Family Ericaceae Research Articles

In Silico and Network Pharmacology Approach for Mechanistic Exploration of Rhododendron arboreum Sm. Leaf in Nonalcoholic Fatty Liver Disease

Rhododendron arboreum Sm. (Burans) (family Ericaceae) has traditionally been used in Indian medicine to treat liver disorders. However, its mechanism against non-alcoholic fatty liver disease (NAFLD) remains elusive. This study utilized in silico methods – network pharmacology, ADMET prediction, molecular docking and molecular dynamics (MD) simulations for mechanistic exploration of Rhododendron arboreum leaves (RAL) in NAFLD. Bioactive compounds were sourced from open databases and assessed for drug-likeness and ADMET profiles. Network pharmacology identified key protein interactions using the STRING platform. GO analysis identified galactose metabolism, pentose and glucuronate interconversions and other processes in treating NAFLD. Molecular docking revealed that amyrin and pectolinarigenin had the highest binding affinities, with dock scores of –12.2 kcal/mol (AKR1C3-amyrin), –10.2 kcal/mol (PI3K-amyrin), –9.3 kcal/mol (AKR1C3-pectolinarigenin) and –9.6 kcal/mol (HSD17B1-pectolinarigenin). MD simulations, focusing on RMSD and RMSF analyses, confirmed the stability of these interactions. The RMSD graphs revealed stable binding pocket regions, highlighted in pink. Notably, the RMSF values for PHE (B:306) in the AKR1C3-amyrin complex and ARG (A:294) in the PI3K-amyrin interaction were 0.623 nm and 0.1586 nm, respectively, indicating stable ligand interactions. Our findings holistically clarify toxicity data, potential bioactives targets and molecular mechanisms of RAL against NAFLD, paving the way for future research.

Discovery of ent-kaurane diterpenoid glucosides as potent analgesics from the leaves of Pieris formosa

To search for structurally novel analgesics from Ericaceae plants, the leaves of Pieris formosa collected at Yichang, Hubei, China, were phytochemically investigated for the first time. A total of fifteen ent-kaurane diterpene glucosides (1–15) including twelve new ones, named forminosides A–L (1–12), were isolated. Their structures were elucidated by comprehensive spectroscopic data analyses, quantum chemical calculations (13C NMR and ECD calculations and DP4+ analysis), and chemical methods. The absolute configures of 1–3, 5–8, 11, and 13 were further determined by single-crystal X-ray diffraction analysis. Forminoside A (1) represents the first 3α-(β-d-glucopyranosyloxy)-11,16-epoxy-ent-kaurane diterpenoid bearing a unique 12-oxa-pentacyclo[9.3.3.01,10.04,9.013,16]heptadecane core. Forminoside J (10) is the first 17-nor-ent-kaurane type diterpenoid from Ericaceae family, while forminoside L (12) represents the first example of 4,5-seco-ent-kaurane diterpenoid glycoside bearing an unusual α-hydroxyl-α,β-unsaturated ketone block. Notably, the structure of mollisside A was revised to 3β-(β-d-glucopyranosyloxy)-16β,17-dihydroxy-ent-kaurane based on the NMR and single-crystal X-ray diffraction data analysis of forminoside C (3). All the isolates 1–15 showed potent analgesic activity in the HOAc-induced writhing test in mice. Among them, compounds 1–3, 5–12, and 15 exhibited significant analgesic effects at a dose of 5.0 mg/kg with the inhibition rates over 50%. Compounds 1, 5, 7, and 9–12 still displayed significant analgesic effects with the inhibition rates exceeding 50% at a lower dose of 1.0 mg/kg. Forminosides J (10) and L (12) still showed significant analgesic potency even at a lower dose of 0.2 mg/kg, comparable to that of the positive control, morphine. This is first report of the analgesic activity of 11,16-epoxy-ent-kaurane diterpenoid. A preliminary structure–activity relationship was explored, providing new clues to design novel analgesics based on the ent-kaurane and related diterpenoids.

Chemistry, biosynthesis, and theranostics of antioxidant flavonoids and polyphenolics of genus Rhododendron: an overview.

The genus Rhododendron is an ancient and most widely distributed genus of the family Ericaceae consisting of evergreen plant species that have been utilized as traditional medicine since a very long time for the treatment of various ailments including pain, asthma, inflammation, cold, and acute bronchitis. The chemistry of polyphenolics isolated from a number of species of the genus Rhododendron has been investigated. During the currently designed study, an in-depth study on the phytochemistry, natural distribution, biosynthesis, and pharmacological properties including their potential capability as free radical scavengers has been conducted. This work provides structural characteristics of phenolic compounds isolated from the species of Rhododendron with remarkable antioxidant potential. In addition, biosynthesis and theranostic study have also been encompassed with the aims to furnish a wide platform of valuable information for designing of new drug entities. The detailed information including names, structural features, origins, classification, biosynthetic pathways, theranostics, and pharmacological effects of about 171 phenolics and flavonoids isolated from the 36 plant species of the genus Rhododendron with the antioxidant potential has been covered in this manuscript. This study demonstrated that species of Rhododendron genus have excellent antioxidant activities and great potential as a source for natural health products. This comprehensive review might serve as a foundation for more investigation into the Rhododendron genus.

The complete chloroplast genome of rhododendron williamsianum (ericaceae)

Rhododendron williamsianum Rehder & E. H. Wilson 1913, is a plant with important horticultural value. Here we report its chloroplast genome. The total length of the chloroplast genome was 205,424 bp, with a GC content of 35.8%. It consisted of a 107,968 bp large single copy, a 2606 bp small single copy, and a pair of 47,425 bp inverted repeats separating them. Within the chloroplast genome, there were a total of 110 unique genes, which included 76 protein-coding genes, 4 rRNA genes, and 30 tRNA genes. Our phylogenetic analyses indicated that R. williamsianum was closely genetically related to R. sutchuenense and R. jingangshanicum. The findings from this study not only contribute to the genetic database of Rhododendron plants but also have implications for evolutionary research within the family Ericaceae.

The component composition of the total flavonoid fractions from some <i>Ericaceae</i> family and their effect on the NO-stimulating activity of peritoneal macrophages

Introduction. Representatives of the Ericaceae family are quite common in Russia and are promising for the creation of new medicines of plant origin. At the same time, only 4 of them are official. The study of biologically active substances and pharmacological activity of Andromeda polifolia L., Chamaеdaphne calyculata (L.) Moench, Ledum palustre L., Empetrum nigrum L. with rich resource reserves is promising.Aim. Comparative study of the composition of total flavonoid fractions from A. polifolia, C. calyculata, L. palustre, E. nigrum and study of their effect on the NO-stimulating activity of peritoneal macrophagesMaterials and methods. The crushed aboveground part (leafy shoots) was previously depigmented with chloroform, treated with 70 % aqueous acetone, then acetone was removed. Flavonoids were extracted with ethyl acetate from the aqueous phase. The identification of flavonoids was carried out by HPLC (UltiMate 3000 chromatograph) according to the coincidence of retention times and spectral characteristics, the calculation of the content was carried out by simple normalization. The effect of the samples on nitric oxide production was studied on macrophages of C57BL/6 mice. Endotoxin control in the samples was carried out using a LAL test and cell incubation in the presence of polymyxin B.Results and discussion. The composition of flavonoid fractions from A. polifolia, C. calyculata, L. palustre and E. nigrum has been studied. 8 phenolic compounds were found in C. calyculata shoots, including isoquercitrin, herbacetin, naringenin and naringin – for the first time for this species. 5 compounds were detected in A. polifolia shoots, including isoquercitrin and herbacetin, for the first time for this species. 5 and 4 compounds were identified in L. palustre and E. nigrum shoots, respectively, while quercetin glycosides are predominant in all samples: isoquercitrin, hyperoside and rutin. The fraction of C. calyculata flavonoids at doses of 1, 5, 10 mcg/ml inhibits the production of nitric oxide by macrophages by 30 %, and E. nigrum flavonoids at doses of 100 and 200 mcg/ml, on the contrary, enhance the production of nitrites by macrophages by 33 and 37 %, respectively.Conclusion. A comparative study of the composition of total flavonoid fractions from A. polifolia, C. calyculata, L. palustre, and E. nigrum, which are capable of activating both M1 and M2 polarization of peritoneal macrophages in mice, has been conducted, which requires further in-depth study. The flavonoids C. calyculata and E. nigrum are promising for further study.

