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1.
Strigolactones: mediators of osmotic stress responses with a potential for agrochemical manipulation of crop resilience.
Cardinale, F, Korwin Krukowski, P, Schubert, A, Visentin, I
Journal of experimental botany. 2018;(9):2291-2303
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Abstract
After quickly touching upon general aspects of strigolactone biology and functions, including structure, synthesis, and perception, this review focuses on the role and regulation of the strigolactone pathway during osmotic stress, in light of the most recent research developments. We discuss available data on organ-specific dynamics of strigolactone synthesis and interaction with abscisic acid in the acclimatization response, with emphasis on the ecophysiological implications of the effects on the stomatal closure process. We highlight the importance of considering roots and shoots separately as well as combined versus individual stress treatments; and of performing reciprocal grafting experiments to work out organ contributions and long-distance signalling events and components under more realistic conditions. Finally, we elaborate on the question of if and how synthetic or natural strigolactones, alone or in combination with crop management strategies such as grafting, hold potential to maximize crop resilience to abiotic stresses.
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2.
Regulation of Root Development and Architecture by Strigolactones under Optimal and Nutrient Deficiency Conditions.
Marzec, M, Melzer, M
International journal of molecular sciences. 2018;(7)
Abstract
Strigolactones (SLs) constitute a group of plant hormones which are involved in multiple aspects of plant growth and development. Beside their role in shoot and root development and plant architecture in general, SLs are also involved in plant responses to nutrient deficiency by promoting interactions with symbiotic organisms and via promotion of root elongation. Recent observations on the cross talk between SLs and other hormones demonstrate that the inhibition of adventitious root formation by ethylene is independent of SLs. Additionally, it was shown that root exposure to SLs leads to the accumulation of secondary metabolites, such as flavonols or antioxidants. These data suggest pleiotropic effects of SLs, that influence root development. The discovery that the commonly used synthetic SL analogue racGR24 might also mimic the function of other plant growth regulators, such as karrikins, has led us to consider the previously published publications under the new aspects. This review summarizes present knowledge about the function of SLs in shaping root systems under optimal and nutrient deficiency conditions. Results which appear inconsistent with the various aspects of root development are singled out.
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3.
From carotenoids to strigolactones.
Jia, KP, Baz, L, Al-Babili, S
Journal of experimental botany. 2018;(9):2189-2204
Abstract
Strigolactones are phytohormones that regulate various plant developmental and adaptation processes. When released into soil, strigolactones act as chemical signals, attracting symbiotic arbuscular mycorrhizal fungi and inducing seed germination in root-parasitic weeds. Strigolactones are carotenoid derivatives, characterized by the presence of a butenolide ring that is connected by an enol ether bridge to a less conserved second moiety. Carotenoids are isopenoid pigments that differ in structure, number of conjugated double bonds, and stereoconfiguration. Genetic analysis and enzymatic studies have demonstrated that strigolactones originate from all-trans-β-carotene in a pathway that involves the all-trans-/9-cis-β-carotene isomerase DWARF27 and carotenoid cleavage dioxygenase 7 and 8 (CCD7, 8). The CCD7-mediated, regiospecific and stereospecific double-bond cleavage of 9-cis-β-carotene leads to a 9-cis-configured intermediate that is converted by CCD8 via a combination of reactions into the central metabolite carlactone. By catalyzing repeated oxygenation reactions that can be coupled to ring closure, CYP711 enzymes convert carlactone into tricyclic-ring-containing canonical and non-canonical strigolactones. Modifying enzymes, which are mostly unknown, further increase the diversity of strigolactones. This review explores carotenogenesis, provides an update on strigolactone biosynthesis, with emphasis on the substrate specificity and reactions catalyzed by the different enzymes, and describes the regulation of the biosynthetic pathway.
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4.
Dietary intake of glucono-δ-lactone attenuates skin inflammation and contributes to maintaining skin condition.
