Explore the vast range of titles available.

• Hydrogen sulphide (H₂S) has been proposed as the third gasotransmitter. In animal cells, H₂S has been implicated in several physiological processes. H₂S is endogenously synthesized in both animals and plants by enzymes with l‐Cys desulphydrase activity in the conversion of l‐Cys to H₂S, pyruvate and ammonia. • The participation of H₂S in both stomatal movement regulation and abscisic acid (ABA)‐dependent induction of stomatal closure was studied in epidermal strips of three plant species (Vicia faba, Arabidopsis thaliana and Impatiens walleriana). The effect of H₂S on stomatal movement was contrasted with leaf relative water content (RWC) measurements of whole plants subjected to water stress. • In this work we report that exogenous H₂S induces stomatal closure and this effect is impaired by the ATP‐binding cassette (ABC) transporter inhibitor glibenclamide; scavenging H₂S or inhibition of the enzyme responsible for endogenous H₂S synthesis partially blocks ABA‐dependent stomatal closure; and H₂S treatment increases RWC and protects plants against drought stress. • Our results indicate that H₂S induces stomatal closure and participates in ABA‐dependent signalling, possibly through the regulation of ABC transporters in guard cells.

Impatiens walleriana ( I. walleriana ), a potential cadmium (Cd) hyperaccumulator, can propagate by cuttings, which are less expensive to grow than seedlings. Different growth periods for cuttings, however, may lead to different physiological characteristics. In this study, I. walleriana cuttings were hydroponically grown in Cd-containing solutions (1.0–10.0 μM) for various growth periods (10–60 days). Experimental results showed that the Cd treatments had negative effects on growth compared to the controls that were not spiked with Cd. The extension of the growth period promoted most of the growth exhibitions of I. walleriana , except for SPAD readings for cuttings grown in the 5.0 and 10.0 μM solutions. The accumulation of Cd also increased over time, except in the roots of the cuttings grown in the 5.0 and 10.0 μM solutions. The subcellular distribution and chemical forms of Cd showed that I. walleriana developed better tolerance and detoxification capacities in the cuttings grown in the 5.0 and 10.0 μM solutions than in the cuttings grown in the other two Cd treatments.

The allelopathic potential of the Eurasian invasive plant Alliaria petiolata has been well documented, with the bulk of the effects believed to be mediated by arbuscular mycorrhizal fungi (AMF). We exposed the herbaceous annual Impatiens pallida , which is native to North America, to fractionated A. petiolata extracts at four developmental stages (germination, presymbiosis growth, symbiosis formation, and symbiosis growth) by using exposure levels expected to be similar to field levels. Surprisingly, we found strong direct effects on I. pallida germination and growth, but no indirect effects on I. pallida growth mediated by AMF. We also observed strong synergistic effects with a complete A. petiolata extract that inhibited I. pallida germination and presymbiosis root growth more than either a glucosinolate or flavonoid enriched fraction alone. In fact, the flavonoid enriched fraction tended to stimulate germination and presymbiosis root growth. In contrast to these strong direct effects, I. pallida plant growth during both the symbiosis formation and symbiosis growth phases was unaffected by A. petiolata extracts. We also found no inhibition of AMF colonization of roots or soils by A. petiolata extracts. We show that AMF can actually ameliorate allelopathic effects of an invasive plant, and suggest that previously observed allelopathic effects of A. petiolata may be due to direct inhibition of plant and fungal growth before symbiosis formation.

Invasive plants are by definition excellent competitors, either indirectly through competition for resources or directly through allelopathic inhibition of neighboring plants. Although both forms of competition are commonly studied, attempts to explore the interactions between direct and indirect competition are rare. We monitored the effects of several doses of extracts of Alliaria petiolata, a Eurasian invader in North America, on the growth of Impatiens pallida, a North American native, at several planting densities. The density-dependent phytotoxicity model predicts that as plant density increases, individual plant size will decrease, unless a toxin is present in the soil. In this case, individual plant size is predicted to increase as plant density increases, as plants share a limited toxin dose. We tested this model using fractions of an A. petiolata extract enriched in flavonoids or glucosinolates, as well as a combined fraction. The flavonoid-enriched fraction and the combined fraction suppressed I. pallida growth but only when applied at a dose eight times higher than that expected in the field. When treated with a dose equivalent to estimated field exposure levels, I. pallida growth was not distinguishable from that of control plants that received no extract, showing that indirect competition for resources was more important for determining the growth of I. pallida than direct allelopathic inhibition by A. petiolata. This is an important reminder that, even though many plants have the demonstrated potential to exert strong allelopathic effects, those effects may not always be apparent when other forms of competition are considered as well.

Infectious diseases result in morbidity and mortality. The demand for medicinal plants is increasing worldwide due to antimicrobial resistance. The objective of this study was to test the plant chemicals and evaluate the antibacterial and antifungal activity of an 80% methanolic Impatiens rothii root extract. The cold maceration method was employed to obtain the crude extract from the roots of Impatiens rothii . The diameter of the inhibition zone was determined by agar well diffusion, and the minimum inhibitory concentration was determined by broth microdilution. As standard drugs, ciprofloxacin and amphotericin B were used, while dimethylsulfoxide was used as a negative control. Various alkaloids, glycosides, free anthraquinones, saponins, and terpenoids were detected. Staphylococcus epidermis (MIC = 4 mg/ml, MBC = 32), Salmonella typhimurium (MIC = 3 mg/ml, MBC = 16), and Escherichia coli (MIC = 4 mg/ml, 32) were inhibited. Above 32 mg/ml, neither high nor low doses of the extract suppressed the growth of Staphylococcus aureus , Enterococcus faecalis , or Klebsiella pneumoniae . Similarly, Trichophyton rubrum and Trichophyton mentagrophytes were susceptible to the crude extract of Impatiens rothii. While the least antifungal activity was observed against Candida albicans and Aspergillus niger, with an MIC value of greater than 64 mg/ml. Therefore, this study supports the traditional uses of Impatiens rothii.