Pestalotiopsis kenyana causes leaf spot disease on Rhododendron agastum in China

Rhododendron agastum, a well-known flower with significant aesthetic and medicinal value, belongs to the Rhododendron genus in the Ericaceae family. In April 2023, a leaf spot disease on R. agastum plants was found in the Baili Azalea Forest Area in Guizhou province, China. Approximately 400 plants were surveyed, and the incidence of leaf spot on R. agastum leaves was 20%. The damaged leaves had gray-white irregular diseased spots with black-brown margins and black conidiomata on the surface of the spots. When the disease is severe, the leaves fall. Leaf spot disease is a serious problem for rhododendrons, reducing their ornamental value and causing significant economic losses. To identify the pathogen, we conducted pathogen isolation and pathogenicity study. The pathogen was identified as Pestalotiopsis kenyana by morphological features and combined analysis of multiple genes (ITS, tef1-α, and Tub2). Koch's postulates was tested by isolating and reidentifying the pathogen from inoculated plants, showing that P. kenyana was the causative agent of the disease. To our knowledge, this is the first report of P. kenyana causing leaf spot in R. agastum. This study gives important information for the identification and control of the leaf spot disease caused by P. kenyana.

Transcriptome Profiles Reveal That Phytohormone Signal Transduction-related Genes Involved in Regulating Xenia in Rabbiteye Blueberry

Blueberries are small perennial evergreen or deciduous shrub berries of the genus Vaccinium in Ericaceae family. Pollination with different parental genotypes has significant effects on fruit size, fruit harvest time, fruit firmness, and chemical composition, such as soluble solids, titratable acids, anthocyanins, fructose, sucrose, glucose, flavonoids, and total phenols, showing an evident xenia effect. To understand the molecular mechanism and biosynthetic pathways involved in the xenia effect in rabbiteye blueberry, we employed transcriptome profiling by RNA sequencing to identify differentially expressed genes (DEGs) during fruit development of the variety ‘Premier’ produced by self and cross-pollination with ‘Brightwell’ and ‘Powderblue’. On the basis of the transcriptomic sequences, DEGs related to plant hormone signal transduction were identified through bioinformatics analysis, screening of DEGs, and functional enrichment analysis. The results showed that the single fruit weight and the contents of anthocyanins fructose, glucose, and sucrose showed significant differences between self- and cross-pollinated fruits, demonstrating a distinct xenia effect. High-throughput sequencing was conducted on the transcriptomes of young fruits harvested at six developmental stages (at 10-day intervals from 40 to 90 days after self- and cross-pollination). After screening and identification, 16.37 million to 25.52 million raw reads were generated and 4,937,201,302 to 7,709,896,920 clean bases were obtained. The comparison group of 80-day-old fruits generated through self-pollinated ‘Premier’ and those crossed with ‘Brightwell’ (PBR-80 vs. PPR-80) showed the largest number of DEGs (6377), of which 3052 were upregulated and 3325 were downregulated. Through further screening, 174 DEGs were found related to plant hormone signal transduction, comprising 147 known genes and 27 new genes and that 76 genes were downregulated and 98 genes were upregulated. Of the eight DEGs randomly selected for quantitative real-time polymerase chain reaction verification, their expression patterns were consistent with those revealed by high-throughput sequencing. The results elucidated the underlying mechanism of xenia, thereby providing a solid theoretical foundation for the targeted breeding, quality control, and improvement of economic benefits of blueberry, which are of important theoretical value and practical significance.

VACCINIUM OVALIFOLIUM SMITH. IN NATURAL CENOPOPULATIONS OF SAKHALIN

Background. Identification and study of selected forms of oval-leaved blueberry in natural coenopopulations of Sakhalin Island will create a favorable basis for modern breeding work. Purpose. The goal was to isolate and study selected forms of Vaccinium ovalifolium Smith. in natural coenopopulations of Sakhalin Island. Material and methods. The object of research was natural populations of Vaccinium ovalifolium growing on Sakhalin Island. The study of blueberries in natural habitats was carried out during expeditionary trips to the central and southern regions of Sakhalin in the period 2020-2022. Plants from 2 cenopopulations were studied for the distribution of blueberries in hard-to-reach places. Geobotanical descriptions of the vegetation of phytocenoses were carried out according to the generally accepted method of A.A. Poniatovskaya “Taking into account the abundance and nature of the distribution of plants in communities” (1964). The species composition of plant communities was determined within the detection area. The total projective cover (TPC) of the grass stand and the projective cover of the dominant species were determined by eye method, in %. We studied the endogenous variability of the following traits: the number of berries, the weight and size of one berry, the length and width of the leaf blade, the height and age of the bushes. A correlation analysis was carried out between morphological characteristics and yield characteristics in the trial plots. Height, age, maximum and minimum crown diameter, degree of fruiting, and number of berries were analyzed. Mathematical and statistical processing of research results was carried out according to generally accepted methods using Excel software. Results. The article is devoted to a new promising shrub for Russia, Vaccinium ovalifolium - a species of deciduous shrub from the genus Vaccinium of the Ericaceae family, a shrub up to 1.5-2 m tall. It blooms in May–June, the flowers are pink, up to 6 mm in size, the fruits are dark blue, often black with a waxy coating, ripen in August–September, the juice in the berries is clear, the taste is sweet and sour. The leaves are oblong - round or ovate, entire-marginal or with small ciliated teeth 2-5 cm long and 1-2.5 cm wide, matte, light green. Polymorphism of natural cenopopulations of V. ovalifolium during expeditionary surveys made it possible to identify several promising forms with economically valuable traits. In the process of phylogenesis of V. ovalifolium, ecologically resistant populations to the unfavorable environmental factors of Sakhalin Island were formed. Selected samples of V. ovalifolium with valuable pomological traits are currently propagated and grown on the territory of the Botanical Garden of the city of Yuzhno-Sakhalinsk at the site of primary variety testing, to compare the resource value of local natural eco-genetic lines with the introduced, most common modern varieties of V. corymbosum. Experience has been laid in assessing selected forms of oval-leaved blueberries for agrotechnical techniques and agricultural conditions, with the subsequent development of technological recommendations for cultivation in an industrial garden in the conditions of Sakhalin Island. Conclusion. The polymorphism of natural cenopopulations of V. ovalifolium on Sakhalin Island was studied with the selection of promising forms that can be used for breeding purposes.

Effects of fungicide treatments on mycorrhizal communities and carbon acquisition in themixotrophicPyrola japonica (Ericaceae).

Pyrola japonica, a member of the family Ericaceae, is a mixotroph that grows on forest floors and obtains carbon (C) from both its photosynthesis and its mycorrhizal fungi. Its mycorrhizal community is dominated by Russulaceae. However, the mechanism of its C acquisition and its flexibility are not well understood. Our aim was to assess the impact of disturbance of the mycorrhizal fungal communities on C acquisition by P. japonica. We repeatedly applied a fungicide (Benomyl) to soils around P. japonica plants in a broad-leaved forest of central Japan, in order to disturb fungal associates near roots. After fungicide treatment, P. japonica roots were collected and subjected to barcoding by next-generation sequencing, focusing on the ITS2 region. The rate of mycorrhizal formation and α-diversity did not significantly change upon fungicide treatments. Irrespective of the treatments, Russulaceae represented more than 80% of the taxa. Leaves and seeds of the plants were analysed for 13C stable isotope ratios that reflect fungal C gain. Leaf and seed δ13C values with the fungicide treatment were significantly lower than those with the other treatments. Thus the fungicide did not affect mycorrhizal communities in the roots, but disturbed mycorrhizal fungal pathways via extraradical hyphae, and resulted in a more photosynthetic behaviour of P. japonica for leaves and seeds.

Recent Advances in Grayanane Diterpenes: Isolation, Structural Diversity, and Bioactivities from Ericaceae Family (2018-2024).

