1.Chemical constituents from leaves of Rhododendron rubiginosum var rubiginosum.
Yong-Xun YANG ; Yong-Ming YAN ; Ming TAO ; Qian LUO ; Xiao-Ping DONG
China Journal of Chinese Materia Medica 2013;38(6):839-843
Thirteen compounds were isolated from the leaves of Rhododendron rubiginosum var. rubiginosum by various chromatographic techniques. On the basis of spectroscopic data, their structures were elucidated as 3,9-dihydroxy-megastigma-5-ene (1), 3 beta-hydroxy-5alpha ,6 alpha-epoxy-7-megastigmen-9-one (2), loliolide (3), ursolic acid(4), 2 alpha, 3 beta-dihydroxy-urs-12-en-28-oic acid (5), 2 alpha, 3 beta,23-trihydroxy-urs-12-en-28-oic acid (6), 7,9-dimethoxyrhododendrol (7), 7-methoxyrhododendrol (8), zingerone (9), isofraxidin (10), scopoletin (11), (+)-pinoresinol (12) and 3'-O-demethylepipinorisenol (13). All compounds were isolated from this plant for the first time, and compounds 1-3, 7-9, and 11-13 were isolated from the genus Rhododendron for the first time.
Organic Chemicals
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analysis
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chemistry
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Plant Leaves
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chemistry
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Rhododendron
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chemistry
2.Identification of terpene synthase gene family members in Rhododendron and its relationship with terpenoid metabolism.
Guoxia YANG ; Baoxin JIANG ; Fan HE ; Sijia LÜ ; Dongbin LI ; Yonghong JIA ; Ping ZHU ; Xiaohong XIE ; Yueyan WU
Chinese Journal of Biotechnology 2022;38(10):3740-3756
Terpene synthase (TPS) plays important roles in the synthesis of terpenoids which are the main fragrances in Rhododendron flowers. To understand the function of TPS genes in terpenoid metabolism in relation to flower aroma formation, we identified all TPS gene family members in Rhododendron by analyzing its genome database. We then used a transcriptomic approach to analyze the differential gene expression patterns of TPS gene family members in the scented flower Rhododendron fortunei compared to the non-scented flower Rhododendron 'Nova Zembla'. The contents of terpenoid compounds in petals of the above two Rhododendron species at different developmental stages were also measured by using qRT-PCR and head space-solid phase micro-extraction combined with gas chromatography-mass spectrometry. Our results showed that a total of 47 RsTPS members, with individual lengths ranged from 591 to 2 634 bp, were identified in the Rhododendron genome. The number of exons in RsTPS gene ranged from 3 to 12, while the length of each protein encoded ranged from 196 to 877 amino acids. Members of the RsTPS family are mainly distributed in the chloroplast and cytoplasm. Phylogenetic analysis showed that RsTPS genes can be clustered into 5 subgroups. Seven gene family members can be functionally annotated as TPS gene family since they were temporally and spatially expressed as shown in the transcriptome data. Notably, TPS1, TPS10, TPS12 and TPS13 in Rhododendron fortunei were expressed highly in flower buds reached the peak in the full blossoming. Correlation analysis between gene expression levels and terpenoid content indicates that the expression levels of TPS1, TPS4, TPS9, TPS10, TPS12 and TPS13 were positively correlated with the content of terpenoids in the petals of R. fortunei at all flower developmental stages, suggesting that these six genes might be involved in the aroma formation in R. fortunei.
Rhododendron/metabolism*
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Phylogeny
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Terpenes/metabolism*
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Family
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Gene Expression Regulation, Plant
3.The Record of Erysiphe azaleae (Erysiphales) from Poland and Its Anamorph.
Hyeon Dong SHIN ; Wieslaw MULENKO
Mycobiology 2004;32(3):105-109
Erysiphe azaleae, a powdery mildew fungus on Rhododendron spp., was originally described from North America, and has only recently been recorded in Germany, England, Switzerland and Poland. The present paper records plentiful collections of this species from Poland, and provides additional information of its anamorphic state for taxonomic purposes.
England
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Fungi
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Germany
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North America
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Poland*
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Rhododendron
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Switzerland
4.A case of Systemic Toxicity that Occurred in an Adult Who Intentionally Ingested Rhododendron Sclippenbashii.