Kuwano, T, Kawano, S, Kagawa, D, Yasuda, Y, Inoue, Y, Murase, T
Food & function. 2018;(3):1524-1531
Abstract
Skin properties are influenced by both external (e.g., ultraviolet [UV], chemicals, and bacteria) and internal factors (e.g., nutrition and hormones). Therefore, some dietary supplements are expected to improve skin conditions. Glucono-δ-lactone (GDL) is widely used as a food additive and is naturally present in wine, honey, and other foods. The aim of this study was to assess whether GDL improves skin condition and inflammation. In a double-blind, placebo-controlled study, 40 healthy Japanese male volunteers were randomly assigned to either the GDL (2000 mg day-1) or placebo group. A significant difference was found in the rates of change in transepidermal water loss (TEWL) from the baseline to 6 months between the placebo and GDL groups (P < 0.05). Facial lightness (L*) significantly increased by 1.6% only in the GDL group at 6 months compared with the baseline. The value of the elasticity parameter, Ua/Uf, of dietary GDL significantly increased (6.2% at 2 months and 5.4% at 6 months). Besides these, dietary GDL suppressed UVB-induced erythema (a*) and pigmentation (L*). Dietary GDL has anti-inflammatory effects on the skin and prevents/improves skin disorders caused by seasonal change.
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Simultaneous Determination of Rosuvastatin, Rosuvastatin-5 S-lactone, and N-desmethyl Rosuvastatin in Human Plasma by UPLC-MS/MS and Its Application to Clinical Study.
Bai, X, Wang, XP, He, GD, Zhang, B, Huang, M, Li, JL, Zhong, SL
Drug research. 2018;(6):328-334
Abstract
OBJECTIVE A rapid and sensitive ultra-performance liquid chromatography-tandem mass spectrometry (UPLC-MS/MS) assay was developed and validated for the simultaneous quantification of rosuvastatin (RST), rosuvastatin-5 S-lactone (RSTL), and N-desmethyl rosuvastatin (DM-RST) in human plasma. METHODS Sample was prepared by liquid-liquid extraction with ethyl acetate from 100 μL acidulated buffered plasma. Then analytes were chromatographically separated using an Acquity UPLC HSS T3 column (3.0 mm×100 mm, 1.8 µm) by 0.1% formic acid and gradient acetonitrile at a flow rate of 0.30 mL/min. Three analytes and internal standards (carbamazepine) were eluted in 3.5 min. Mass spectrometry detection was performed through positive ion electrospray ionization (ESI). RESULTS The calibration curves for three analytes were linear (R≥0.9987, n=3) within the concentration range of 0.1-50 ng/mL for RST and RSTL, and 0.2-100 ng/mL for DM-RST. Mean extraction recoveries were enhanced by means of acidulated plasma using ammonium acetate of pH 4.0, which ranged within 75.3-98.8% for three analytes. Intra- and inter precision and accuracy were 88.2-96.4%. CONCLUSIONS This present method was lower LLOQ, less time consuming (3.5 min), less plasma consuming (100 µL) and simpler sample preparation. And it was successfully applied to determine steady state concentrations of RST, RSTL and DM-RST in a clinical study of RST for patients with coronary artery disease (CAD).
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6.
Exogenous strigolactone interacts with abscisic acid-mediated accumulation of anthocyanins in grapevine berries.
Ferrero, M, Pagliarani, C, Novák, O, Ferrandino, A, Cardinale, F, Visentin, I, Schubert, A
Journal of experimental botany. 2018;(9):2391-2401
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Abstract
Besides signalling to soil organisms, strigolactones (SLs) control above- and below-ground morphology, in particular shoot branching. Furthermore, SLs interact with stress responses, possibly thanks to a crosstalk with the abscisic acid (ABA) signal. In grapevine (Vitis vinifera L.), ABA drives the accumulation of anthocyanins over the ripening season. In this study, we investigated the effects of treatment with a synthetic strigolactone analogue, GR24, on anthocyanin accumulation in grape berries, in the presence or absence of exogenous ABA treatment. Experiments were performed both on severed, incubated berries, and on berries attached to the vine. Furthermore, we analysed the corresponding transcript concentrations of genes involved in anthocyanin biosynthesis, and in ABA biosynthesis, metabolism, and membrane transport. During the experiment time courses, berries showed the expected increase in soluble sugars and anthocyanins. GR24 treatment had no or little effect on anthocyanin accumulation, or on gene expression levels. Exogenous ABA treatment activated soluble sugar and anthocyanin accumulation, and enhanced expression of anthocyanin and ABA biosynthetic genes, and that of genes involved in ABA hydroxylation and membrane transport. Co-treatment of GR24 with ABA delayed anthocyanin accumulation, decreased expression of anthocyanin biosynthetic genes, and negatively affected ABA concentration. GR24 also enhanced the ABA-induced activation of ABA hydroxylase genes, while it down-regulated the ABA-induced activation of ABA transport genes. Our results show that GR24 affects the ABA-induced activation of anthocyanin biosynthesis in this non-climacteric fruit. We discuss possible mechanisms underlying this effect, and the potential role of SLs in ripening of non-ABA-treated berries.
