Nitrogen availability and susceptibility of tomato leaves to Botrytis cinerea

The aim of this study was to investigate the effect of nitrogen availability on susceptibility of tomato leaves to the fungal pathogen Botrytis cinerea. Plants with varying nitrogen availability were grown by adding N daily in exponentially increasing amounts to a nutrient solution at different rates. Leaves of plants grown at low nitrogen availability had a high leaf C/N ratio (21 g g^-1) and were about 2.5 times more susceptible to primary lesion formation by B. cinerea compared to plant grown at high nitrogen availability, which had a low leaf C/N ratio (11 g g^-1). Leaf C/N ratio accounted for 95% of variation in susceptibility. This relationship between C/N ratio and susceptibility persisted when plants were grown with exponential P addition and optimal N supply, and was thus independent of plant growth rate or related factors. We could not explain the effect of nitrogen availability by variation in the most obvious N-based resistance compound α-tomatine because more susceptible leaves with a high C/N ratio contained more α-tomatine. These leaves also contained more soluble carbohydrates. The level of soluble carbohydrates correlated positively with susceptibility, independent of the growth method. We therefore suggest that the effect of N availability on susceptibility must be explained by variation in levels of soluble carbohydrates and speculate about the role of these carbohydrates in the infection process. This revised version was published online in June 2006 with corrections to the Cover Date.     

Response of two tomato cultivars differing in salt tolerance to inoculation with mycorrhizal fungi under salt stress

Effects of arbuscular mycorrhizal fungi (AMF) and salt stress on nutrient acquisition and growth of two tomato cultivars exhibiting differences in salt tolerance were investigated. Plants were grown in a sterilized, low-P (silty clay) soil-sand mix. Salt was applied at saturation extract (EC_e) values of 1.4 (control), 4.9 (medium) and 7.1 dS m^–1 (high salt stress). Mycorrhizal colonization occurred irrespective of salt stress in both cultivars, but AMF colonization was higher under control than under saline soil conditions. The salt-tolerant cultivar Pello showed higher mycorrhizal colonization than the salt-sensitive cultivar Marriha. Shoot dry matter (DM) yield and leaf area were higher in mycorrhizal than nonmycorrhizal plants of both cultivars. Shoot DM and leaf area but not root DM were higher in Pello than Marriha. The enhancement in shoot DM due to AMF inoculation was 22% and 21% under control, 31% and 58% under medium, and 18% and 59% under high salinity for Pello and Marriha, respectively. For both cultivars, the contents of P, K, Zn, Cu, and Fe were higher in mycorrhizal than nonmycorrhizal plants under control and medium saline soil conditions. The enhancement in P, K, Zn, Cu, and Fe acquisition due to AMF inoculation was more pronounced in Marriha than in the Pello cultivar under saline conditions. The results suggest that Marriha benefited more from AMF colonization than Pello under saline soil conditions, despite the fact that Pello roots were highly infected with the AMF. Thus, it appears that Marriha is more dependent on AMF symbiosis than Pello. Accepted: 22 January 2001     

Genetic mapping of jointless-2 to tomato chromosome 12 using RFLP and RAPD markers

Abscission zones are specialized regions in plants, usually located at the base of most plant parts, such as flowers, fruit and leaves, where organs are shed. Although a great deal of information is known about the physiological and biochemical events that lead to organ shedding, very little is known of the molecular events that lead to the formation of the abscission zone itself. In tomato, two recessive mutations have been discovered that completely suppress the formation of flower and fruit pedicel abscission zones, i.e., jointless (j) and jointless-2 (j-2), both tentatively localized to chromosome 11 about 30 cM apart. Because the study of the control of abscission zone development is important for both basic and applied research we are using a map-based cloning approach to identify the jointless genes. The first step in any positional cloning experiment is to establish segregating mapping populations for the target gene and identify closely linked molecular markers that flank the locus. In this study, bulked segregant analysis was used to identify a RAPD marker associated with the j-2 locus, RPD140. To determine the chromosome location of RPD140, we converted it to an RFLP marker that was then mapped on the Cornell reference tomato map in a marker-dense region of chromosome 12. To verify that the j-2 locus was located on tomato chromosome 12, we used nine chromosome 12 RFLP markers linked with RPD140 to map the j-2 gene in an interspecific F₂ mapping population of 151 plants segregating for j-2. The j-2 gene was localized to a 3.0-cM interval between RPD140 and TG618 on tomato chromosome 12. Received: 29 March 1999 / Accepted: 13 October 1999     

Transmission of alien tomato chromosomes from BC1 to BC2 progenies derived from backcrossing potato (+) tomato fusion hybrids to potato: the selection of single additions for seven different tomato chromosomes