Diterpenes represent one of the most diverse and structurally complex families of natural products. Among the myriad of diterpenoids, grayanane diterpenes are particularly notable. These terpenes are characterized by their unique 5/7/6/5 tetracyclic system and are exclusive to the Ericaceae family of plants. Renowned for their complex structures and broad spectrum of bioactivities, grayanane diterpenes have become a primary focus in extensive phytochemical and pharmacological research. Recent studies, spanning from 2018 to January 2024, have reported a series of new grayanane diterpenes with unprecedented carbon skeletons. These compounds exhibit various biological properties, including analgesic, antifeedant, anti-inflammatory, and inhibition of protein tyrosine phosphatase 1B (PTP1B). This paper delves into the discovery of 193 newly identified grayanoids, representing 15 distinct carbon skeletons within the Ericaceae family. The study of grayanane diterpenes is not only a deep dive into the complexities of natural product chemistry but also an investigation into potential therapeutic applications. Their unique structures and diverse biological actions make them promising candidates for drug discovery and medicinal applications. The review encompasses their occurrence, distribution, structural features, and biological activities, providing invaluable insights for future pharmacological explorations and research.

The influence of raw material preparation on the yield of bioactive substances in lingonberry (Vaccinium vitis-idaea L.) fruits


 
 
 
 Phenolic compounds are well-known phytochemicals found in many types of plants. Phenolic compounds and flavonoids are potential substitutes for bioactive agents in pharmaceutical and medicinal sections to promote human health and prevent and cure different diseases. Lingonberry (Vaccinium vitis-idaea L.) belongs to the Ericaceae family. It is widely spread in the northern hemisphere in such countries as Russia, Lithuania, Latvia, Iceland, Scandinavian countries, etc. Lingonberry fruits are beneficial due to their anti-inflammatory, antibacterial, antioxidative activities and effect on the cardiovascular system. Although a number of studies are done on phenolic compound extraction methods, there is a high need of evidence on the most efficient way of raw material preparation. In this research, various lingonberry (Vaccinium vitis-idaea L.) fruit raw material preparation methods will be compared.
 
 
 

Investigate of Landscape Design Use Possibilities of Some Native Ericaceae Family Plants in Turkey

The family Ericaceae is a large family of Angiosperms spread throughout the temperate regions of the Northern and Southern Hemispheres. It includes plants, shrubs and trees that are often found in acidic and inefficient growing conditions. It offers ecologically based and sustainable landscape design alternatives by using natural species in plant designs. Many species of the Ericaceae family are naturally found in the mountainous and forested areas of Turkey, which is a very rich country in terms of plant species diversity with its geographical location and climate characteristics. Landscape designs created using natural vegetation offer ecologically based and sustainable alternatives. However, in urban areas, natural vegetation is not utilized sufficiently and efficiently. These plants, which create a visual impact with the beauty of their forms, leaves, flowers and fruits in the rural landscape of Turkey, have not found sufficient use in the urban landscape, despite the favorable conditions in terms of climate and growing environment. In this study, the morphological characteristics and landscape usage possibilities of some Ericaceae family plants that grow naturally in Turkey and can be used to create effective landscapes with their aesthetic properties were investigated. It is aimed to encourage the use of these natural species, which have high potential in terms of sustainable and economic applications, in open-green areas.

Improvement of the antioxidant potential: impact of drying and extraction techniques on polyphenols in Arbutus unedo L. leaf aqueous extract

The search for alternatives to chemical pharmaceutical products remains an urgent and crucial step for humanity. In this regard, the use of plants presents an ideal approach for such biological studies. Arbutus unedo L., which belongs to the family Ericaceae, is one of the species that holds significant importance in traditional pharmaceutical uses. In Algeria, the use of this species in traditional treatment is generally rare. Therefore, this study aims to highlight its medicinal importance and the proper method for extracting its bioactive elements. To achieve this, the biological activity of leaves including total phenolic content (TPC), DPPH assay, and total flavonoid content (TFC), were assessed under four different drying temperatures (shade-drying, sun-drying, 40°C and 60C°) and two extraction methods after maceration (centrifugation, filtration). The results have indicated that these processes have affected the final accumulation of polyphenols and antioxidant activity in the leaf extracts. Additionally, it has been highlighted that the centrifugation method extracts a higher biochemical amount, especially after drying at 40°C. Furthermore, Arbutus unedo L. leaves should be considered a promising source of natural compounds to be used as ingredients in various fields.

Targeted Anthocyanin Profiling of Fruits from Three Southern Highbush Blueberry Cultivars Propagated in Colombia.

The blueberry, a deciduous shrub in the Ericaceae family, is celebrated for its delightful flavor, sweetness, and abundance of anthocyanins and antioxidants, qualities that have garnered significant attention for their potential health benefits. Blueberries grown in diverse environments and exhibit varied anthocyanin profiles, often influenced by factors such as altitude and climate. Varietal groups worldwide have been bred and categorized based on their growth habits and specific cold requirements, particularly with southern highbush cultivars thriving in temperate climates, demonstrating tolerance to higher altitudes or cooler climates-a result of hybridizations involving various Vaccinium species. In the Colombian Andes, southern highbush blueberries thrive in unique high-altitude conditions, leading to exceptional quality due to the region's cool climate and specific soil characteristics. In this context, this study aimed to chemically characterize and differentiate three southern highbush blueberry cultivars (i.e., 'Biloxi,' 'Legacy' and 'Sharpblue') cultivated in a Colombian Andean plateau and compare them to three commercially available highbush blueberries. This comprehensive evaluation involved examining total phenols, flavonoids, anthocyanin content, and DPPH· free-radical scavenging capacity, as well as conducting anthocyanin-targeted profiling via HPLC-DAD-HRMS. Through supervised multivariate analyses such as sPLS-DA, this study delved into the pattern recognition of those anthocyanins that could potentially serve as markers for quality and cultivar-related chemical trait determination. These findings locate blueberry-derived anthocyanins in a metabolic context and afford some insights into southern highbush blueberry cultivar differentiation to be used for further purposes.

Chemical content profile and antioxidant activity of Rhododendron ponticum extracts

Rhododendron species (Ericaceae) is considered the most diverse group, with more than 1200 species famous for their colorful flowers. Rhododendron, also known as azalea, is a flowering tree in the Ericaceae family. Herein, in vitro antioxidant activities of acetone and methanol extracts of Rhododendron ponticum leaves were studied along with their phenolic contents using High-Performance Liquid Chromatography with a Diode-Array Detector (HPLC-DAD). Antioxidant activity was performed spectrophotometrically using ABTS·+, DPPH·, CUPRAC, and β-carotene/linoleic acid assays. Acetone extract showed better antioxidant activity than methanol extract in all tests. The HPLC-DAD analysis revealed fifteen phenolic compounds, of which seven were common for both extracts. Catechin (25.80 and 33.08 mg/g extract, respectively) and epicatechin (31.15 and 26.54 mg/g extract, respectively) were calculated as major phenolic components in acetone and methanol extracts.

Inventory and characteristics of rare medicinal plants in the Republic of Tatarstan, Russia

This work presents the structural analysis of rare medicinal plants of the flora in Tatarstan, Russia. The wild medicinal flora of Tatarstan includes 357 species, 9.5% of which have the status of protected plants. In Tatarstan, the protected species belonging to the subkingdom Higher spore plants are represented by two classes, two families and three genera. Protected Seed plants include Gymnosperms, represented by one class and one family, but the basis of the flora is formed by Angiosperms, including two classes, 15 families and 30 species. The most numerous families of rare plants in Tatarstan are Orchidaceae and Ericaceae. All representatives of this family are tuberiferous plants. Limited vegetative propagation leads to the reduction in species abundance. Plants of the family Ericaceae are confined to the ecological-cenotic group of oligotrophic plants, the distribution of which is associated with rare communities of sphagnum bogs. In general, on the territory Tatarstan, the composition of protected medicinal plants is dominated by wetland species. Among rare plants, more than 40% are located on the border of their range. However, the most common limiting factor for rare and endangered species is the direct or indirect influence of human activities on the natural habitats of medicinal plants.