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7.
Seed germination in parasitic plants: what insights can we expect from strigolactone research?
Brun, G, Braem, L, Thoiron, S, Gevaert, K, Goormachtig, S, Delavault, P
Journal of experimental botany. 2018;(9):2265-2280
Abstract
Obligate root-parasitic plants belonging to the Orobanchaceae family are deadly pests for major crops all over the world. Because these heterotrophic plants severely damage their hosts even before emerging from the soil, there is an unequivocal need to design early and efficient methods for their control. The germination process of these species has probably undergone numerous selective pressure events in the course of evolution, in that the perception of host-derived molecules is a necessary condition for seeds to germinate. Although most of these molecules belong to the strigolactones, structurally different molecules have been identified. Since strigolactones are also classified as novel plant hormones that regulate several physiological processes other than germination, the use of autotrophic model plant species has allowed the identification of many actors involved in the strigolactone biosynthesis, perception, and signal transduction pathways. Nevertheless, many questions remain to be answered regarding the germination process of parasitic plants. For instance, how did parasitic plants evolve to germinate in response to a wide variety of molecules, while autotrophic plants do not? What particular features are associated with their lack of spontaneous germination? In this review, we attempt to illustrate to what extent conclusions from research into strigolactones could be applied to better understand the biology of parasitic plants.
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Sesquiterpene lactone from Artemisia argyi induces gastric carcinoma cell apoptosis via activating NADPH oxidase/reactive oxygen species/mitochondrial pathway.
Zhang, XW, Wang, S, Tu, PF, Zeng, KW
European journal of pharmacology. 2018;:164-170
Abstract
Apoptosis is an essential type of programmed cell death. Previous studies have demonstrated that a wide range of natural-derived anticancer agents induce apoptosis by trigging oxidative stress. Artemisia argyi is a traditional Chinese herb for treating diverse diseases including dyspepsia, arthroncus, and anaphylactic disease. In this study, sesquiterpene lactone 3 (SL3), a bioactive ingredient isolated from Artemisia argyi was found to show obvious inhibitory effect on two gastric carcinoma cells. Mechanism study revealed that SL3 promoted the membrane translocation of p47, activated nicotinamide adenine dinucleotide (NADPH) oxidase, and evaluated intracellular reactive oxygen species production, leading to the activation of mitochondria-dependent caspase apoptosis pathway. Collectively, these findings show that SL3 is a promising anticancer candidate against gastric carcinoma by activating NADPH oxidase/reactive oxygen species/mitochondrial pathway.
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9.
Sesquiterpene lactones with unusual structure. Their biogenesis and biological activity.
Adekenov, SM
Fitoterapia. 2017;:16-30
Abstract
The given review provides data on the new sesquiterpene lactones with unusual structure isolated from various natural sources, e.g. fungi, plants, marine growth; about their spread, biological activity, and the presumed biogenetic pathway of their formation. An attempt was made to biologically justify a wide structural formation variety of new sesquiterpene lactones with the unique structure.
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10.
Biosynthetic considerations of triscatechol siderophores framed on serine and threonine macrolactone scaffolds.
Reitz, ZL, Sandy, M, Butler, A
Metallomics : integrated biometal science. 2017;(7):824-839
Abstract
Bacteria often produce siderophores to facilitate iron uptake. One of the most studied siderophores is enterobactin, the macrolactone trimer of 2,3-dihydroxybenzoyl-l-serine, produced by E. coli and many other enteric bacteria. Other siderophores are variants of enterobactin, with structural modifications including expansion of the tri-serine core to a tetra-serine macrolactone, substitution of l-serine with l-threonine, insertion of amino acids (i.e., Gly, l-Ala, d-Lys, d- and l-Arg, l-Orn), catechol glucosylation, and linearization of the tri-serine macrolactone core. In this review we summarize the current understanding of the biosyntheses of these enterobactin variants, placing them in contrast with the well-established biosynthesis of enterobactin.