Mitochondrial loci enable specific qPCR detection of the pathogen causing contemporary impatiens downy mildew epidemics

Impatiens downy mildew (IDM) disease is a primary constraint on the production of Impatiens walleriana, a popular and economically important floriculture plant. IDM is caused by the biotrophic oomycete Plasmopara destructor that emerged as a pathogen of I. walleriana in the 2000s. To enable P. destructor detection and quantification, a hydrolysis probe-based quantitative PCR diagnostic assay was developed based on unique orientation and order of the mitochondrial cytochrome c oxidase subunit 1 (cox1) and ATP synthase subunit alpha (atp1) genes in the genus Plasmopara. Nucleotide sequences and analysis of the cox1/atp1 region distinguished P. destructor and its sister-species P. obducens, consistent with prior phylogenetic analyses using cox2 and rDNA markers. Specificity for P. destructor was incorporated into a hydrolysis probe targeting the cox1 gene and flanking primers that amplified across the cox1/atp1 intergenic region. The limit of detection was 0.5 fg/μL of P. destructor DNA (~100 plasmid copies/µL), with amplification efficiency = 0.95. The assay was validated against a panel of target and non-target oomycetes, which showed that the primers were specific for Plasmopara spp., while the probe was specific for P. destructor infecting both I. walleriana and I. balsamina. Testing of Impatiens tissue collected from 23 locations across 13 states indicated all samples with IDM symptoms tested positive for P. destructor. Asymptomatic plants from two locations also tested positive for P. destructor.

Evaluation of Calcium Application Methods on Delaying Plant Wilting under Water Deficit in Bedding Plants

Floriculture crops can lose their aesthetic quality due to water deficit during postproduction. Calcium is a secondary messenger in plant stress signaling, and the treatment of calcium has been proposed to alleviate damage by various abiotic stresses. The objective of this research was to evaluate application methods of calcium to delay plant wilting under water deficiency in three species of bedding plants: viola (Viola cornuta), impatiens (Impatiens walleriana), and petunia (Petunia grandiflora). Three application methods were compared including spray, drench, and pre-drench. Calcium was applied as CaCl2 and Ca(NO3)2 at three concentrations ranging from 50 to 300 mM. The effect of calcium on shelf life was species-dependent, increasing shelf life in viola and impatiens, but not in petunia. Viola showed increased shelf life up to 154% and 400% in drench and pre-drench applications, respectively, compared to the control. In impatiens, spray and pre-drench applications delayed wilting symptoms by 53% and 200%, respectively. Comparing calcium sources, CaCl2 was the most effective as a drench, while Ca(NO3)2 pre-drench application effectively delayed wilting. There was no difference between CaCl2 and Ca(NO3)2 in spray application. These results provided the optimum application methods to delay plant witling and the potential of calcium application on enhancing water deficit tolerance in floriculture crops.

Garden post-transplant effects of pre-transplant plug cell volume and growing medium quality (as abiotic stresses) in Impatiens walleriana

Although much is known about the production of bedding plants, including Impatiens walleriana, little has been documented on their post-production performance. Thus, the aim of this work was to understand how pre-transplant crop management related to root restrictions imposed by plug cell volume and substrate quality affects the post-production performance related to biomass accumulation. To this end, we tested four plug cell volumes, as well as four growing media with significantly different physical and chemical properties, during nursery and pot culture. We also evaluated the difference between use and nonuse of synthetic cytokinin spray (benzyl aminopurine, BAP), a proven stress alleviator. Our novelty data validated the previous hypothesis and showed that plant quality and garden performance are dependent on these potential stress sources. The physiological mechanisms involved included differences in leaf area expansion (estimated mainly by relative leaf area expansion rate) and differences in CO2 fixation capacity (estimated by net assimilation rate). The sum of these responses determined significant differences in total fresh and dry weight during pot culture, which were amplified when plants were transplanted to a field bed. Spraying plants with synthetic cytokinin early during nursery allowed overriding of most root restriction abiotic stresses related to plug cell volume and growing media; therefore, synthetic cytokinin constitutes a tool to improve the yield of bedding plants (at the grower's level) and garden performance.

