Unraveling the role of dragon’s blood in the undisturbed growth of dragon trees

Jura‐Morawiec, Joanna; Marcinkiewicz, Jan; Caujapé‐Castells, Juli

doi:10.1007/s00468-022-02349-2

Cited by 2 publications

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“…(2020) have suggested that the major chemical constituents of dragon’s blood are transported out of the intracellular space in response to various stimuli by three potential transport mechanisms i.e., vesicle trafficking mediated transport, GST (glutathione S-transferase) transport or membrane transport. Recent studies of the leaf shedding of dragon trees have shown that dragon’s blood is in the form of vesicles, which have a tendency to aggregate and fill the cells or intercellular spaces ( Jura-Morawiec et al., 2023 ). After the injury of the secondary tissues, resin typically fills the parenchyma cells and enters tracheids through the pits occluding their lumen ( Cui et al., 2013 ; Jura-Morawiec and Tulik, 2015 ; Xu et al., 2022 ; Figure 1B ).…”

Section: Resin-secreting Cells In the Secondary Growth Of Monocotyled...mentioning

confidence: 99%

An arrangement of secretory cells involved in the formation and storage of resin in tracheid-based secondary xylem of arborescent plants

Tulik,

Jura-Morawiec

2023

Front. Plant Sci.

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The evolution of the vascular system has led to the formation of conducting and supporting elements and those that are involved in the mechanisms of storage and defense against the influence of biotic and abiotic factors. In the case of the latter, the general evolutionary trend was probably related to a change in their arrangement, i.e. from cells scattered throughout the tissue to cells organized into ducts or cavities. These cells, regardless of whether they occur alone or in a cellular structure, are an important defense element of trees, having the ability to synthesize, among others, natural resins. In the tracheid-based secondary xylem of gymnosperms, the resin ducts, which consist of secretory cells, are of two types: axial, interspersed between the tracheids, and radial, carried in some rays. They are interconnected and form a continuous system. On the other hand, in the tracheid-based secondary xylem of monocotyledons, the resin-producing secretory cells do not form specialized structures. This review summarizes knowledge on the morpho-anatomical features of various types of resin-releasing secretory cells in relation to their: (i) location, (ii) origin, (iii) mechanism of formation, (iv) and ecological significance.

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Section: Resin-secreting Cells In the Secondary Growth Of Monocotyled...mentioning

confidence: 99%

An arrangement of secretory cells involved in the formation and storage of resin in tracheid-based secondary xylem of arborescent plants

Tulik,

Jura-Morawiec

2023

Front. Plant Sci.

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Dragon’s Blood: antioxidant properties for nutraceuticals and pharmaceuticals

Peres

Conceição

Silva

et al. 2023

Rend. Fis. Acc. Lincei

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Plants are the source of a large spectrum of phytochemicals, and the combined and concerted action of biologically active compounds lead to the potential beneficial properties of each plant matrix. A great attention is being addressed over the years toward herbs and medicinal plants. Dragon’s Blood is a reddish resin oil extracted from Croton lechleri tree. It has been extensively used by indigenous cultures of the Amazon River since ancient times due to the beneficial nutraceutical and pharmaceutical properties. This perspective aims at providing a current framework on Dragon’s Blood with focus on antioxidant properties for nutraceuticals and pharmaceuticals in a novelty integrated and multidisciplinary manner, highlighting the current knowledge, the main research lines, and emerging strategies. A literature quantitative research analysis approach was applied as starting point. The literature search was carried out by means of the Scopus database; 365 documents have been retrieved in the year range from 1854 to 2021, and a total of 269 terms were identified. Among the top-recurring keywords appear: unclassified drug, nonhuman, plant extract/s, Dragon’s Blood, dracaena, Dragon Blood, chemistry, human, animal/s, plant resin. Source, chemical composition, potential nutraceutical, and therapeutical applications of Dragon’s Blood are discussed here. The anti-inflammatory, wound healing, antidiarrheals, anticancer, antirheumatic, antiseptic, and antioxidant activities identified in the Dragon’s Blood extracts can open novel perspectives for its use in food and pharmaceutical industries. While different bioactive compounds have already been identified in Dragon’s Blood extract, only a few studies can be found in literature.

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Unraveling the role of dragon’s blood in the undisturbed growth of dragon trees

Cited by 2 publications

References 31 publications

An arrangement of secretory cells involved in the formation and storage of resin in tracheid-based secondary xylem of arborescent plants

An arrangement of secretory cells involved in the formation and storage of resin in tracheid-based secondary xylem of arborescent plants

Dragon’s Blood: antioxidant properties for nutraceuticals and pharmaceuticals

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