A review of Labrador tea diversity in Northeast Asia

Labrador teas are a small but systematically complex group of species of the Ericaceae family. The group is represented by cold-resistant evergreen shrubs, common in the boreal and subarctic zones of the northern hemisphere, both in Eurasia and North America. Described historically as part of the distinct genus Ledum L., Labrador teas were later included in the genus Rhododendron as a subsection Ledum in subgenus Rhododendron. The high variability of morphological characters, their dependence on geographical and environmental factors, makes it difficult to clearly distinguish from 4 to 9 described taxa. Labrador teas play a key ecological role as dominants in damp communities of temperate and cold climates and are often pioneers in successional communities of disturbed habitats. This species complex is also interesting as a model group for studying the processes of hybridization and diversification, since different species tend to coexist in sympatry, especially in northeast Asia. This review summarizes the results of studying the species diversity of Labrador teas, mainly in Northeast Asia, changes in their taxonomy and hypotheses of origin.

In Vitro Antioxidant and Antibacterial Activities of Medicinal Flower Laligurans Rhododendron arboreum Collected from Kathmandu Valley, Nepal.

Rhododendron arboreum, known as Nepal's national flower and belonging to the Ericaceae family, thrives throughout the Himalayan region. This study investigates the antioxidant and antimicrobial potential of Rhododendron arboreum flowers. Three different extracts were prepared at concentrations ranging from 10 to 640 μg/mL and assessed for their total phenolic content (TPC), total flavonoid content (TFC), and DPPH radical scavenging activity. Results showed significant accumulation of antioxidant compounds (P < 0.05), with TPC levels of 37.78, 67.29, and 53.46 mg GAE/g and TFC values of 49.46, 67.46, and 65.71 mg QE/g for LGP, LGE, and LGA at 640 μg/mL, respectively. DPPH activity was highest in LGE (96.33%), followed by LGA (87.11%) and LGP (76.59%), compared to the standard (77.38%). The antibacterial properties were significant against Aeromonas hydrophila, Staphylococcus aureus, and Escherichia coli at 100% concentration, with inhibition rates of 15%, 16%, and 17% for LGP, LGE, and LGA, respectively. These findings indicate that Rhododendron arboreum petals, rich in bioactive compounds, possess strong antioxidant and antibacterial properties, making them potential candidates for developing cost-effective therapeutic formulations. Further research should focus on isolating specific bioactive compounds and understanding their molecular mechanisms to enhance therapeutic efficacy.

Collection of representatives of the Ericaceae family in the botanical garden of the Kuzbass Humanitarian Pedagogical Institute

Representatives of the heather family are distributed in the temperate climate zone almost throughout the globe and are of great economic importance. The collection of representatives of the Ericaceae family in the Botanical Garden of the Kuzbass Humanitarian Pedagogical Institute of the Federal State Budgetary Educational Institution of Higher Education “Kemerovo State University” consists of 12 species and 28 varieties belonging to 7 genera. Representatives of the genus Rhododendron are represented by 10 species and 7 hybrid varieties. These are predominantly evergreen, semi-deciduous or deciduous shrubs. The collection also includes 11 varieties of common heather with a wide range of flower and leaf colors. Also, in the conditions of the Botanical Garden of KSPI, the varieties Erica carnea L. (ruddy or herbaceous Erica) performed well. Among other representatives of the Heather family, the collection includes 3 species of Kalmia, 2 varieties of Empetrum nigrum L., 2 varieties of Andromeda polifolia L. and Vaccinium myrtillus L. (common blueberry). The experience of relatively successful cultivation of representatives of the heather family allows us to hope for expanding the taxonomic and quantitative composition of the collection, which is actively used for scientific and educational purposes.

A Clean-Label Formulation of Fortified Yogurt Based on Rhododendron Flower Powder as a Functional Ingredient.

The world-wide-dispersed Rhododendron is a tiny, evergreen plant with vivid red or pale pink blossoms that is a member of the Ericaceae family and is well-known for its stunning flowers. To improve yogurt's nutritional profile and sensory qualities, this study investigates an innovative application of Rhododendron flower powder (RFP). The potential health benefits of Rhododendron flowers, which are a rich source of bioactive compounds such as polyphenols and antioxidants, have attracted attention. Consequently, the physicochemical, phytochemical, and sensory qualities of fortifying yogurt with RFP at various concentrations were studied. The results showed that the texture and color of the yogurt were highly influenced by the addition of RFP. The addition of this functional ingredient also resulted in a significant increase in the yogurt's polyphenol content and antioxidant capacity. These findings demonstrate the suitability of RFP in yogurt formulations as a functional food ingredient, being a good source of phenolics.