13 research outputs found

    A flavour perspective of Tiepishihu (Dendrobium officinale) – an emerging food ingredient from popular traditional Chinese medicinal plants: a review

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    Many Dendrobium orchid stems are used in Traditional Chinese Medicine (TCM). The most popular and premium species is Dendrobium officinale, and its stem in TCM is called Tiepishihu. Tiepishihu has a sweet flavour and is an ingredient in Chinese tea and desserts. There is no comprehensive understanding of its flavour compounds. It is, therefore, essential to understand compounds responsible for its flavour, and how they are formed. This review assesses twelve diverse studies in Tiepishihu flavour (2013–2022). Thirty aroma compounds were compared – furfural and nonanal were identified as common compounds. Four of seven essential amino acids were taste-active, with lysine being the most potent. Pre-harvest factors such as environment impact specific aroma compounds. Post-harvest processing methods, including drying and grinding, can control Tiepishihu's flavour. Methodological consistency is a challenge, but controlling Tiepishihu's flavour could increase its commercial value as a food ingredient

    Isolation and Analysis of Characteristic Compounds from Herbal and Plant Extracts

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    Herbal and plant extracts show diverse activities and have been used for centuries as natural medicines for many health problems and diseases. Through the isolation and analysis of the compounds in the extracts, it is possible to understand why the extracts exhibit those activities, as well as the chemical metabolism of compounds that occur in plants and herbs. Recently, there have been increasing attempts to develop herbal and plant extracts into functional foods and drugs, but the legal requirements are becoming stricter. We need sophisticatedly defined extracts through the isolation and analysis of compounds comprising them in order to meet the legal requirements and to pursue quality control strategies in the production of functional foods and drugs. This Special Issue Book compiled the 15 recent research and review articles that highlight the isolation, profiling, and analysis of compounds in herbal and plant extracts, as well as quality control and standardized processing strategies for extracts with characteristic compounds

    Deployment and control of adaptive building facades for energy generation, thermal insulation, ventilation and daylighting: A review

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    A major objective in the design and operation of buildings is to maintain occupant comfort without incurring significant energy use. Particularly in narrower-plan buildings, the thermophysical properties and behaviour of their façades are often an important determinant of internal conditions. Building facades have been, and are being, developed to adapt their heat and mass transfer characteristics to changes in weather conditions, number of occupants and occupant’s requirements and preferences. Both the wall and window elements of a facade can be engineered to (i) harness solar energy for photovoltaic electricity generation, heating, inducing ventilation and daylighting (ii) provide varying levels of thermal insulation and (iii) store energy. As an adaptive façade may need to provide each attribute to differing extents at particular times, achieving their optimal performance requires effective control. This paper reviews key aspects of current and emerging adaptive façade technologies. These include (i) mechanisms and technologies used to regulate heat and mass transfer flows, daylight, electricity and heat generation (ii) effectiveness and responsiveness of adaptive façades, (iii) appropriate control algorithms for adaptive facades and (iv) sensor information required for façade adaptations to maintain desired occupants’ comfort levels while minimising the energy use

    Orchid Biochemistry

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    Orchids are fascinating, with attractive flowers that sell in the markets and an increasing demand around the world. Additionally, some orchids are edible or scented and have long been used in preparations of traditional medicine.This book presents recent advances in orchid biochemistry, including original research articles and reviews. It provides in-depth insights into the biology of flower pigments, floral scent formation, bioactive compounds, pollination, and plant–microbial interaction as well as the biotechnology of protocorm-like bodies in orchids. It reveals the secret of orchid biology using molecular tools, advanced biotechnology, multi-omics, and high-throughput technologies and offers a critical reference for the readers.This book explores the knowledge about species evolution using comparative transcriptomics, flower spot patterning, involving the anthocyanin biosynthetic pathways, the regulation of flavonoid biosynthesis, which contributes to leaf color formation, gene regulation in the biosynthesis of secondary metabolites and bioactive compounds, the mechanism of pollination, involving the biosynthesis of semiochemicals, gene expression patterns of volatile organic compounds, the symbiotic relationship between orchids and mycorrhizal fungi, techniques using induction, proliferation, and regeneration of protocorm-like bodies, and so on. In this book, important or model orchid species were studied, including Anoectochilus roxburghii, Bletilla striata, Cymbidium sinense, Dendrobium officinale, Ophrys insectifera, Phalaenopsis ‘Panda’, Pleione limprichtii

    Pertanika Journal of Tropical Agricultural Science

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    The Orchid review.

