Search Results (337)

Plant-derived exosome-like extracellular vesicles (PELVs) have recently emerged as novel bioactive materials. Although members of the Orchidaceae family have been reported to possess various biological activities and are widely used as cosmetic ingredients, no studies to date have investigated exosome-like extracellular vesicles derived from Phalaenopsis species. In the present study, we report for the first time a novel exosome-like extracellular vesicles preparation isolated from Phalaenopsis aphrodite (called Exorigin^® OR) and characterize its physical and biological properties. The purified vesicles exhibited a spherical shape surrounded by a bilayered membrane with an average particle size of approximately 98 nm and expressed a CD9 marker. Fluorescent labeling with BODIPY TR indicated that Exorigin^® OR can be internalized by cells. In in vitro assays, Exorigin^® OR alleviated hydrogen peroxide-induced damage in keratinocytes and inhibited melanin production in melanocytes, possibly associated with the downregulation of Tyrp1 expression as shown by qPCR analysis. Moreover, reconstructed human epidermis and cornea-like epithelium models demonstrated that Exorigin^® OR is non-irritant. Collectively, these findings suggest that Exorigin^® OR represent a promising and safe bioactive ingredient for promoting skin health in cosmeceutical applications. Full article

The genus Satyrium (Orchidaceae) is a large, mostly sub-Saharan genus with a single species reported from Madagascar and Asia. Taxonomical complexity and high morphological diversity make the classification within the genus difficult to handle. In this study, we attempted to solve this problem using a comprehensive approach based on data from multiple sources. We combined morphological data from vegetative parts with data on flower structure using timescale phylogenetics conducted for both nuclear internal transcribed spacer (ITS) and plastid markers (matK, trnS-trnG, trnL, trnL-trnF). Phylogenetic studies confirmed most of the results of previous studies and led to the identification of six potential hybridization events within the genus. Morphological diversity often does not correspond to phylogenetic relationships within the genus, and many evolutionary lineages began to diverge only at the end of the early Miocene and in the late Miocene. The development of similar characteristics is the result of this diversification under the influence of similar environmental pressures. Reconstruction of the historical geographical range of Satyrium showed that the regions of South Africa and the mountainous areas of Eastern Africa played the most important role in the diversification of the genus. Full article

This study introduces an optimized and selective extraction methodology using dichloromethane/methanol (DCM/MeOH, 95:5, v/v) in combination with accelerated solvent extraction (ASE) for the targeted stilbenoid and phenanthrene derivatives from five orchid species: Cattleya nobilior (root), Cymbidium defoliatum (root and bulb), Dendrobium phalaenopsis (stem), Encyclia linearifolioides (leaf), and Phalaenopsis aphrodite (root). Sequential extraction was performed with hexane, followed by DCM/MeOH (95:5 and 1:1, v/v) under controlled temperatures (70 °C for hexane, 100 °C for DCM/MeOH), using three static cycles per stage. Chemical profiling by high-performance liquid chromatography with a diode-array-detector and tandem mass spectrometry (HPLC-DAD-MS/MS) enabled the identification of twenty specialized metabolites—seven stilbenoids and thirteen phenanthrenes—several reported here for the first time, including crepidatuol B, dendrosinen D, and coeloginanthridin. The analytical method showed excellent separation of structurally related phenolic compounds, demonstrating the efficiency of the extraction protocol and the selectivity of the solvent system. Many of the identification metabolites are known for cytotoxic, antioxidant, anti-inflammatory, and metabolic regulatory properties, while newly detected compounds remain unexplored and present promising candidates for future biological evaluation. The broad distribution of these metabolites across the studied orchids enhances the current understanding of their phytochemical diversity and suggests chemotaxonomic relevance within the Orchidaceae family. Importantly, the extraction strategy requires minimal plant material, offering ecological advantages when working with rare or endangered species. Overall, this environmentally conscious extraction approach provides a robust platform for metabolic discovery and supports future research in natural products chemistry, plant ecology, drug discovery, structure–activity relationships studies and biotechnological applications. Full article

The Orchidaceae family in Calabria has been scarcely investigated during the 21st century, and available knowledge remains fragmentary, particularly for the rarer taxa. The last comprehensive study dates back to 2002, whereas subsequent checklists, limited to restricted areas of the region, provide incomplete or taxonomically uncertain data. Considering that the family is protected at global (CITES, Bern Convention, IUCN) and national (Italian Red List) levels, broader and more systematic attention is required. In this work, focused on the southern sector of the Metropolitan City of Reggio Calabria, with special reference to the mountain and foothill areas of the Aspromonte massif and in the adjacent districts, we describe four new hybrids for science, each assessed as Critically Endangered (CR), and report four previously unrecorded taxa for the region, evaluated as VU/CR. In addition, two hybrids, newly recorded for the Calabrian flora, were likewise assigned a CR conservation status. The study also provides confirmation of historical records of Ophrys speculum and identifies the southernmost stations in continental Italy for both O. speculum and Orchis branciforti Standardized floral and labellar morphometric traits were measured on representative individuals from each population, including the parental species in the case of hybrids. Conservation status was evaluated following IUCN criteria and GeoCAT-derived AOO values, complemented by field observations on population size, habitat conditions, and site-specific threats. Hybrid names comply with ICN provisions. These findings enhance understanding of orchid biodiversity in Southern Italy and provide new insights for regional conservation efforts. Full article

Background: Gastrodiae Rhizoma, the dried tuber of Gastrodia elata Bl. (Orchidaceae), is a traditional Chinese medicinal (TCM) and edible plant. Its quality formation is closely associated with rhizosphere microorganisms; however, the specific underlying mechanisms remain unclear. Methods: Tubers and rhizosphere soils were collected from seven major production regions of G. elata. Soil physicochemical properties were analyzed, and integrative analyses combining soil microbiome and untargeted metabolome profiling were conducted. The anti-inflammatory activity of G. elata extracts was evaluated using a RAW264.7 macrophage model. Multivariate statistical approaches, including OPLS-DA and correlation network analysis, were used to decipher relationships among environmental factors, microbial communities, metabolic profiles, and bioactivities. Results: A total of 39,250 bacterial ASVs and 10,544 fungal ASVs were identified. The bacterial community, dominated by Proteobacteria and Acidobacteria, was strongly influenced by soil chemical factors, including pH and total nitrogen. The fungal community, primarily composed of Ascomycota and Basidiomycota, exhibited marked sensitivity to altitudinal gradients. Correlation analysis revealed that key secondary metabolites, including flavonoids and phenolic acids, along with their anti-inflammatory activities, were significantly associated with rhizosphere microorganisms such as Edaphobaculum, Hypocrea, and Pseudomonas. Conclusions: Our findings outline the pathways connecting environmental factors, the microbiome, and functional metabolites in G. elata, highlighting the importance of environmental–microbial interactions in determining metabolic outcomes. This work provides new insights into the ecological and molecular mechanisms behind the quality formation of this medicinal plant. Full article

Cymbidium faberi Rolfe is a Chinese flower famous due to its beautiful floral pattern and strong floral scent and is also a threatened terrestrial orchid. Moreover, the traditional propagation method through tillers and symbiotic seed germination with the correct fungus under nature conditions could not meet conservation and commercial needs. Here, an efficient procedure for asymbiotic seed germination and in vitro seedlings development of C. faberi was successfully established through evaluation of time of seed collecting, seed pretreatments, light conditions and composition of culture media, respectively. Seed pretreatment with 1% NaClO for 30 min, dark culture on 1/4 MS medium containing 0.5 mg·L⁻¹ 6-BA and 0.1 mg·L⁻¹ NAA for 30 days and subsequent long day condition (14 h light/10 h dark photoperiod) culture on this medium for 30 days could obviously enhance the seed germination rate of C. faberi. The highest germination rate (85.0 ± 0.79%) was achieved when seeds were collected at 120 d after cross-fertilization, and then germination percentages progressively decreased. Furthermore, histological analyses from protocorm formation to seedling growth were explored. This study not only offers a reliable and scalable system for mass propagation to meet commercial and conservation demands but also serves as a foundational reference for physiological and molecular studies in Cymbidium and related orchids. Full article

The use of mycorrhizal fungi to enhance orchid seed germination and seedling growth is a promising approach for orchid propagation and conservation, but practical applications remain limited. In this study, we developed a direct seeding technique based on mycorrhizal symbiosis using Dendrobium officinale. Seeds were inoculated with two fungal strains, Serendipita officinale (SO) and Serendipita indica (SI), individually or in combination, and cultivated on three substrates to identify optimal fungus–substrate combinations. SO achieved the highest germination rate (52.9 ± 5.6%) at 30 days on substrate 1 but declined at later stages, while SI performed best on substrate 3 at 30 days (72.3 ± 6.7%) but was less effective after 90 days. The SO and SI mixture showed strong synergistic effects on substrate 1, with peak germination (48.7 ± 5.9%) and seedling formation (45.6 ± 5.1%) at 120 days. Substrates 1 and 3 significantly outperformed 2 (p < 0.05), with 1 promoting rapid early germination and 3 favoring long-term seedling establishment. In contrast, controls without fungi showed less than 5% for all indices, confirming the necessity of symbiotic fungi. Microscopic observations revealed typical orchid mycorrhizal structures and dynamic hyphal turnover, providing histological evidence of the symbiotic mechanism. These findings establish a practical framework for mycorrhizal-assisted propagation and contribute to the ecological cultivation and conservation of D. officinale. Full article

Phalaenopsis is one of the most economically valuable genera in the Orchidaceae family. However, the common varieties of Phalaenopsis in the market rarely have fragrance, greatly limiting the sustainable development of the Phalaenopsis industry. Here, an integrated investigation was conducted on the patterns and determinants of aroma release in Phalaenopsis. GC-MS/MS analysis revealed that the primary volatile organic compounds (VOCs) in 10 fragrant Phalaenopsis cultivars are consistent. Terpenoids, alcohols, ketones, and esters collectively accounted for an average of 66.59% of the total VOCs across these 10 varieties. By performing metabolomic and transcriptomic analyses, we investigated the variation in 1532 VOCs in four different developmental stages of Phalaenopsis Formosa Sweet Memory. Metabolite analysis revealed that the levels of total volatiles, terpenoids, esters, and heterocyclic compounds were significantly upregulated during the flowering stages, and Linalool, β-Ocimene, and Methyl Benzoate were selected as key metabolites. While analyzing the correlation network between aroma components synthesis and differentially expressed genes, 33 key structural genes were detected and regulated by transcription factors. PAXXG356500_TPS, PAXXG333030_4CL, and PAXXG061420_SAM were key genes in the terpenoids and esters’ biosynthetic pathway, and they were co-expressed with aroma release. In summary, this study characterized the key metabolic pathways involved in aroma formation in Phalaenopsis and constructed the corresponding transcriptional regulatory network. These results laid a theoretical foundation for the subsequent research on aroma of Phalaenopsis and genetic engineering technology breeding. Full article

Orchids play an important role in nature conservation and are often used for monitoring purposes. However, interpreting orchid monitoring data can be challenging for several reasons. We present here the first monitoring data of Orchis mascula subsp. speciosa from the Bohemian Waldviertel region in Austria, where this taxon is ‘endangered’. The data show a successful spread into mesotrophic grassland, which was historically arable land, and afterwards strong population fluctuations. Within ten years, the population has grown from 50 flowering individuals to more than 800. Over the next 20 years, the population fluctuated between fewer than 200 and more than 1800 flowering individuals. We discuss these observations against the background of land use changes and different management measures (i.e., ploughing, grazing, mowing, and sowing of grassland species). Furthermore, we more generally discuss the potential of European terrestrial orchids to act as ‘pioneers’ and to successfully establish in fallow land. Finally, monitoring data for Orchis mascula from six countries was compiled and interpreted, given the various biological characteristics of orchid species. Reviewed data showed complex, multifaceted patterns, which still do not allow generalized conclusions explaining population dynamics. Full article

Background: The epiphytic orchids of the tribe Epidendreae represent a remarkably evolutionary radiation, yet their phylogenetic relationships and plastome evolutionary dynamics are still not fully resolved. Methods: This study has sequenced, assembled, and annotated the complete chloroplast genome of Encyclia tampensis. Through comparative analyses of a curated dataset of 40 Epidendreae plastomes, we investigated codon usage bias, evolutionary selection pressures (Ka/Ks), and phylogenetic relationships. Results: The plastome of E. tampensis (160,650 bp) has a typical quadripartite structure, with a significant AT bias (62.09%), and contains 124 annotated genes. Comparative genomic analysis across 40 Epidendreae species revealed substantial plastome size variation (123,455 to 160,650 bp), pronounced small single copy (SSC) contraction in E. tampensis (608 bp), and atypical long simple sequence repeats (SSRs) accumulation. Natural selection dominated codon usage, with strongest purifying selection in rbcL (average Ka/Ks = 0.205). Phylogenetic analyses confirmed subtribal monophyly and detected evolutionary rate heterogeneity correlated with life history strategies. Conclusions: These results establish that plastome evolution in Epidendreae has been principally driven by structural reorganization through SSC contraction and long SSR accumulation, selective constraints maintaining functional genes under purifying selection, and life history-strategy-mediated evolutionary rate diversification. These processes collectively account for the tribe’s extensive genomic diversity and phylogenetic complexity, thereby providing a theoretical framework for understanding orchid plastome evolution and a molecular basis for the systematic classification and conservation of this economically significant plant group. Full article