Effects of Growth Substrate on Greenhouse Gas Emissions from Three Annual Species

Previous work by these authors have quantified cumulative greenhouse gas (GHG) emissions for several woody and herbaceous perennial species, in interaction with several standard best management practices (container size, fertilizer application and irrigation delivery methods, and light level). In this study, the greenhouse production of three annual species [coleus (Solenostemon scutellarioides Thonn. ‘Redhead'), vinca (Catharanthus roseus L. ‘Cooler Grape'), and impatiens (Impatiens walleriana Hook. f. ‘Super Elfin XP White')] was evaluated in three substrates [80:20 peat:perlite, 80:20 peat:WholeTree (a whole pine tree-based substrate), 60:40 peat:WholeTree]. Emissions of CO2, N2O and CH4 were collected over a period of 52 days. Without regard to media, coleus had the highest cumulative CO2 efflux (statistically similar to vinca), due to its increased size in comparison with both vinca and impatiens. Without regard to species, plant-pot systems using the highest proportion of WholeTree (40%) had numerically the most cumulative CO2 efflux (statistically similar to those containing only 20% WholeTree). No differences were observed for the main effect of species or media for N2O or CH4. Results suggest that using a more sustainable high wood fiber substrate in similar proportions to that of perlite in an industry standard mix (20%) could yield similarly sized plants with no negative impact on GHG emissions. Index words: alternative substrate, WholeTree, carbon sequestration, carbon dioxide, nitrous oxide, methane, global climate change. Species used in this study: ‘Redhead' coleus, Solenostemon scutellarioides Thonn. ‘Redhead'; ‘Cooler Grape' vinca, Catharanthus roseus L. ‘Cooler Grape'; ‘Super Elfin XP White' impatiens, Impatiens walleriana Hook. f. ‘Super Elfin XP White'.

Cytotoxicity of Ocimum basilicum and Impatiens walleriana Extracts on AGS and SKOV-3 Cancer Cell Lines by Flow Cytometry Analysis

Background: Numerous studies investigate finding new drug candidates with an increasing death rate caused by cancer. Nowadays, herbal medicine has been noticed again because of the many side effects of chemical drugs. Objectives: In the current study, anthocyanin and carotenoid types of compounds of Ocimum basilicum and Impatiens walleriana were determined and their cytotoxic effect on human gastric adenocarcinoma (AGS) and human ovarian carcinoma (SKOV-3) cancer cell lines were investigated. The cytotoxic effect of I. walleriana on cancer cells has not been reported so far. Methods: The amount of anthocyanin and carotenoid derivatives in these two plant species were investigated by biochemical tests, 3-(4, 5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT), and flow cytometry methods were applied for the cytotoxicity effect of the extracts on the AGS and SKOV3 cancer cell lines. Cell necrosis and apoptosis were determined by annexin V-fluorescent isothiocyanate/propidium iodide (FITC/PI) staining and quantification by flow cytometry. Results: O. basilicum and I. walleriana contained a noticeable amount of the mentioned compounds. According to the results, the lowest IC50 (Half- maximal inhibitory concentration) value with an amount of 2.5 ± 0.21 mg/mL that indicates the most cytotoxic extract on the AGS cancer cell line belonged to I. walleriana extract. Besides, the lowest IC50 value of O. basilicum was about 0.9 ± 0. 11 mg/mL on the SKOV3 cancer cell line. The flow cytometry analysis has also proved that the toxicity of O. basilicum is more than I. walleriana on the SKOV3 cell line and the toxicity of I. walleriana was higher than O. basilicum on the AGS cancer cell line. Conclusions: O. basilicum and I. walleriana contain antioxidant compounds, which showed the cytotoxic effect on AGS and SKOV3 cancer cell lines. Further studies on animal models and subsequent trials are necessary for revealing the full potential of the extracts.