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    v.16 (1908

    UVR8 mediated spatial differences as a prerequisite for UV-B induced inflorescence phototropism

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    In Arabidopsis hypocotyls, phototropins are the dominant photoreceptors for the positive phototropism response towards unilateral ultraviolet-B (UV-B) radiation. We report a stark contrast of response mechanism with inflorescence stems with a central role for UV RESISTANCE LOCUS 8 (UVR8). The perception of UV-B occurs mainly in the epidermis and cortex with a lesser contribution of the endodermis. Unilateral UV-B exposure does not lead to a spatial difference in UVR8 protein levels but does cause differential UVR8 signal throughout the stem with at the irradiated side 1) increase of the transcription factor ELONGATED HYPOCOTYL 5 (HY5), 2) an associated strong activation of flavonoid biosynthesis genes and flavonoid accumulation, 3) increased GA2oxidase expression, diminished gibberellin1 levels and accumulation of DELLA protein REPRESSOR OF GA1 (RGA) and, 4) increased expression of the auxin transport regulator, PINOID, contributing to local diminished auxin signalling. Our molecular findings are in support of the Blaauw theory (1919), suggesting that differential growth occurs trough unilateral photomorphogenic growth inhibition. Together the data indicate phototropin independent inflorescence phototropism through multiple locally UVR8-regulated hormone pathways

    Tree Peony Species Are a Novel Resource for Production of α-Linolenic Acid

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    Tree peony is known worldwide for its excellent ornamental and medical values, but recent reports that their seeds contain over 40% α-linolenic acid (ALA), an essential fatty acid for humans drew additional interest of biochemists. To understand the key factors that contribute to this rich accumulation of ALA, we carried out a comprehensive study of oil accumulation in developing seeds of nine wild tree peony species. The fatty acid content and composition was highly variable among the nine species; however, we selected a high- (P. rockii) and low-oil (P. lutea) accumulating species for a comparative transcriptome analysis. Similar to other oilseed transcriptomic studies, upregulation of select genes involved in plastidial fatty acid synthesis, and acyl editing, desaturation and triacylglycerol assembly in the endoplasmic reticulum was noted in seeds of P. rockii relative to P. lutea. Also, in association with the ALA content, transcript levels for fatty acid desaturases (SAD, FAD2 and FAD3), which encode for enzymes necessary for polyunsaturated fatty acid synthesis were higher in P. rockii compared to P. lutea. We further showed that the overexpression of PrFAD2 and PrFAD3 in Arabidopsis increased linoleic and α-linolenic acid content, respectively and modulated their final ratio in the seed oil. In conclusion, we identified the key steps that contribute to efficient ALA synthesis and validated the necessary desaturases in P. rockii that are responsible for not only increasing oil content but also modulating 18:2/18:3 ratio in seeds. Together, these results will aid to improve essential fatty acid content in seeds of tree peonies and other crops of agronomic interest

    Elicitation, metabolomic analysis, and identification of antidiabetic compounds from selected indigenous plants.