Sang Min JEONG ; Seung Han LEE ; Jeong Soo LIM ; Sang Yeol YOON ; Seung RYU ; Jin Woong LEE ; Seung Whan KIM ; In Sool YOO ; Yeon Ho YOU
Journal of The Korean Society of Clinical Toxicology 2009;7(2):180-182
It is well known that Rhododendron sclippenbashii contains the toxic material grayanotoxin. So, Koreans do not eat it, but they do eat azalea although it contains grayanotoxin. That is why there have been no reports about Rhododendron sclippenbashii intoxication after ingesting it intentionally, not accidentally. In this case, the patient was admitted to the emergency room with several toxic symptoms after intentionally consuming 50 blossoms of Rhododendron sclippenbashii to get rid of thirst. Treatment with saline infusion and atropine was successful and the outcome was favorable enough in this case to produce a complete cure without any sequelae at discharge. But toxic symptoms were seen for 24 hours, although the symptoms usually fade in 9 hours. Therefore, we should carefully treat and observe, for over 24 hours, the patient who intentionally ingests about 50 blossoms of Rhododendron sclippenbashii.
Adult
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Atropine
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Bradycardia
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Drug Combinations
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Emergencies
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Flowers
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Humans
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Intention
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Piperonyl Butoxide
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Pyrethrins
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Rhododendron
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Thirst
5.Three Cases of Mad-honey Poisoning Presenting with Cardiovascular Emergencies.
Chang Hwan SOHN ; Won KIM ; Shin AHN ; Bum Jin OH ; Won Young KIM ; Kyoung Soo LIM
Journal of the Korean Society of Emergency Medicine 2005;16(2):322-325
Mad-honey poisoning results from the ingestion of grayanotoxin-contaminated honey, which is extracted by bees from the leaves and the flowers Rhododendron species. The grayanotoxins bind to sodium channels in cell membranes and prevent inactivation; thus, excitable cells are maintained in a state of depolarization. Cardiac disturbances are the main signs in this poisoning. Bradycardia, and arterial hypotension have the potential to cause death in untreated cases but no fatalities have been reported in the literature. Here, we report three cases of mad-honey poisoning. All of the patients showed bradycardia, hypotension, and syncope. The hypotension responded to the administration of fluids, and the bradycardia responded to atropine treatment. All three patients recovered fully within 24 hours. Mad-honey poisoning should be kept in mind for any patients admitted with unexplained hypotension, bradycardia, and other rhythm disturbances, and patients who have eaten honey must be examined carefully.
Atropine
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Bees
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Bradycardia
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Cell Membrane
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Eating
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Emergencies*
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Flowers
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Honey
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Humans
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Hypotension
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Poisoning*
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Rhododendron
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Sodium Channels
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Syncope
6.A Case of Severe Bradyarrhythmia after Ingestion of Rhododendron Brachycarpum.
You Shik CHOI ; In Sung JANG ; Byoung Ha KIM ; Na Young KWON ; Jae Deok KIM ; Myoung Yong LEE ; Moo Yong RHEE ; Young Kwon KIM ; Gab Teug KIM ; Hwa Sik SONG
Korean Circulation Journal 2002;32(3):268-270
Rhododendron brachycarpum has been known as a panacea in Korean folk medicine, and is used to treat various diseases including hypertension. Excessive ingestion can cause intoxication by grayanotoxin. We experienced a 59 year-old man suffering of grayanotoxin intoxication following excessive ingestion of Rhododendron brachycarpum. The patient presented dizziness, weakness, and chest discomfort with cold sweats. Electrocardiography showed marked sinus bradycardia with atrio-ventricular dissociation. With intravenous saline and atropine, the patient recovered. This case calls attention to the potential cardiotoxicity of Korean folk medicine Rhododendron brachycarpum.
Atropine
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Bradycardia*
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Dizziness
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Eating*
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Electrocardiography
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Humans
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Hypertension
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Medicine, Traditional
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Middle Aged
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Rhododendron*
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Sweat
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Thorax
7.Two cases of honey poisoning with syncope.
Hye Lim OH ; Woo Shik KIM ; Heung Sun KANG ; Chung Whee CHOUE ; Kwon Sam KIM ; Jung Sang SONG ; Jong Hoa BAE
Korean Journal of Medicine 2000;59(2):208-212
Intoxifications caused by toxic honey were occurred recently in Korea. Honey poisoning is known to be induced by grayanotoxins, that appear in flowers of different species of Rhododendron. These toxic compounds cause depolarization of membranes that contain fast Na channel by increasing in Na permeability. After ingestion of toxic honey patients may present with neurological, cardiovascular, gastrointestinal sign and symptoms. Two cases of honey poisoning are described here. Both patients experienced syncope and severe arterial hypotension after ingestion of honey which was brought from Nepal and Brazil. Conservative treatement was fully successful in both patients within 24 hours. We report the first case of honey poisoning in Korea.
Brazil
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Eating
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Flowers
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Honey*
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Humans
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Hypotension
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Korea
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Membranes
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Nepal
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Permeability
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Poisoning*
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Rhododendron
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Sick Sinus Syndrome
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Syncope*
8.Phenolic compounds from Rhododendron phaeochrysum var. agglutinatum.
Ji-Qing SUN ; Chun LEI ; Ai-Jun HOU
China Journal of Chinese Materia Medica 2014;39(19):3772-3776
Eight phenolic compounds were isolated from Rhododendron phaeochrysum var. agglutinatum and their sructures were identified as phaeochrysin (1), (2R)-4-(3',4'-dihydroxyphenyl) -2-butanol (2), (-) -rhododendrol (3), rhododendrin (4), (+) -isolariciresinol (5), (-) -lyoniresinol (6), lyoniresinol-9'-O-β-D-xylopyranoside (7), and dihydrodehydrodiconiferyl-3a-O-α-L-rhamnopyranoside (8). Compound 1 is new, and compounds 2, 5-8 were isolated from this plant for the first time.
Drugs, Chinese Herbal
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chemistry
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Mass Spectrometry
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Molecular Structure
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Phenols
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chemistry
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Rhododendron
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chemistry
9.Five monoterpenes from leaves of Rhododendron anthopogon.
Changhong QIN ; Ying MEI ; Xianli ZHOU ; A PING ; Shuai HUANG
China Journal of Chinese Materia Medica 2010;35(19):2568-2571
A phytochemical investigation of the leaves of Rhododendron anthopogon revealed the presence of five known monoterpenes: ranhuadujuanine A (1), cannabiorcicyclolic acid (2), ranhuadujuanine B (3), ranhuadujuanine C (4) and ranhuadujuanine D (5). All compounds are firstly reported as natural products. The assignments of some 13C-signals of ranhuadujuanine A reported in the literature were revised on the basis of 2D-NMR spectra.
Biological Products
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isolation & purification
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Magnetic Resonance Spectroscopy
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Monoterpenes
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chemistry
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Plant Leaves
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chemistry
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Rhododendron
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chemistry
10.Analysis of flavonoids in Rhododendron mariae by UPLC/ Q-TOF-MS.
Huiqiang HUANG ; Yifan FENG ; Wen RUI ; Miaomiao JIANG ; Liang HAN
China Journal of Chinese Materia Medica 2009;34(7):875-878
OBJECTIVETo investigate the flavonoids in Rhododendron mariae.
METHODThe constituents in R. mariae were determined by UPLC/Q-TOF-MS. The chromatographic separation was performed on a C18 column (2.1 mm x 50 mm, 1.7 microm) with a gradient elufion of methanol-water containing 0.1% formic acid. The mass specfrometer eqaipped with elecfrospay ionizafion source was usedas defecfor and operated in data was collected under the positive and negative ion modes.
RESULTSeven constituents were identified as myricetin-3-O-beta-D-gluconside (1), myricetin-3'-O-beta-D-xylopyraoside (2), hyperoside (3), isoquercitrin (4), avicularin (5), quercitroside (6) and quercetin (7).
CONCLUSIONIn this study, the main flavonoids in R. mariae were separated by UPLC, and identified through the information of positive ion and negative ion and relative molecular mass which were determined by Q-TOF-MS. It is an accurate and effective method which can be applied for the constituent identification of R. mariae.
Chromatography, High Pressure Liquid ; Flavonoids ; analysis ; chemistry ; Mass Spectrometry ; Rhododendron ; chemistry