Chemical Composition and Bioactive Characterisation of Impatiens walleriana

The attractive colour characteristics of the flowers of the species Impatiens walleriana have been arousing great interest in the food industry, which is looking for potential natural sources of colouring ingredients. In this sense, the present work focused on the chemical and bioactive characterization of pink and orange flowers of I. walleriana. The phenolic compounds were determined by HPLC-DAD-ESI/MS; in addition, different bioactivities (antioxidant, antimicrobial, anti-inflammatory and cytotoxicity) were also analysed. Both samples studied showed significant amounts of phenolic compounds, especially phenolic acids, flavonoids, and anthocyanins, which justifies the excellent performance in the different bioactivities studied. The orange variety, despite having a greater variety of phenolic compounds, showed a total amount of compounds lower than the pink variety. Overall, the flowers of I. walleriana emerge as a promising resource to be explored by the food industry.

Molecular Characterization and Expression of Four Aquaporin Genes in Impatiens walleriana during Drought Stress and Recovery

Aquaporins comprise a large group of transmembrane proteins responsible for water transport, which is crucial for plant survival under stress conditions. Despite the vital role of aquaporins, nothing is known about this protein family in Impatiens walleriana, a commercially important horticultural plant, which is sensitive to drought stress. In the present study, attention is given to the molecular characterization of aquaporins in I. walleriana and their expression during drought stress and recovery. We identified four I. walleriana aquaporins: IwPIP1;4, IwPIP2;2, IwPIP2;7 and IwTIP4;1. All of them had conserved NPA motifs (Asparagine-Proline-Alanine), transmembrane helices (TMh), pore characteristics, stereochemical properties and tetrameric structure of holoprotein. Drought stress and recovery treatment affected the aquaporins expression in I. walleriana leaves, which was up- or downregulated depending on stress intensity. Expression of IwPIP2;7 was the most affected of all analyzed I. walleriana aquaporins. At 15% and 5% soil moisture and recovery from 15% and 5% soil moisture, IwPIP2;7 expression significantly decreased and increased, respectively. Aquaporins IwPIP1;4 and IwTIP4;1 had lower expression in comparison to IwPIP2;7, with moderate expression changes in response to drought and recovery, while IwPIP2;2 expression was of significance only in recovered plants. Insight into the molecular structure of I. walleriana aquaporins expanded knowledge about plant aquaporins, while its expression during drought and recovery contributed to I. walleriana drought tolerance mechanisms and re-acclimation.

Evaluation of different growth hormones mediated callus induction and regeneration as well as the effect of colchicines, ethyl methanesulfonate (EMS) and gamma radiation on some traits of Impatiens walleriana

Impatiens is an ornamental member of family Balsaminaceae. This plant mostly propagated by vegetative technique, which generally time wasting process. It is often multiplicities via seed but is barricaded by F1 seed sterility. In vitro culture of Impatiens walleriana has much significant function in fast proliferation with useful features and elicitation of healthful and disease-free plants. This experiment was conducted to investigate the impact of medium and different hormones on in vitro propagation of Impatiens walleriana by using a completely randomized design. MS medium was prepared along with various concentrations of BAP, TDZ and ZEA. Callus was induced and grew well in media supplemented with 0.5 mg/l NAA + 1 mg/l BAP. In order to indirect propagation, explants were cultured in same media containing BAP, ZEA and TDZ in combination with NAA. These treatments have ability to organogenesis. The results revealed that the control treatment had the lowest effect on traits including shoot percentage, number of shoots, number of leaves, shoot length, fresh and dry weight, and it lead to maximum proliferations in medium supplemented with 0.5 mg/l NAA + 1 mg/l BAP. The highest root length and rooting percentage was observed in 0.5 mg/l IBA + 0.5 mg/l BAP. In addition, the effect of mutation agents was studied. Aseptic samples were treated with ?- irradiation, Ethyl Methane Sulfonate and colchicines at growth chamber. Treatments with 30 and 60 grey respectively had the lower survival rate, growth rate and polyploidy while colchicines with 0.1 and 0.2 had the highest rats. Regarding to these, the present technique illustrate an effective system for in vitro reproduction of Impatiens walleriana by hypocotyls cultures. In addition, colchicines proved to be effective in induction of polyploidy in this plantlet.