The high prevalence of morbidity and mortality from bacterial infections, together with the growing threat of antibacterial resistance, necessitated the development of alternative new drugs from traditional medicine. In Ethiopia, Impatiens tinctoria A. Rich has been traditionally used for the treatment of fungal infections such as ringworms that cause tinea pedis and it have also different medical values. Scientific information on its biological activity against a broad range of bacteria and safety data is scant, compared to its folklore data. In this study, we evaluated antibacterial activities and acute oral toxicity of aqueous, ethanol and ethyl acetate root extracts of Impatiens tinctoria A. Rich. Aqueous, ethanol and ethyl acetate extracts of the plant were evaluated using agar hole diffusion and agar dilution methods. Biological activities of the plant extracts were expressed as a zone of inhibition diameter, minimum inhibitory concentration (mg/ml), and minimum bactericidal concentration (mg/ml). The safety studies were performed by oral acute toxicity study according to the organization of economic cooperation and development test Guidelines 420.Gram-positive bacteria were more susceptible to the extracts compared to gram-negative bacteria, especially against S . aureus and S . epidermidis , which are commonly found in the skin. Ethyl acetate extract was more potent than ethanol and aqueous extracts. The 50% lethal dose (LD50) of tested mice was above 9600 mg/kg. This study provides a scientific basis for the antibacterial activity of the root extracts of I. tinctoria A. Rich, where, the ethyl acetate extract showed the most promising activity. Therefore, the antibacterial potential and practical non-toxicity of the study plant extracts suggested the possibility of using it for the development of antimicrobial drugs by further studying the plant in different directions.

Exploring the effects of allelopathic plant chemicals on the growth of native vegetation is essential to understand their ecological roles and importance in exotic plant invasion. Naphthoquinones have been identified as potential growth inhibitors produced by Impatiens glandulifera, an exotic annual plant that recently invaded temperate forests in Europe. However, naphthoquinone release and inhibitory potential have not been examined. We quantified the naphthoquinone content in cotyledons, leaves, stems, and roots from plants of different ages of both the invasive I. glandulifera and native Impatiens noli-tangere as well as in soil extracts and rainwater rinsed from leaves of either plant species by using ultra-high pressure liquid chromatography-mass spectrometry (UHPLC-MS). We identified the compound 2-methoxy-1,4-naphthoquinone (2-MNQ) exclusively in plant organs of I. glandulifera, in resin bags buried into the soil of patches invaded by I. glandulifera, and in rainwater rinsed from its leaves. This indicates that 2-MNQ is released from the roots of I. glandulifera and leached from its leaves by rain. Specific bioassays using aqueous shoot and root extracts revealed a strong inhibitory effect on the germination of two native forest herbs and on the mycelium growth of three ectomycorrhiza fungi. These findings suggest that the release of 2-MNQ may contribute to the invasion success of I. glandulifera and support the novel weapons hypothesis.

Neonicotinoids are widely-used pesticides implicated in the decline of bees, known to have sub-lethal effects on bees’ foraging and colony performance. One proposed mechanism for these negative effects is impairment to bees’ ability to learn floral associations. However, the effects of neonicotinoids on learning performance have largely been addressed using a single protocol, where immobilized bees learn an association based on a single sensory modality. We thus have an incomplete understanding of how these pesticides affect bee learning in more naturalistic foraging scenarios. We carried out the first free-foraging study into the effects of acute exposure of a neonicotinoid (imidacloprid) on bumblebees’ ( Bombus impatiens ) ability to learn associations with visual stimuli. We uncovered dose-dependent detrimental effects on motivation to initiate foraging, amount of nectar collected, and initiation of subsequent foraging bouts. However, we did not find any impairment to bees’ ability to learn visual associations. While not precluding the possibility that other forms of learning are impaired, our findings suggest that some of the major effects of acute neonicotinoid exposure on foraging performance may be due to motivational and/or sensory impairments. In light of these findings, we discuss more broadly how pesticide effects on pollinator cognition might be studied.

In this Study, the phytochemical constituents and radical scavenging activity of the MeOH extract of Impatiens Tinctoria were investigated along with the dye capability of the crude tubers. Phytochemical screening has shown the presence of alkaloids, saponins, phenols, terpenoids, steroids, tannins, and glycosides in the MeOH extract of I. Tinctoria tubers. The MeOH extract of I. tinctoria tubers exhibited 39.07, 46.94, and 25.15% scavenging activity at the concentration of 1000 ppm using DPPH, ABTS, and H 2 O 2 antioxidant activity assay, respectively. The methanol extract from the tubers showed an inhibition zone of 9.46 ± 0.03 mm in diameter for the gram-negative bacterium ( E. coli ). The dyeing of cotton fabrics using crude I. Tinctoria tubers were also evaluated. The effects of different mordants, AlK(SO 4 ) 2 12H 2 O, NaOH, HNO 3 , CH 3 COOH, NH 3, and lemon juice, were evaluated on the dyeing of cotton fabrics in crude I. Tinctoria. Treatment of cotton fabrics with NaOH resulted in a better appearance, with the most intense red colour. The study demonstrated that cotton fabrics with desired color depth and appearance could be prepared by varying the concentration of NaOH and immersion time in crude I. Tinctoria .