 By backcrossing three BC₁ genotypes of potato (+) tomato fusion hybrids to different tetraploid potato pollinators, BC₂ populations were produced. A combined total of 97 BC₂ plants from three BC₂ populations were analysed with chromosome-specific probes through restriction fragment length polymorphism (RFLP) for the presence of alien tomato chromosomes. The number of different alien tomato chromosomes transmitted through the female BC₁ parent ranged from 0 to 6, and the average number of different alien chromosomes transmitted per BC₂ plant varied between 1.7 and 3.4 in the different populations. This variation corresponded to the chromosome constitution of the individual BC₁ parents: parent 6739, which possessed 11 different alien chromosomes in a single condition, gave rise to progeny with a lower average number of alien chromosomes per plant than the BC₁ parent 2003 that possessed 2 of the 12 alien chromosomes in a disomic condition. In the latter case, the higher transmission rate was attributed to the more regular distribution of the two alien chromosomes in the disomic condition because of regular bivalent formation during meiosis as revealed by genomic in situ hybridisation (GISH) and fluorescent in situ hybridisation (FISH). The transmission frequencies of individual alien chromosomes were subjected to statistical analysis to test whether the maternal genotypes had an effect on alien-chromosome transmission. Among the BC₂ plants, a total of 27 single additions were detected for as many as seven different chromosomes (1, 2, 4, 6, 8, 10 and 12) out of the 12 possible types. Received: 4 March 1997 / Accepted: 28 August 1997     

Gurmarin suppression of licking responses to sweetener-quinine mixtures in C57BL mice

Gurmarin (Gur) is a peptide that selectively suppresses responses of the chorda tympani nerve to sweet substances in rats and mice. In the present study, we examined the effect of Gur on behavioral responses to sweet substances in C57BL mice. To accomplish this, we developed a new short-term lick test and measured numbers of licks for 10 s for sweet substances mixed with quinine hydrochloride (QHCl) in water-deprived mice. Numbers of licks for sucrose mixed with 1 or 3 mM QHCl increased with increasing concentration of sucrose from 0.01 to 1.0 M. Oral infusion with 30 micro g/ml Gur produced significant decreases in responses to concentration series for sucrose mixed with 3 mM QHCl, whereas no such effect by Gur was observed in responses to QHCl alone or QHCl-mixed HCl, NaCl or monosodium glutamate. The Gur suppression of QHCl-mixed sucrose responses, which otherwise lasted for 2-3 h, rapidly returned to approximately 80% of control levels after oral infusion with beta-cyclodextrin. These results are comparable to neural data previously found in chorda tympani responses, and thereby provide further evidence for Gur as a sweet response inhibitor in C57BL mice. In the other aspect, our newly developed short-term test can also provide a tool for measurements of taste-guided behavioral responses to sweeteners.     

Time-course of tomato whole-plant respiration and fruit and stem growth during prolonged darkness in relation to carbohydrate reserves

To evaluate the relevance of a simple carbon balance model (Seginer et al., 1994, Scientia Horticulturae 60: 55-80) in source-limiting conditions, the dynamics of growth, respiration and carbohydrate reserves of tomato plants were observed in prolonged darkness. Four days prior to the experiments, plants were exposed to high or low light levels and CO(2) concentrations. The concentration of carbohydrates in vegetative organs was 30-50 % lower in plants that were exposed to low carbon assimilation conditions compared with those exposed to high carbon assimilation conditions. During prolonged darkness, plants with low carbohydrate reserves exhibited a lower whole-plant respiration rate, which decreased rapidly to almost zero after 24 h, and carbohydrate pools were almost exhausted in leaves, roots and flowers. In plants with high carbohydrate reserves, the whole-plant respiration rate was maintained for a longer period and carbohydrates remained available for at least 48 h in leaves and flowers. In contrast, fruits maintained fairly stable and identical concentrations of carbohydrates and the reduction in their rate of expansion was moderate irrespective of the pre-treatment carbon assimilation conditions. The time-course of asparagine and glutamine concentrations showed the occurrence of carbon stress in leaves and flowers. Estimation of source and sink activities indicated that even after low carbon assimilation, vegetative organs contained enough carbohydrates to support fruit growth provided their own growth stopped. The time of exhaustion of these carbohydrates corresponded grossly to the maintenance stage simulated by the model proposed by Seginer et al. (1994), thus validating the use of such a model for optimizing plant growth.     

Modification of competence for in vitro response to Fusarium oxysporum in tomato cells. III. PR-protein gene expression and ethylene evolution in tomato cell lines transgenic for phytohormone-related bacterial genes

 Previous work carried out in our laboratory has shown that, in tomato, the alteration of endogenous phytohormone equilibria through the integration of Agrobacterium tumefaciens genes for auxin and cytokinin synthesis can modify the active defense response to Fusarium oxysporum f. sp. lycopersici. The susceptible cv ‘Red River’ acquires a stable competence for active defense, particularly when the phytohormone equilibrium is altered in favour of cytokinins. Here, we analyse the expression of genes involved in the defense response against pathogens, i.e. pathogenesis-related (PR)-protein genes, in the susceptible ‘Red River’ and resistant ‘Davis’ cultivars transgenic for the aforementioned genes. Fungal cell-wall components, glutathione, salicylic acid and the ethylene-forming ethephon are used as “probes” for the induction of defense processes, including ethylene production. The data obtained show that the extracellular PR-proteins (acidic chitinase and PR-1 protein) that were inducible in the control tissue of the resistant ‘Davis’ cultivar and not expressed in the susceptible ‘Red River’ cultivar became constitutive in the transgenic tissues of both. On the other hand, expression of the intracellular PR-proteins (basic chitinase and β-1,3-glucanase) was found to be constitutive in all cases, both in the control and in the transgenic cell lines of the resistant and the susceptible tomato cultivars. Ethylene production was higher in ‘Davis’ than in ‘Red River’, and significantly increased in the transgenic cell lines, particularly when cytokinin synthesis was altered. Received: 25 February 1998 / Accepted: 7 April 1998     

