carrying single genes that confer hypersensitive resistance to TSWV. The normal response to inoculation was development of necrotic (hypersensitive) local lesions in inoculated leaves without systemic invasion, but 3/1386 infected plants also developed systemic susceptible reactions in addition to hypersensitive ones. Similarly when two isolates were inoculated to C. chinense backcross progeny plants, 1/72 developed systemic susceptible reactions in addition to localised hypersensitive ones. Using cultures from the four plants with susceptible reactions and following three to five further cycles of serial subculture in TSWV‐resistant C. chinense plants, four isolates were obtained that gave systemic susceptible type reactions in the three TSWV‐resistant accessions, and in TSWV‐resistant cultivated pepper (C. annuum). When three of these isolates were inoculated to tomato (Lycopersicon esculentum) breeding lines with single gene resistance to TSWV, resistance was not overcome. Similarly, none of the four isolates overcame partial resistance to TSWV in Lactuca virosa. When TSWV isolates were inoculated to tomato breeding lines carrying partial resistance from L. chilense, systemic infection developed which was sometimes followed by ‘recovery’. After four successive cycles of serial passage in susceptible cultivated pepper of a mixed culture of a resistance‐breaking isolate with the non resistance‐breaking isolate from which it came, the resistance‐breaking isolate remained competitive as both were still found. However, when the same resistance‐ breaking isolate was cultured alone, evidence of partial reversion to wild‐type behaviour was eventually obtained after five but not four cycles of long term serial subculture in susceptible pepper, as by then the culture had become a mixture of both types of strain. This work suggests that resistance‐breaking strains of TSWV that overcome single gene hypersensitive resistance in pepper are relatively stable. The findings have important implications for situations where resistant pepper cultivars are deployed widely in the field without taking other control measures as part of an integrated TSWV management strategy.     

Selection of resistance breaking strains of tomato spotted wilt tospovirus

In glasshouse tests, sap from plants infected with 15 different isolates of tomato spotted wilt tospovirus (TSWV) from three Australian states was inoculated to nine genotypes of tomato carrying TSWV resistance gene Sw-5 or one of its alleles. A further two resistant tomato genotypes were inoculated with four isolates each. The normal response in resistant genotypes was development of necrotic local lesions in inoculated leaves without systemic invasion, but 22/752 plants also developed systemic reactions in addition to local hypersensitive ones. Using cultures from two of these systemically infected plants and following four cycles of subculture in TSWV resistant tomato plants, two isolates were obtained that gave susceptible type systemic reactions but no necrotic spots in inoculated leaves of resistant tomatoes. When these two isolates, Da_WA-1d and To_TAS-1d, were maintained by repeated subculture for 10 successive cycles in Nicotiana glutinosa or a susceptible tomato genotype, they still induced susceptible type systemic reactions when inoculated to resistant tomato plants. They were therefore stable resistance breaking isolates as regards overcoming gene Sw-5. When resistance-breaking isolate Da_WA^-1ld multiplied together with original isolate Da_WA-l in susceptible tomato, it was fully competitive with the original isolate. However, when Da_WA-ld and To_TAS-ld were inoculated to TSWV resistant Lycopersicon peruvianum lines PI 128660R and PI 128660S and to TSWV resistant Capsicum chinense lines PI 152225, PI 159236 and AVRDC CO0943, they failed to overcome the resistance, producing only necrotic local lesions without systemic infection. Thus, although the ease of selection, stability and competitive ability of resistance breaking isolates of TSWV is cause for concern, L. peruvianum and C. chinense lines are available which are effective against them. The effectiveness of the resistance to TSWV in nine tomato genotypes was examined in a field experiment. Spread was substantial in the susceptible control genotype infecting 42% of plants. Resistance was ineffective in cv. Bronze Rebel, 26% of plants developing infection. In contrast, it held up well in the other eight resistant genotypes with only 1–3 or no plants of each becoming infected. Accumulated numbers of Thrips tabaci, Frankliniella occidentalis and F. schultzei were closely correlated with TSWV spread.     