Occurrence of Plasmopara destructor causing Downy Mildew on Impatiens walleriana in Brazil

Impatiens walleriana (Balsaminaceae), popularly known as Impatiens, is an African succulent and a popular ornamental plant worldwide (GBIF, 2019). In Brazil it is broadly grown indoors and outdoors, including in public parks of Curitiba, State of Paraná (Viezzer et al. 2018). In September 2018, I. walleriana plants showing typical downy mildew symptoms were observed in wastelands and gardens in Curitiba. The symptoms included adaxial chlorotic leaf spots with abundant white sporulation on abaxial side (Supplementary figure 1). The disease led to severe defoliation of the plants and the incidence of the plant disease varied from 20 to 80% of plants in an area ranging from 400 to 40,000 m2. A representative sample was deposited in herbarium of the Museu Botânico Municipal de Curitiba (MBM 331601). The following morphology was observed: Sporangiophores (n = 30), hyaline, thin walled, emerging through stomata, 407.3 to 551.1 μm long, slightly swollen base, first branch at 165.8 to 324.7 μm from base, end branches 5.1 to 13.1 μm long, sporangia (n = 50) hyaline, thin-walled subglobose to ovoid, from 12.8 to 21.9 μm x 12.5 to 17.9 μm, slightly papillate. Due to morphological and genetic variations within the species Plasmopara obducens, Görg et al. (2017) proposed the new species P. velutina and P. destructor. The morphology of the Curitiba specimen was equivalent to that described for P. destructor (Görg et al. 2017). DNA was extracted from LEMIDPRTf-19-02 isolate and the ITS1 and cox2 regions were PCR amplified as described in Görg et al. (2017). The resulting sequences were deposited in GenBank (ITS1, MT680628; cox2, MT952335). A BLASTn analysis of the sequences revealed 100% homology with ITS (MF372742) and cox2 (MF372728) sequences of type strain of P. destructor (GLM-F107554). A Bayesian phylogenetic analysis was performed to compare the sequences from this study with reference sequences for P. obducens, P. destructor and P. velutina (Görg et al. 2017; Salgado-Salazar et al. 2018). The oomycete from Curitiba grouped in a reliable clade with P. destructor (Supplementary figure 2). Pathogenicity was carried out by ex vivo and in vivo tests. For ex vivo, stems with approximately four healthy leaves of I. walleriana (n = 10) were embedded in aluminum grid inside of gerbox with the stem bases immersed in distilled water. The inoculation of five stems was carried out by spraying a suspension with 6 x 104 sporangia mL-1 on the abaxial side of the leaves. Five stems with leaves inoculated with sterile water were used as controls. They were incubated in a growth chamber in the dark for 48 h at 20 °C and another 12 days in a 12 h light photoperiod. The confirmation of pathogenicity in plants (in vivo) was obtained with the inoculation of I. walleriana seedlings (one-month old) grown in 2 dm3 aluminum pots. The inoculation methodology and number of plants were the same as the stems test. After the inoculation, plants were incubated in a growth chamber for 48 h in the dark at 20 °C with 100% RH with nebulization, and another 10 days at a photoperiod of 12 hours of light. For both tests, abundant sporulation was observedwith morphology equivalent to Plasmopara destructor described by Görg et al. (2017). No disease developed on control plants. To our knowledge, this is the first report of P. destructor on I. walleriana in Brazil (Farr and Rossman 2019, Silva et al. 2019) representing a potential loss to flower production and a reduction in flowering period in public gardens and parks.