New insights into cadmium tolerance and accumulation in tomato: Dissecting root and shoot responses using cross-genotype grafting.

Cadmium (Cd) is one of the most threatening soil and water contaminants in agricultural settings. In previous studies, we observed that Cd affects the metabolism and physiology of tomato (Solanum lycopersicum) plants even after short-term exposure. The objective of this research was to use cross-genotype grafting to distinguish between root- and shoot-mediated responses of tomato genotypes with contrasting Cd tolerance at the early stages of Cd exposure. This study provides the first report of organ-specific contributions in two tomato genotypes with contrasting Cd tolerance: Solanum lycopersicum cv. Calabash Rouge and Solanum lycopersicum cv. Pusa Ruby (which have been classified and further characterized as sensitive (S) and tolerant (T) to Cd, respectively). Scion S was grafted onto rootstock S (S/S) and rootstock T (S/T), and scion T was grafted onto rootstock T (T/T) and rootstock S (T/S). A 35 µM cadmium chloride (CdCl2) treatment was used for stress induction in a hydroponic system. Both shoot and root contributions to Cd responses were observed, and they varied in a genotype- and/or organ-dependent manner for nutrient concentrations, oxidative stress parameters, antioxidant enzymes, and transporters gene expression. The findings overall provide evidence for the dominant role of the tolerant rootstock system in conferring reduced Cd uptake and accumulation. The lowest leaf Cd concentrations were observed in T/T (215.11 µg g-1 DW) and S/T (235.61 µg g-1 DW). Cadmium-induced decreases in leaf dry weight were observed only in T/S (-8.20%) and S/S (-13.89%), which also were the only graft combinations that showed decreases in chlorophyll content (-3.93% in T/S and -4.05% in S/S). Furthermore, the results show that reciprocal grafting is a fruitful approach for gaining insights into the organ-specific modulation of Cd tolerance and accumulation during the early stages of Cd exposure.

Comparative phosphoproteomic analysis of tomato genotypes with contrasting cadmium tolerance.

KEY MESSAGE: A first insight into the effects of cadmium exposure on the phosphoproteome of tomato plants by performing a comparative analysis of tomato genotypes with contrasting cadmium tolerance.

Estimating tomato tolerance to heavy metal toxicity: cadmium as study case.

This work aimed to develop a reliable and fast approach to estimate the plant tolerance degree to heavy metal (HM) phytotoxicity. Two independent experiments were carried out using tomato accessions, with contrasting morphological features, that were grown in a hydroponic solution containing different CdCl2 concentrations for 7 days. Plant dry weight and chlorophyll content (SPAD units) were evaluated, and tolerance degree to Cd toxicity was estimated according to the tolerance index (TI), which is a new mathematical formula based on plant biomass proposed in this study. Although with different magnitudes, tomato exhibited reductions in their dry weight concurrently with the increasing CdCl2 concentration. By contrast, chlorophyll content presented no standard response, decreasing and even increasing according to CdCl2 concentrations, indicating that only under certain conditions (particularly, at CdCl2 50 µM), this parameter can be used to estimate plant tolerance to Cd toxicity. TI was efficiently able to segregate tomato cultivars with similar performance (based on the total dry weight of plants), and such segregation was optimized when the hydroponic solution contained from 25 to 50 µM CdCl2. Within this range, data pointed at 35 µM CdCl2 as the best concentration to be employed in studies related to the tomato tolerance/sensitivity to Cd toxicity. In conclusion, TI proved to be a reliable estimator of tolerance degree to Cd exposure in genetically distinct tomato accessions. Moreover, TI can be used for this same purpose in plants under other HM-induced stresses.

Antibioticoterapia em microplantas de abacaxizeiro (Ananas comosus) / Antibiotic therapy in Pineapple (Ananas comosus) microplants

RESUMO: Com o intuito de avaliar os efeitos da antibioticoterapia no crescimento de plantas micropropagadas de abacaxizeiros, bem como na comunidade bacteriana endofítica da espécie, realizaram-se análises moleculares. Verificou-se a presença de endófitos no interior das microplantas, mesmo após 30 dias de cultivo em meio de cultura MS, suplementado com diferentes antibióticos, e analisou-se o crescimento da parte aérea e radicular das microplantas. Decorrido o período de 30 dias de cultivo, constatou-se ainda a presença de bactérias endofíticas, no entanto, as microplantas apresentaram acentuada redução no crescimento da parte aérea e radicular, evidenciando assim a influência da microbiota endofítica no crescimento das microplantas in vitro e a importância da manutenção do equilíbrio endofítos/microplanta.

ABSTRACT: This research aimed to evaluate the antibiotic therapy effects in the growing of micropropagated pineapple plants as well as in the community of the endophytic bacterial of the species. It was performed molecular analyzes and verified the presence of endophytes within microplants even after 30 days of culture on MS medium supplemented with different antibiotics and analyzed the development growth of shoots and roots of microplants. After the period of 30 days of cultivation, even being checked the presence of endophytic bacteria, it was verified that the microplants showed reduction of the growing of shoots and roots, thereby demonstrating the influence of in vitro endophytic microorganisms in the development of microplants, and the importance of maintaining it in equilibrium with endophytes/ microplants.

TDZ pulsing evaluation on the in vitro morphogenesis of peach palm.

Peach palm (Bactris gasipaes Kunth.) cropping is an excellent alternative to native species exploitation; nevertheless, the problems with seed germination and conventional propagation justify the use of in vitro culturing. Aiming to asses TDZ pulsing effect on B. gasipaes morphogenesis, explants obtained from unarmed microplants were maintained in two treatments, half of them in MS free medium (without growth regulator) and the other half in MS with TDZ (0.36 µM). Both groups were transferred to growth regulator-free MS medium following 14 days of culture. After 84 days of culture, TDZ pulsing increased the growth and development of the shoots, restricted the growth and development of the roots, with no influence on adventitious bud induction or somatic embryogenesis. Furthermore, development of prickles, thickening of roots and chlorotic leaves were noted under TDZ pulsing. Leaf sheath histological analysis showed an epidermal origin and no vascularization of these prickles.