Accumulation of maize γ-zein and γ-zein: KDEL to high levels in tobacco leaves and differential increase of BiP synthesis in transformants

Two gene constructs (pROK.TG1L and pROK.TG1LK) were utilized to achieve accumulation of maize γ-zein to high levels in tobacco (Nicotiana tabacum L.) leaves. Both the chimaeric genes contained the γ-zein-coding region preceded by the 5′untranslated leader from the coat protein mRNA of TMV, but one of them (pROK.TG1LK) was modified in its protein-coding region by the addition of the ER retention signal KDEL. The accumulation of γ-zein and γ-zein:KDEL in leaves was compared with heterologous protein accumulation in tobacco plants previously transformed with a γ-zein cDNA harbouring a native 5′UTR. Replacement of γ-zein 5′UTR with the TMV leader dramatically increased γ-zein production. Furthermore, γ-zein:KDEL-expressing plants, on average, accumulated twice as much foreign protein in their leaves as pROK.TG1L plants. The two-fold increase in the level of γ-zein:KDEL can probably be attributed to an improvement in the mechanism for ER retention of zeins in the transgenic cells. Transformants also showed increased production of BiP, though to a lesser extent in γ-zein:KDEL-expressing plants compared with pROK.TG1L plants. It is therefore likely that γ-zein:KDEL retention is made less dependent on the chaperone assistance of BiP by the presence of the KDEL signal on the γ-zein mutant. Received: 15 October 1999 / Accepted: 28 February 2000     

The cost of producing a sexual signal: testosterone increases the susceptibility of male lizards to ectoparasitic infestation

According to current evolutionary theory, advertising traitsthat honestly indicate an organism's genetic quality might becostly to produce or maintain, though the kind of costs involvedin this process are controversial. Recently the immunocompetencehypothesis has proposed that testosterone (T) stimulates theexpression of male sexually selected traits while decreasingimmunocompetence. Even though some recent studies have shownan effect of T on ectoparasite load, the dual effect of thehormone has not been addressed in free-living populations. Herewe report results of an experiment in a free-living populationof the lizard Psammodromus algirus during the mating season.Males implanted with T had larger patches of breeding colorand behaved more aggressively than control males. In T-implantedmales, the increase in number of ticks during the mating seasonwas significantly higher than in control males and this negativelyaffected several hematological parameters. T-males sufferedsignificantly higher mortality than control males during theexperiment The results from the manipulation of T are consistentwith the dual effect of this hormone.     

Morphological differentiation within the Ranunculus cassubicus group compared to variation of isozymes, ploidy levels, and reproductive systems: implications for taxonomy

 In the partly apomictic Ranunculus cassubicus group, a subgroup of the R. auricomus complex, two species were studied by morphometric analyses: R. cassubicifolius W. Koch (with three diploid and two autotetraploid sexual populations), and R. carpaticola Soó (with three diploid sexual populations and a hexaploid apomictic one). Multidimensional scaling analyses (MDS) of individuals, boxplots and cluster analyses of populations revealed a differentiation of R. cassubicifolius and R. carpaticola, whereby in MDS the hexaploid apomictic individuals are partly intermediate between R. cassubicifolius and R. carpaticola. The cytodemes of R. cassubicifolius showed no morphological and only a weak genetic differentiation. A comparison of morphology, isozymes, reproductive system and ploidy levels showed only partly congruence of data sets in respect of grouping populations, thus illustrating the problem to find criteria for a taxonomic concept. A treatment of the apomictic population as a separate group is indicated by all data sets, afterwards R. cassubicifolius and diploid R. carpaticola represent two other well-defined groups. Canonical variate analysis including all characters confirmed the three suggested groups as significantly different and showed that a total of 89.3% of individuals are correctly classified; number of teeth of stem leaf segments and number of petals are the most discriminating characters. Herbarium studies confirm the morphological differentiation yielded from population samples. The three population groups are even better separated in a canonical variate analysis of isozyme data (presence/absence of 25 alleles) of the same material, here 92.6% of individuals are correctly classified. Morphology and isozyme data suggest that the hexaploid apomict originated from hybrids of R. cassubicifolius and diploid R. carpaticola and must be excluded from the sexual taxa; the final classification and naming of the apomicts must be left for further studies on a larger material. The sexual taxa should be classified as separate species. Herbarium studies indicate that R. carpaticola s.str. is widespread over the Carpathians and might include other populations hitherto ascribed to other microspecies as well. Received November 20, 2001; accepted May 10, 2002 Published online: September 13, 2002