Medicine, East Asian Traditional
Prenylation
Quinolizines
Antipruritic effects of Sophora flavescens on acute and chronic itch-related responses in mice. (1/53)
To find new antipruritic herbal medicines for pruritus, we screened the methanol extracts of seven herbal medicines which have been used to treat dermatologic diseases, testing them on mouse models of acute and chronic itch. When administrated perorally (p.o.) at a dose of 200 mg/kg, methanol extracts of Sophora flavescens and Cnidium monnieri, but not the others, significantly inhibited a serotonin (5-HT)-induced itch-related response (scratching) and the spontaneous scratching of NC mice, a mouse model of atopic dermatitis. The inhibitory effect of Sophora flavescens was stronger than that of Cnidium monnieri. The methanol extract from Sophora flavescens (50-200 mg/kg) inhibited 5-HT-induced scratching in a dose-dependent manner, without any effects on the locomotor activity. These results suggest that Sophora flavescens and its constituents widely affect acute and chronic pruritus, and are possible as new antipruritic agents. (+info)Tyrosinase inhibitory prenylated flavonoids from Sophora flavescens. (2/53)
For the purpose of the development of a skin-whitening agent, Sophora flavescens was evaluated for tyrosinase inhibitory activity and its active principles were identified following activity-guided isolation. The ethanol extract and dichloromethane fraction from S. flavescens showed significant inhibition of mushroom tyrosinase. From the dichloromethane fraction, three known prenylated flavonoids, sophoraflavanone G, kuraridin, and kurarinone, were isolated. Compared with kojic acid (IC(50)=20.5 microM), these compounds possessed more potent tyrosinase inhibitory activity. The IC(50) values were 6.6, 0.6, and 6.2 microM for sophoraflavanone G, kuraridin, and kurarinone, respectively. (+info)Characterization of leachianone G 2"-dimethylallyltransferase, a novel prenyl side-chain elongation enzyme for the formation of the lavandulyl group of sophoraflavanone G in Sophora flavescens Ait. cell suspension cultures. (3/53)
Leachianone G (LG) 2"-dimethylallyltransferase, a novel prenyl side-chain elongation enzyme, was identified in Sophora flavescens Ait. cultured cells. The enzyme transfers a dimethylallyl group to the 2" position of another dimethylallyl group attached at position 8 of LG to form sophoraflavanone G, a branched monoterpenoid-conjugated flavanone characteristic to this plant. This membrane-bound dimethylallyltransferase required Mg2+ (optimum concentration was 10 mm) for the reaction and had an optimum pH of 8.8. It utilized dimethylallyl diphosphate as the sole prenyl donor, and the 2'-hydroxy function in LG was indispensable to the activity. The apparent Km values for dimethylallyl diphosphate and LG were 59 and 2.3 microm, respectively. Subcellular localization of three enzymes that participated in the formation of the lavandulyl group was also investigated by sucrose density gradient centrifugation. Two prenyltransferases, naringenin 8-dimethylallyltransferase and LG 2"-dimethylallyltransferase, were localized in the plastids, whereas 8-dimethylallylnaringenin 2'-hydroxylase, which catalyzes the crucial step in the lavandulyl-group formation, was associated with the endoplasmic reticulum. These results suggest the close cooperation between the plastids and the endoplasmic reticulum in the formation of lavandulyl groups. (+info)Effect of ethanol extracts of three Chinese medicinal plants with anti-diarrheal properties on ion transport of the rat intestinal epithelia. (4/53)
Effects of ethanol extracts of three Chinese medicinal plants, namely, Qinpi (Fraxini cortex), Kushen (Sophora flavescens, AITON), and Huanglian (Coptis teeta, WALLICH), on ion transport of the rat intestinal epithelia were determined in this study. Rat intestinal epithelia mounted in an Ussing chamber attached to a voltage/current clamp were used for measuring changes in the short circuit current across the epithelia. Activation of the intestinal epithelia by serosal administration of 5 microM forskolin resulted in an increase in basal short circuit current. The ethanol extracts of each of the three plants partially reduced the current stimulated by forskolin. In the following experiments, ouabain and bumetanide were added prior to adding the ethanol extract of these plants for revealing their effect on Na(+) and Cl(-) movement. The results suggest that the ethanol extract of the Qinpi would affect Cl(-) transport. On the contrary, the ethanol extract of Kushen would affect Na(+) transport rather than Cl(-) movement. This study provides evidences that reveal the pharmacological mechanism of the Chinese plants with anti-diarrheal properties. (+info)Antimalarial activity of lavandulyl flavanones isolated from the roots of Sophora flavescens. (5/53)
Four lavandulyl flavanones, (2S)-2'-methoxykurarinone (1), sophoraflavanone G (2), leachianone A (3), and (-)-kurarinone (4), which are isolated from the roots of Sophora flavescens have been tested for in vitro antimalarial activity against Plasmodium falciparum. Compounds 1-3 showed moderate antimalarial activities with EC(50) values of 2.4 x 10(-6), 2.6 x 10(-6), and 2.1 x 10(-6) M, respectively. These compounds did not show selective toxicity against P. falciparum in the toxicity test on mouse mammalian tumor cells, however, it is suggested that the position of methoxyl groups in flavanone skeleton plays an important role on antimalarial activity. (+info)Changes in pit membrane porosity due to deflection and stretching: the role of vestured pits. (6/53)
The effect of increasing pressure difference (DeltaP) on intervessel pit membrane porosity was studied in two angiosperm tree species with differing pit architecture. Fraxinus americana L. possesses typical angiosperm bordered pit structure while Sophora japonica L. exhibits well-developed vestures in intervessel pit chambers. It was hypothesized (a) that large DeltaP across intervessel pits would cause the deflection of pit membranes in the stems of F. americana resulting in significant increases in porosity and thus lower cavitation thresholds, and (b) that the presence of vestures would prevent the deflection of pit membranes in S. japonica. To determine if the porosity of pit membranes increased under mechanical stress, suspensions of colloidal gold, 5 nm and 20 nm in diameter, were perfused across intervessel pit membranes at DeltaP ranging from 0.25 MPa to 6.0 MPa. The effect of increasing DeltaP on membrane porosity was also tested by comparing air seeding thresholds (Pa) in stems perfused with water or a solution with lower surface tension. Air seeding and colloidal gold experiments indicated that pit membrane porosity increased significantly with DeltaP in F. americana. In S. japonica, increases in permeability to colloidal gold with DeltaP were small and maximum pore diameters predicted from Pa were independent of DeltaP, suggesting that vestures limited the degree to which the membrane can be deflected from the centre of the pit cavity. This provides the first experimental evidence that vestures reduce the probability of air seeding through pit membranes. (+info)Solubility-insolubility interconversion of sophoragrin, a mannose/glucose-specific lectin in Sophora japonica (Japanese pagoda tree) bark, regulated by the sugar-specific interaction. (7/53)
Sophoragrin, a mannose/glucose-specific lectin in Sophora japonica (Japanese pagoda tree) bark, was the first lectin found to show self-aggregation that is dependent on the sugar concentration accompanying the interconversion between solubility and insolubility [Ueno, Ogawa, Matsumoto and Seno (1991) J. Biol. Chem. 266, 3146-3153]. The interconversion is regulated by the concentrations of Ca(2+) and specific sugars: mannose, glucose or sucrose. The specific glycotopes for sophoragrin were found in the sophoragrin subunit and an endogenous galactose-specific lectin, B-SJA-I (bark S. japonica agglutinin I), and the lectin subunit that binds to the glycotope was identified by photoaffinity glycan probes. Remarkably, the insoluble polymer of sophoragrin is dissociated by interaction with B-SJA-I into various soluble complexes. Based on these results, self-aggregation of sophoragrin was shown to be a unique homopolymerization due to the sugar-specific interaction. An immunostaining study indicated that sophoragrin localizes mainly in vacuoles of parenchymal cells coincidently with B-SJA-I. These results indicate that sophoragrin can sequester endogenous glycoprotein ligands via sugar-specific interactions, thus providing new insights into the occurrence and significance of the intravacuolar interaction shown by a legume lectin. (+info)Triterpenoid saponins from the roots of Sophora koreensis. (8/53)
From the roots of Sophora koreensis (Fabaceae), three new oleanene-type triterpene glycosides, echinosophorosides A(1) (1) and B (2), and acetyl-subproside II (5), were isolated as their methyl esters, together with the four known ones sophoraflavoside I, kudzusaponin SA(3), subproside II, and azukisaponin V. The structures of the new saponins were elucidated to be 3-O-alpha-L-rhamnopyranosyl(1-->2)-alpha-L-arabinopyranosyl(1-->2)-beta-D-glucuro nopyranosyl kudzusapogenol A 22-O-alpha-L-arabinopyranoside (1), 3-O-alpha-L-rhamnopyranosyl(1-->2)-alpha-L-arabinopyranosyl-(1-->2)-beta-D-glucur onopyranosyl abrisapogenol C 22-O-alpha-L-arabinopyranoside (2), and 3-O-alpha-L-rhamnopyranosyl(1-->2)-alpha-L-arabinopyranosyl(1-->2)-beta-D-glucuro nopyranosyl kudzusapogenol A 22-O-acetate (5), respectively. It is noteworthy that two arabinopyranosyl moieties in the same molecule, echinosophoroside B (2), have different conformations. The conformation of the arabinopyranosyl moiety existing in the trisaccharide moiety was determined to be (1)C(4), whereas that of the arabinopyranosyl unit at C-22 was identified as (4)C(1). (+info)"Sophora" does not have a specific medical definition, but it is a term that refers to various species of the Sophora plant genus, which belongs to the Fabaceae (legume) family. Some of these plants have been used in traditional medicine in different cultures.
For instance, Sophora flavescens (Ku Shen) has been used in Traditional Chinese Medicine for its anti-inflammatory, antiviral, and antipyretic properties. It contains several alkaloids, such as matrine and oxymatrine, which have demonstrated pharmacological activities.
Another example is Sophora japonica (Japanese pagoda tree), whose seeds, leaves, and bark have been used in traditional Chinese medicine for treating various conditions like diarrhea, insomnia, and skin diseases. Its active compounds include flavonoids, saponins, and alkaloids, which contribute to its medicinal properties.
It is essential to note that the use of Sophora species or their extracts in a medical context should be based on scientific research and under professional medical supervision due to potential side effects and interactions with other medications.
East Asian traditional medicine (ETAM) refers to the traditional medical systems that have been practiced in China, Japan, Korea, and other countries in this region for centuries. The most well-known forms of ETAM are Traditional Chinese Medicine (TCM), Kampo (Japanese traditional medicine), and Korean traditional medicine (KTM).
TCM is a comprehensive medical system that includes acupuncture, moxibustion, herbal medicine, dietary therapy, tuina (Chinese massage), and qigong (breathing exercises) among its modalities. TCM is based on the concept of balancing the flow of qi (vital energy) through a system of channels or meridians in the body.
Kampo is a Japanese adaptation of Chinese medicine that emphasizes the use of herbal formulas to treat illness and maintain health. Kampo practitioners often prescribe individualized herbal formulas based on the patient's unique pattern of symptoms, which are determined through careful diagnosis and examination.
KTM is a traditional Korean medical system that combines elements of Chinese and Japanese medicine with indigenous Korean practices. KTM includes acupuncture, moxibustion, herbal medicine, cupping, and various forms of manual therapy.
While ETAM has been practiced for centuries and has a rich cultural heritage, it is important to note that its safety and efficacy have not always been rigorously studied using modern scientific methods. As such, it is essential to consult with a qualified healthcare provider before pursuing any form of traditional medicine.
Prenylation is a post-translational modification process in which a prenyl group, such as a farnesyl or geranylgeranyl group, is added to a protein covalently. This modification typically occurs at a cysteine residue within a CAAX motif (C is cysteine, A is an aliphatic amino acid, and X is any amino acid) found at the carboxyl-terminus of the protein. Prenylation plays a crucial role in membrane association, protein-protein interactions, and intracellular trafficking of proteins, particularly those involved in signal transduction pathways.
Flavanones are a type of flavonoid, which is a class of plant pigments widely found in fruits, vegetables, and other plants. Flavanones are known for their antioxidant properties and potential health benefits. They are typically found in citrus fruits such as oranges, lemons, and grapefruits. Some common flavanones include hesperetin, naringenin, and eriodictyol. These compounds have been studied for their potential effects on cardiovascular health, cancer prevention, and neuroprotection, although more research is needed to fully understand their mechanisms of action and therapeutic potential.
Quinolizines are not a medical term, but a chemical classification for a group of compounds that contain a quinolizine ring in their structure. A quinolizine ring is a polycyclic aromatic hydrocarbon with eight pi electrons and consists of two benzene rings fused to a piperidine ring.
Quinolizines have been studied for their potential medicinal properties, including anti-malarial, anti-cancer, and anti-microbial activities. However, there are no currently approved drugs that contain quinolizine as the primary active ingredient. Therefore, it is not possible to provide a medical definition of 'Quinolizines.'
Herb-drug interactions (HDIs) refer to the pharmacological or clinical consequences that occur when a patient takes a herbal product concurrently with a prescribed medication. These interactions can result in various outcomes, such as decreased, increased, or altered drug effects due to changes in the absorption, distribution, metabolism, or excretion of the drug.
Herbs may contain various bioactive compounds that can interact with drugs and affect their pharmacokinetics or pharmacodynamics. For example, some herbs may induce or inhibit drug-metabolizing enzymes, such as cytochrome P450 (CYP) isoenzymes, leading to altered drug metabolism and potentially increased or decreased drug concentrations in the body.
Similarly, herbs can also affect drug transporters, such as P-glycoprotein, which can further alter drug absorption, distribution, and excretion. Moreover, some herbs may have pharmacodynamic interactions with drugs, leading to additive or synergistic effects, or antagonism of the drug's therapeutic action.
Therefore, healthcare providers should be aware of potential HDIs when prescribing medications to patients who use herbal products and consider monitoring their patients' medication responses closely. Patients should also be advised to inform their healthcare providers about any herbal products they are taking, including dosage and frequency of use.
Sophora
Sophora howinsula
Sophora fulvida
Sophora toromiro
Sophora masafuerana
Sophora tomentosa
Sophora violacea
Sophora molloyi
Sophora mangarevaensis
Sophora stenophylla
Sophora wightii
Sophora raivavaeensis
Sophora fernandeziana
Sophora prostrata
Sophora microphylla
Sophora cassioides
Sophora macrocarpa
Sophora tetraptera
Sophora tonkinensis
Sophora rapaensis
Sophora flavescens
Sophora godleyi
Sophora saxicola
Sophora fraseri
Sophora chathamica
Dendrophilia sophora
Sophora chrysophylla
Sophora longicarinata
Kōwhai
Fossil flora of Kızılcahamam district
Sophora - Wikipedia
Sophora moorcroftiana PFAF Plant Database
Sophora tetraptera ( Kowhai ) : Backyard Gardener
CalPhotos: Sophora chrysophylla; Mamani
Sophora davidii
PrimaDonna Sophora White hotpants | Rigby & Peller United Kingdom
'Sophora' vase, 1926 - | Lot 27 - Lalique...
Yellow Necklacepod (Variety Sophora tomentosa truncata) · iNaturalist
Sophora godleyi | Pan Global Plants
Sophora japonica 'Pendula' - Plant Finder
The Investigation of the Effect and Mechanism of Sophora moorcroftiana Alkaloids in Combination with Albendazole on...
Sophora 'Little Baby' - Urban Jungle - Plant Nursery in Norwich, Norfolk and Beccles, Suffolk.
Sophora Poems | Examples of Poems about Sophora
Sophora fulvida • New Zealand Plant Conservation Network
Sophora chathamica • New Zealand Plant Conservation Network
Quercetin 95% Sophora Japonica Extract manufacturer & supplier - 1st 4 Limo Sales
Weird Dude's Plant Zoo, L.L.C.: Sophora affinis (Eve's Necklace, Pink Sophora)
Sophora kronei: | Henriette's Herbal Homepage
Sophora microphylla Archives : Botany One
Sophora oligophylla (SOBOL)[Overview]| EPPO Global Database
Sophora tomentosa L. extract | Natural Compounds | MedChemExpress
SOPHORA - Netty
SOPHORA - Netty
Sophora Japonica
sophora japonica wiki
Sophora IPTC - subshell
Vert Sophora (Updated 2023)
Archiwa: sophora - Zdrowiebeztajemnic.pl
SFDR STATEMENT
sophora (english) - Kamus SABDA
Fabaceae2
- Sophora is a genus of about 45 species of small trees and shrubs in the pea family Fabaceae. (wikipedia.org)
- Sofora japonská (Styphnolobium japonicum, st. synonym: Sophora japonica) je strom z čeľade bôbovité (Fabaceae). (danimgroup.com)
Japonica27
- Sophora japonica , commonly called Japanese pagoda tree or Chinese scholar tree, is native to China and Korea, but not Japan. (missouribotanicalgarden.org)
- What are the health benefits & uses of Quercetin Sophora Japonica Extract? (1st4limosales.com)
- As a natural plant extracts/herbal extracts manufacturer & supplier, Shaanxi Porvoo offers high-quality Quercetin Dihydrate/Quercetin anhydrous Sophora Japonica Extract in bulk quantities. (1st4limosales.com)
- Sophora japonica, also known as Japanese pagoda tree or scholar tree, is a plant belonging to the Fabacee family native to Central Asia. (naturallifeapp.com)
- From the flowers of the Sophora Japonica, indeed, rutin is extracted, from which the troxerutine is obtained, a flavonoid characterized by antioxidant and antithrombotic action useful against venous stasis, capillary fragility , swelling of the lower limbs and hemorrhoids , it results able to strengthen the walls of the blood vessels and to counteract inflammations . (naturallifeapp.com)
- You can use the Sophora Japonica in the form of tablets, which you can find in chemist's or herbalist's shops, or as a gel to apply locally. (naturallifeapp.com)
- pubescens () Bosse Sophora japonica var. (danimgroup.com)
- Botanisches Sophora japonica wird als hoch wachsender Baum eingestuft, denn er erreicht Wuchshöhen von bis zu 30 Metern. (danimgroup.com)
- