Differential Antioxidant Response to Supplemental UV-B Irradiation and Sunlight in Three Basil Varieties.

Three basil plant varieties (Ocimum basilicum var. Genovese, Ocimum × citriodorum, and Ocimum basilicum var. purpurascens) were grown under moderate light (about 300 µmol photons m-2 s-1) in a glasshouse or growth chamber and then either transferred to an open field (average daily dose: 29.2 kJ m-2 d-1) or additionally exposed to UV-B irradiation in a growth chamber (29.16 kJ m-2 d-1), to reveal the variety-specific and light-specific acclimation responses. Total antioxidant capacity (TAC), phenolic profile, ascorbate content, and class III peroxidase (POD) activity were used to determine the antioxidant status of leaves under all four light regimes. Exposure to high solar irradiation at the open field resulted in an increase in TAC, total hydroxycinnamic acids (HCAs, especially caffeic acid), flavonoids, and epidermal UV-absorbing substances in all three varieties, as well as a two-fold increase in the leaf dry/fresh weight ratio. The supplemental UV-B irradiation induced preferential accumulation of HCAs (rosmarinic acid) over flavonoids, increased TAC and POD activity, but decreased the ascorbate content in the leaves, and inhibited the accumulation of epidermal flavonoids in all basil varieties. Furthermore, characteristic leaf curling and UV-B-induced inhibition of plant growth were observed in all basil varieties, while a pro-oxidant effect of UV-B was indicated with H2O2 accumulation in the leaves and spotty leaf browning. The extent of these morphological changes, and oxidative damage depended on the basil cultivar, implies a genotype-specific tolerance mechanism to high doses of UV-B irradiation.

Differential Response of Two Tomato Genotypes, Wild Type cv. Ailsa Craig and Its ABA-Deficient Mutant flacca to Short-Termed Drought Cycles.

Two tomato genotypes with constitutively different ABA level, flacca mutant and wild type of Ailsa Craig cv. (WT), were subjected to three repeated drought cycles, with the aim to reveal the role of the abscisic acid (ABA) threshold in developing drought tolerance. Differential responses to drought of two genotypes were obtained: more pronounced stomatal closure, ABA biosynthesis and proline accumulation in WT compared to the mutant were compensated by dry weight accumulation accompanied by transient redox disbalance in flacca. Fourier-transform infrared (FTIR) spectra analysis of isolated cell wall material and morphological parameter measurements on tomato leaves indicated changes in dry weight accumulation and carbon re-allocation to cell wall constituents in flacca, but not in WT. A higher proportion of cellulose, pectin and lignin in isolated cell walls from flacca leaves further increased with repeated drought cycles. Different ABA-dependent stomatal closure between drought cycles implies that acquisition of stomatal sensitivity may be a part of stress memory mechanism developed under given conditions. The regulatory role of ABA in the cell wall restructuring and growth regulation under low leaf potential was discussed with emphasis on the beneficial effects of drought priming in developing differential defense strategies against drought.

First report of Pectobacterium versatile causing blackleg of potato in Serbia.