The historical background of studies on Brazilian Orchidaceae dates back almost 400 years. In this review, we provide an overview of the current knowledge on Brazilian Orchidaceae across three thematic axes: 1. diversity, distribution, and endemism; 2. taxonomy and systematics; and 3. structural, genetic, and ecological characterization. Brazil harbors five naturalized and 202 native genera, of which 23 are endemic to the country. There are currently 2515 accepted species (out of 9907 species names). Among the 7218 synonyms, 3915 are heterotypic, yielding a synonymy rate of 60.9%. Brazil is the second country in orchid endemism with 1540 endemic species. Apostasioideae is not present in Brazil, but the remaining four orchid subfamilies are represented by 16 tribes and 23 subtribes. The richest phytogeographic domain is the Atlantic Forest (1398 spp.), followed by the Amazon Forest (784 spp.) and Cerrado (656 spp.). The richest subtribes are Pleurothallidinae (642 spp.), Laeliinae (397 spp.), and Oncidiinae (283 spp.). Moving beyond a purely taxonomic and phylogenetic framework, this work offers a comprehensive synthesis of Brazilian Orchidaceae, encompassing the state of the art in cytogenetics, anatomy, population genetics, reproductive biology, and pollination. Despite these advances, there are pronounced disparities among regions, taxa, and research approaches. The persistence of these shortfalls highlights the urgent need for integrative research frameworks. Future progress in Brazilian orchidology depends on the strengthening of collaborative networks and interdisciplinary approaches. Full article

Dendrobium is an orchid genus with high economic and ecological importance, but its taxonomy based on morphology remains controversial. Dendrobium linawianum, a critically endangered species with both ornamental and medicinal value, represents a key taxon within this genus. However, its phylogenetic relationship has long been unplaced due to similar morphological traits. Despite its conservation and taxonomic importance, its complete chloroplast genome has not been previously characterized. Here, we newly sequenced and assembled the complete chloroplast genome of D. linawianum. The 150,497 bp genome exhibits a typical quadripartite structure, encoding 119 genes. A total of 161 simple sequence repeats (SSRs) were identified, predominantly mononucleotide and dinucleotide motifs. Condon usage analysis revealed leucine as the most abundant amino acid. Phylogenetic analysis based on complete chloroplast genome sequences strongly supported the close relationship of D. linawianum with D. hercoglossum, D. thyrsiflorum, and D. moniliforme, resolving its taxonomic position within the genus. The complete chloroplast genomes successfully resolved the phylogenetic relationships among 35 Dendrobium species, demonstrating their efficacy as powerful molecular markers for resolving taxonomic ambiguities within this morphologically complex genus. Our findings provide a genomic foundation for precise species identification and molecular breeding of D. linawianum, and enhance understanding of phylogenetic relationships in this taxonomically challenging group. Full article

Dendrobium officinale (Orchidaceae) is a commonly used medicinal and edible herb. Although its anti-ageing properties have been demonstrated, the underlying mechanisms remain unclear. We employed network pharmacology and molecular biology techniques to systematically explore its anti-ageing mechanisms. An ageing model was established using D-galactose-induced Kunming mice. D. officinale significantly ameliorated ageing-related symptoms, including behavioural impairment and organ index reduction. It enhanced antioxidant capacity by increasing serum T-AOC levels and restoring renal activities of key antioxidant enzymes (SOD, GSH-Px, CAT) while reducing MDA; it suppressed serum TNF-α levels, indicating anti-inflammatory effects. Histopathological examination revealed that D. officinale alleviated D-galactose-induced renal damage, including tubular cell swelling and glomerular capsule widening. Network pharmacology identified 8 core active compounds (e.g., 5,7-dihydroxyflavone, naringenin) and 10 key targets (e.g., HSP90AA1, EGFR, MAPK3). KEGG analysis highlighted pathways including neuroactive ligand–receptor interaction, cAMP signalling, and calcium signalling. Molecular docking confirmed strong binding affinities between core compounds and key targets. Western blotting and immunohistochemistry validated that D. officinale upregulated EGFR, HSP90AA1, ERK, and GAPDH expression in renal tissues. In summary, D. officinale exerts anti-ageing effects by modulating oxidative stress, suppressing inflammation, and regulating multiple signalling pathways. Our findings provide a scientific rationale for its application in anti-ageing interventions. Full article

Gongora is a neotropical epiphytic orchid found from Mexico to South America, with 11 species recorded in Brazil. Little is known about the aromas produced by the flowers of these orchid species. This study aimed to identify the volatile constituents of the flowers of Gongora histrionica (1), G. jauariensis (1), G. longiracemosa (2), G. minax (1), and G. pleiochroma (2), all of which are found in the Amazon. Gas chromatography-mass spectrometry (GC-MS) was used to analyze the volatile constituents of Gongora. Additionally, multivariate statistical analysis was employed to evaluate the variability of volatile constituents in their floral aromas. The principal constituents (>25%) of Gongora specimens were (Z)-α-bisabolene, terpinen-4-ol, cis-β-elemenone, (E,E)-geranyl linalool, β-bisabolene, (E,E)-α-farnesene, and 1,8-cineole. Based on the identified compounds, the multivariate statistical analysis revealed seven distinct groups for the Gongora volatile concentrates, indicating a significant variability between the studied species. These results contribute to a better understanding of the genus Gongora chemotaxonomy analysis. Full article