Plants express different defence mechanisms in response to pathogens. Understanding the recognition of pathogenassociated molecular patterns (PAMPs) by specific receptors, and the role of endogenous signals such as AtPep1 that regulate expression of genes in Arabidopsis thaliana, has aided the understanding of the defence mechanisms in different species. The aim of this study was to identify possible orthologous sequences of AtPROPEPs in tomato (Solanum lycopersicum) and characterize its role in resistance to necrotrophic pathogens. The presence of an orthologue of the A. thaliana AtPROPEP1 gene in S. lycopersicum, SlPROPEP, by in silico analysis, is reported here. This has 96% identity with the C-terminal region of a previously described potato peptide, another possible orthologue of AtPep1. A virus-induced gene silencing (VIGS) system was employed to investigate the role of the SlPROPEP. Silencing of SlPRO-PEP in tomato made plants more susceptible to Pythium dissotocum; approximately 30% of SlPROPEP-silenced plants showed stem constriction compared with 4% in control plants. Furthermore, quantification of P. dissotocum by qPCR revealed that the increase in symptom severity in SlPROPEP-silenced plants was associated with a 15 times increase in growth of the pathogen compared to control plants. Silencing of SlPROPEP also resulted in decreased expression of genes involved in plant defence against pathogens, such as PR-1, PR-5, ERF1, LOX-D and DEF2. These results suggest that SlPROPEP is involved in tomato resistance to P. dissotocum and probably acts as a pathogen-associated molecular pattern through signalling pathways mediated by jasmonic acid/ethylene (JA/ET).
Cadmium (Cd) content was quantified in the shoot of six tomato cultivars and the Cd effect on the expression of LeNRAMP3, LeFER, LeIRT1 and LeNRAMP1 was evaluated. The six tomato cultivars accumulated high Cd concentrations and were able to transport Cd to the fruits. Among the evaluated genes, the Cd-induced level of LeFER expression appeared to provide an evidence regarding the capacity of foliar Cd accumulation in tomato. The results indicate that tomato represents a possible pathway for Cd entry into the food chain and an attractive model organism for the elucidation of the mechanisms involved in Cd accumulation.
Interspecific hybridization has several consequences for parental species, from blurring species limits to the emergence of new taxa. Petunia axillaris and P. exserta occur in sympatry in southernmost Brazil and naturally hybridize despite their different pollination syndromes and habitat requirements. We employed genetic and morphological analyses to characterize two contact zones between the species with the aim of determining the effect of interspecific hybridization. Microsatellite loci and a morphometric evaluation of the corolla shape were used to classify individuals based on their origin as pure parental or hybrids. Corolla color was used to classify individuals a priori (white, red or intermediate, for P. axillaris, P. exserta or hybrid, respectively). Corolla color was found to be a good indicator of the genetic component of each species and their hybrid, while the shape of the corolla did not always correspond to genetic origin. Hybridization increased the variability, and introgression occurred in both directions in this system.
Gene flow via seed or pollen dispersal is fundamental for establishing population diversity and structure of plants, especially in naturally fragmented environments. Petunia exserta (Solanaceae) is endemic to small shelters in rocky towers in the Brazilian Pampa grassland, an ancient and isolated region. The landscape is a long-term fragmented habitat, and ecological conditions inside the shelters constitute an inhospitable environment for other Petunia spp., which usually inhabit open and sunny grasslands. We aimed to evaluate the mating system and gene flow impact on genetic diversity and population structure in P. exserta throughout its geographical range. We used eight microsatellite markers to employ fine-scale genetic structure and paternity analyses in 15 populations, including 361 adults and 244 progeny. Our results showed that P. exserta has low genetic diversity and a homozygous excess compared with its congeners. We identified four genetic clusters that did not reflect the spatial population distribution and a strong genetic structure at the first spatial distance. Pollen and seed dispersal mainly occurred at short distances, and the species has a mixed mating system with high selfing levels. We did not observe recent population reduction, and most population clusters showed a small effective population size. The landscape micro-habitat features contribute to pollen flow that occurs mainly inside shelters through geitonogamy or biparental inbreeding. The self-compatible status of P. exserta and related lineages could be important in the colonization of a new environment for the genus.
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