Potato blackleg is frequently observed on the production fields in the Backa region of Vojvodina province, which is one of the largest potato-growing areas in Serbia. This disease usually occurs during June and July. In July 2020, blackleg symptoms in the form of stem necrotic lesions, vascular discoloration, hollow stems, and wilting of whole plants were noted on potato cultivar VR808 on a field 28 ha in size located in Maglic village (GPS coordinates 45.349325 N, 19.542768 E). Disease incidence was estimated at 20-25%. Isolations were performed from 12 potato samples on Crystal Violet Pectate medium (CVP). Stem sections consisted of brown lesions and healthy tissue (c.10 cm) were surface sterilized with ethyl alcohol 70% (w/v) and rinsed with sterile distilled water. Small pieces of tissue were taken at the edges of stem lesions (between healthy and diseased tissue) were soaked in phosphate buffer saline for 20 min and plated using a standard procedure (Klement et al. 1990). Single colonies that formed pits after 48 hours at 26 °C were re-streaked onto Nutrient Agar (NA) where creamy white colonies with smooth surfaces were formed. A total of 30 isolates were selected and DNA isolated from the colonies was further analyzed by polymerase chain reaction (PCR) using the partial dnaX gene (DNA polymerase subunit III gamma/tau) with primer pair dnaXf/dnaXr for Pectobacterium and Dickeya species identification (Slawiak et al. 2009). A single characteristic band of 535 bp was amplified in all isolates (Slawiak et al. 2009). DNA sequence alignment showed two distinct groups of isolates (Fig.S1), which were genetically uniform within each group. Using BLASTn search, it was established that the dnaX sequence of the first group (consisting of 19 Serbian potato isolates) had 99.79% identity with NCBI-deposited Pectobacterium versatile strains 14A and 3-2 from potato from Belarus (Acc. No. CP034276 and CP024842, respectively) as well as SCC1 from Finland (Acc. No. CP021894). The remaining 11 dnaX sequences had 100% identity with Pectobacterium carotovorum subsp. carotovorum strain CFBP7081 originating from water in Spain (Acc. No. MK516961). The partial dnaX sequences of three Serbian P. versatile isolates (Pv1320, Pv1520, and Pv1620) and one P. carotovorum subsp. carotovorum (Pcc2520) were deposited in GenBank under Acc. No. MW839571, MW805306, MW839572, and MW805307, respectively. These results, indicating combined infection in the observed field, signify the first identification of P. versatile in Serbia. Multilocus sequence analysis (MLSA) performed with proA (proAF1/ proAR1) and mdh (mdh2/mdh4) genes (Ma et al. 2007; Moleleki et al. 2013) grouped three tested Serbian potato P. versatile isolates together with P. versatile strains from NCBI (Fig.S2). For both tested genes, BLASTn search revealed 100% homology with P. versatile strain SCC1 from Finland. Three Serbian P. versatile potato isolates were deposited under Acc. Nos. MZ682623-25 for proA and MZ682620-22 for mdh genes. According to the routine tests suggested for Pectobacteriaceae (Schaad et al. 2001), Serbian isolates possessed microbiological traits identical to P. versatile description (Portier et al. 2019). Pathogenicity was performed on potato cultivar VR808 with three selected P. versatile isolates (Pv1320, Pv1520, and Pv1620) in the following assays: (i) surface-sterilized tuber slices with holes in the center filled with 100 µL of bacterial suspensions (adjusted to 109 CFU mL-1) to test the isolates' ability to cause soft rot, and (ii) young, four-week old plants with developed 3rd true leaf (c. 30 cm tall) were inoculated by injecting stems with bacterial suspension adjusted to 107 - 108 CFU mL-1 at a height 5 cm above the soil line. Negative controls were treated with sterile distilled water. Inoculated plants were kept under controlled conditions (25 °C temperature and >70% relative humidity). Each assay was replicated twice. Soft rot appeared on tuber slices 24 h after inoculation. On inoculated stems, initial symptoms manifested as greasy elongated spots at inoculation sites two days after inoculation (DAI), and subsequently extended along the vascular tissue and became necrotic. Whole plant's decay was recorded in five DAI, while negative controls remained healthy. To complete Koch's postulates, bacteria were re-isolated from symptomatic potato plants and confirmed by PCR and sequencing of dnaX. This first report of P. versatile in potato indicates that blackleg currently present in Serbia is caused by a diverse bacterial population. This pathogen was first identified in genome comparison as 'Candidatus Pectobacterium maceratum' (Shirshikov et al. 2018) and was later renamed as Pectobacterium versatile sp. nov. (Portier et al. 2019). Thus far, bacterium Pectobacterium carotovorum subsp. brasiliensis has been recognized as dominant pathogen on most of the infected fields in Vojvodina province, and was recently noted on one plot subjected to a combined infection with Dickeya dianthicola (Markovic et al. 2021). Findings achieved in this study are highly relevant, as they point to the diversity in potato blackleg pathogens, likely due to the increasingly widespread distribution of imported seed potatoes.

Leaf Soluble Sugars and Free Amino Acids as Important Components of Abscisic Acid-Mediated Drought Response in Tomato.

Water deficit has a global impact on plant growth and crop yield. Climate changes are going to increase the intensity, duration and frequency of severe droughts, particularly in southern and south-eastern Europe, elevating the water scarcity issues. We aimed to assess the contribution of endogenous abscisic acid (ABA) in the protective mechanisms against water deficit, including stomatal conductance, relative water potential and the accumulation of osmoprotectants, as well as on growth parameters. To achieve that, we used a suitable model system, ABA-deficient tomato mutant, flacca and its parental line. Flacca mutant exhibited constitutively higher levels of soluble sugars (e.g., galactose, arabinose, sorbitol) and free amino acids (AAs) compared with the wild type (WT). Water deficit provoked the strong accumulation of proline in both genotypes, and total soluble sugars only in flacca. Upon re-watering, these osmolytes returned to the initial levels in both genotypes. Our results indicate that flacca compensated higher stomatal conductance with a higher constitutive level of free sugars and AAs. Additionally, we suggest that the accumulation of AAs, particularly proline and its precursors and specific branched-chain AAs in both, glucose and sucrose in flacca, and sorbitol in WT, could contribute to maintaining growth rate during water deficit and recovery in both tomato genotypes.

Antioxidative response in variegated Pelargonium zonale leaves and generation of extracellular H2O2 in (peri)vascular tissue induced by sunlight and paraquat.

In this study we exposed variegated leaves of Pelargonium zonale to strong sunlight (>1100µmolm-2s-1 of photosynthetically active radiation) with and without paraquat (Pq), with the aim to elucidate the mechanisms of H2O2 regulation in green and white tissues with respect to the photosynthetically-dependent generation of reactive oxygen species (ROS). Sunlight induced marked accumulation of H2O2 in the apoplast of vascular and (peri)vascular tissues only in green sectors. This effect was enhanced by the addition of Pq. In the presence of diphenyl iodide, an NADPH oxidase inhibitor, H2O2 accumulation was abolished. Distinct light-induced responses were observed: in photosynthetic cells, sunlight rapidly provoked ascorbate (Asc) biosynthesis and an increase of glutathione reductase (GR) and catalase activities, while in non-photosynthetic cells, early up-regulation of soluble ascorbate peroxidase, dehydroascorbate reductase (DHAR) and GR activities was observed. Paraquat addition stimulated DHAR and GR activities in green sectors, while in white sectors activities of monodehydroascorbate reductase, DHAR and class III peroxidases, as well as Asc content rapidly increased. Differential antioxidative responses in the two tissues in the frame of their contrasting metabolisms, and the possible role of (peri)vascular H2O2 in signaling were discussed.