Root-hair infection and nodulation of four grain legumes as affected by the form and the application time of nitrogen fertilizer

The effects of application of combined nitrogen fertilizer (ammonium nitrate or urea) on root-hair infection and nodulation of four grain legumes were studied. Young roots of each legume were inoculated with their compatible rhizobia. The application of the two forms of combined N either at the early stages of plant growth and/or at the time of nodule formation depressed root-hair curling, infection and nodulation. Infection of hairs on the primary roots was more sensitive to the N fertilizer than hair infection of secondary roots in bothVicia faba andPisum sativum. The nodule number and total fresh mass of the four legumes were drastically affected by fertilizer application. The combined N added both at early and at later stages significantly reduced the nodulation ofV. faba, Phaseolus vulgaris andVigna sinensis. The inhibitory effect of urea on nodulation ofP. sativum was only observed when the fertilizer was applied at the late stages of plant growth. It is concluded that, although the nodulation of the four legumes was suppressed by combined N, the initial events ofRhizobium-legume symbiosis (infection of roots and nodule initiation) are more sensitive to combined N than the stages after nodule formation.     

Identification of quantitative trait loci for specific mechanisms of resistance to <Emphasis Type="Italic">Orobanche crenata</Emphasis> Forsk. in pea (<Emphasis Type="Italic">Pisum sativum</Emphasis> L.)

Crenate broomrape (Orobanche crenata) is the major constraint for pea cultivation in the Mediterranean Basin and Middle East. Cultivation of resistant varieties would be the most efficient, economical and environmentally friendly way to control this parasite. However, little resistance is available within cultivated pea. Promising sources of resistance have been identified in wild peas but their use in breeding programs is hampered by the polygenic nature of the resistance. The identification of molecular markers linked to the resistance would allow tracking of the underlying genes, facilitating their introgression into pea cultivars. The main objective of this study was the identification of genomic regions associated with resistance to O. crenata. A RIL (Recombinant Inbred Lines) population derived from a cross between a resistant accession of the wild pea Pisum sativum ssp. syriacum, and a susceptible pea variety was screened for resistance to O. crenata under field conditions during two seasons. In addition, resistance reactions at different stages of the O. crenata infection cycle were assessed using a Petri dish method. The approach allowed the identification of four Quantitative Trait Loci (QTL) associated with field resistance, assessed as the number of emerged broomrape shoots per pea plant under field conditions. These identified QTLs explained individually from 10 to 17% of the phenotypic variation. In addition QTLs governing specific mechanisms of resistance, such as low induction of O. crenata seed germination, lower number of established tubercles per host root length unit, and slower development of tubercles were also identified. Identified QTLs explained individually from 8 to 37% of the variation observed depending on the trait. Host plant aerial biomass and root length were also assessed and mapped. Both traits were correlated with the level of O. crenata infection and three out of the four QTLs controlling resistance under field conditions co-localized with QTLs controlling plant aerial biomass or root length. The relationship observed among these traits and resistance is discussed.     

Flavonoid-producing tomato plants have a direct negative effect on the zoophytophagous biological control agent Orius sauteri

Orius sauteri (Poppius) (Hemiptera: Anthocoridae) is often used for biological control of small arthropod pests in greenhouse vegetable production systems in Asia. In addition to feeding on arthropod prey, O. sauteri consumes small quantities of plant material. Previous studies demonstrated that tomato plant chemistry confers antixenosis resistance to phloem-feeding whiteflies, but the potential nontarget effects of phytochemicals on the beneficial predator O. sauteri are unknown. Comparison of O. sauteri confined to near-isogenic lines (NILs) of tomatoes producing high levels of flavonoids (NIL-purple hypocotyl; resistant to whiteflies) and low levels of flavonoids (NIL-green hypocotyl; susceptible to whiteflies) revealed that O. sauteri had reduced oviposition, nymphal survival, and development on resistant plants, even if they were also provided with prey that did not feed on the host plant. Moreover, O. sauteri showed a significant ovipositional preference in choice assays, laying significantly more eggs on susceptible than on resistant plants. Molecular gut content analysis using the specific chloroplast trnL gene from tomato confirmed that adult and immature O. sauteri feed on both resistant and susceptible genotypes, and feeding behavior assays revealed that resistance did not affect plant feeding or prey acceptance by O. sauteri adults. These results demonstrate a direct negative effect of phytochemicals on a nontarget beneficial species and indicate that resistance mediated by phytochemicals can affect organisms that do not solely feed on phloem sap. The results also indicate that the mode of action and the potential ecological effects of phytochemical-mediated resistance are broader than previously recognized.     

Transgenic tobacco plants that express an antisense construct derived from a Medicago sativa cDNA encoding a Rac-related small GTP-binding protein fail to develop necrotic lesions upon elicitor infiltration

Using an RT-PCR approach a rac-related cDNA clone, designated Ms-rac1, was isolated from Medicago sativa (alfalfa). Ms-rac1 encodes a putative protein of 197 amino acids, which is closely related to known Rac-related GTP-binding proteins from Pisum sativum and Arabidopsis thaliana. RT-PCR analysis demonstrated that Ms-rac1 is ubiquitously expressed in various tissues in alfalfa. Expression of Ms-rac1 in suspension cultures occurred independently of treatment with elicitor, indicating that it is constitutively expressed. Heterologous expression of an antisense Ms-rac1 cDNA construct in transgenic tobacco plants was associated with poor growth and retarded flowering. Following infiltration with yeast elicitor, transgenic tobacco plants transformed with either the empty vector or Ms-rac1 in sense orientation developed brown necrotic lesions and subsequently cell death was observed within the infiltrated tissues. In contrast, the majority of the antisense transformants neither formed necrotic lesions nor showed any other visible defence reactions, demonstrating that Rac-related GTPases play an important role in the establishment of plant defence reactions. Received: 22 October 1999 / Accepted: 14 March 2000     

Root navigation by self inhibition

Circumventing physical obstacles is critical for a plant's survival and performance. Although the ability of roots to circumvent obstacles has been known for over 100 years, the phenomena and its mechanisms have received relatively little attention. In this study it is demonstrated that roots of Pisum sativum are able to detect and avoid growth towards inanimate obstacles and the hypothesis that this behaviour is based on the sensitivity of roots to their own allelopathic exudates that accumulate in the vicinity of physical obstacles is tested. The development of lateral roots of Pisum sativum towards an obstacle (a piece of nylon string, similar in dimensions to a plant root) was followed. Lateral roots were similar in number, but significantly shorter in the direction of the nylon string. In addition, up to half of the lateral roots that developed towards the nylon string withered, whereas no withering was observed in the absence of the nylon string. These avoidance growth patterns were suppressed in the presence of potassium permanganate or activated carbon, indicating a role of allelopathic exudates in promoting obstacle avoidance. The demonstrated obstacle avoidance by self inhibition could increase plant performance by limiting resource allocation to less promising parts of the root system.     

Dynamics of accumulation of phenolic compounds in pea roots during interaction with symbiotic bacteria <Emphasis Type="Italic">Rhizobium leguminosarum</Emphasis>

Investigation of the initial stages of infection of pea plants (Pisum sativum L., cv. Marat) with bacteria Rhizobium leguminosarum has demonstrated that interactions with the microsymbiont considerably influence the content and composition of phenolic compounds (PC) in the host plant. The changes were observed both in the total root content of PC and in the content of flavans. Concentrations of PC in various root zones were also different. The root regions featuring high content of PC in a day after inoculation had the lowest number of attached and penetrated bacteria. At the same time, in noninoculated plants, the distribution of PC in the root zones with various sensitivities to R. leguminosarum showed the opposite pattern.