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    Doctoral Degree. University of KwaZulu-Natal, Pietermaritzburg.Diabetes mellitus (DM) is an endocrine disorder associated with high blood glucose levels accompanied by disruptions in the metabolism of fat, proteins and carbohydrates. DM is a chronic, non-communicable and medically incurable disease affecting millions of people globally, resulting in high morbidity and mortality rates, especially with the lingering coronavirus disease of 2019 (Covid-19). The use of western antidiabetic medicine has posed many challenges due to their perceived overall safety, treatment failure and cost. Many African communities rely on medicinal plants and their bioactive compounds as sources of medicine as a consequence of the poor state of health facilities, shortage of medical doctors and unaffordability of treatments. For this reason, this study partly evaluated the phytochemical contents, in vitro antioxidant and hypoglycaemic potentials of eleven indigenous plants using five different solvents. Putative hypoglycaemic agents from one of the most promising and readily available species were also identified using in silico molecular modelling. Secondary metabolites and their pharmacological activity have been reported as the basis for the wide use of plants in traditional medicine. However, due to the indiscriminate harvesting and environmental pressure, many valuable indigenous plant species have gone into extinction or are at least threatened. Moreover, plants' bioactive compounds are often produced in minute quantities, and prevailing environmental conditions further influence their concentrations in plants. Thus, due to indigenous plants' industrial and medicinal value, deliberate cultivation and elicitation strategies have been adopted for the en masse production of uniform indigenous plants and to influence the quality and quantity of their active principles. Thus, this study also assessed the effects of individual and co-inoculation of two isolated drought-resistant and growth promoting endophytes on the growth, drought tolerance, medicinal efficacy and metabolome changes in the leaves of Endostemon obtusifolius. In this research, the eleven plants were selected based on the traditional uses of the plants (or their related available species) for treating various ailments, including DM. The preliminary phytochemical quantification results revealed that the highest concentrations of phenolics, flavonoids and tannins were found in the crude extracts of Combretum krausssii, Lippia javanica, Psidium guajava, Pentanassia prenulloides, E. obtusifolius, Syzgium cordatum, Pachira aquatica and Catha edulis. The inhibitory effects of the crude extracts against the digestive enzymes α- amylase and α-glucosidase also showed that the crude extracts of C. edulis, C. krausssii, L. javanica, P. aquatica, P. guajava, P. prenulloides, E. obtusifolius and S. cordatum displayed excellent in vitro antioxidant and antidiabetic properties. These results validate the extensive use of these plants in the treatment of DM in many African communities. Furthermore, the 80% ethanol (v/v) leaf extract of S. cordatum (one of the most active and readily accessible specie from the previous study) was fractionated into four sub-extracts [petroleum ether (PE), dichloromethane (DCM), ethyl acetate (EtOAc) and water], and their phytochemical content, in vitro antioxidant and antidiabetic capacities were evaluated. Although the EtOAc extract was the richest of the sub-extracts in total phenolics, all four sub-extracts of S. cordatum showed good in vitro free radical scavenging and hypoglycaemic activities. In silico modelling evaluation of some (34) bioactive principles found in the Gas Chromatography-Mass Spectroscopy (GC-MS) analysis of the PE, DCM and EtOAc sub-extracts revealed that 21 compounds including andrographolide, benzylidene-iditol, cubenol and deoxyspergualin and bis[3,3,4,7-tetramethyl- 1,3-2H-benzofuran-1-yl]-ether returned binding energy scores ≤ -7.5 kcal/mol against α-amylase and α-glucosidase enzymes indicative of their hypoglycaemic potentials. The physicochemical and toxicological properties of andrographolide, benzylidene-iditol, bis[3,3,4,7-tetramethyl-1,3- 2H-benzofuran-1-yl]-ether and cubenol were predicted to be soluble with high gastrointestinal solubility and non-toxic following Lipinski's rule of five and Veber's rule. Thus, these results indicate that these compounds are potential candidates for oral drugs. The drought tolerance and in vitro plant growth-promoting properties of some endophytes isolated from E. obtusifolius (another active antidiabetic plant identified from the previous experiment) was evaluated. A total of 26 culturable endophytes (twelve fungi and fourteen bacteria) were isolated from the organs (leaf and root) of E. obtusifolius. These endophytic species displayed varying in vitro drought stress tolerance and plant-growth-promoting capacities. Two promising drought stress-tolerant and plant-growth-enhancing endophytic species (Fusarium oxysporum and Paenibacillus polymyxa) were subsequently identified using molecular tools. The identified bacterium (P. polymyxa) and fungus (F. oxysporum) exhibited a symbiotic relationship in an in vitro dual culture experiment. Paenibacillus polymyxa and F. oxysporum individual and co-inoculation differential effects on their host under varying water regimes was further evaluated. The plants were raised with or without endophyte infection under three watering regimes for two months, and their therapeutic efficacy, physiological, biochemical and metabolic responses were assessed. In this study, drought stress markedly affected the growth and hypoglycaemic potentials of E. obtusifolius. On the other hand, endophyte inoculation generally enhanced the dry shoot and root biomass, chlorophyll contents and fluorescence, total soluble sugar, relative water content, proline contents and superoxide dismutase activities in the leaves of E. obtusifolius, whereas their electrolyte leakage and malondialdehyde contents were lowered. As for phytochemical accumulation, while the total phenolic contents were slightly enhanced by the inoculation of endophytes in the leaves of E. obtusifolius, the flavonoid contents of the plant increased as the water deficit worsened. The EtOAc crude extracts' free radical scavenging capacity across the treatments remained unchanged; their in vitro α-glucosidase activity was negatively affected under moderate and severe drought stress but improved with endophyte inoculation. The metabolome difference between the twelve treatments was evaluated using GC-MS based metabolomics. The bi-plot PCA result revealed that the metabolome of fungal inoculated moderately stressed E. obtusifolius correlated less with the other E. obtusifolius plants under different treatments. Additionally, a heatmap of eight differential metabolites showed that the most responsive treatment (the co-inoculated severely drought-stressed plants) produced the highest quantities of non-protein amino acids and organic acids known to protect plant cells during abiotic stress. The leaf extracts of S. cordatum and E. obtusifolius showed remarkable antioxidant and antidiabetic potentials in this study. Although the putative active principles of these plants were identified using GC-MS analysis, proper isolation and quantification of these compounds can be explored by future studies. Moreover, some culturable endophytic species were isolated from the E. obtusifolius organs. Paenibacillus polymyxa and F. oxysporum showed their drought stress mitigating capacity in E. obtusifolius under varying water regimes. Although the concentration of some identified antidiabetic compounds in E. obtusifolius were up regulated, the mechanism involved in this observation requires further investigations.Some text in re
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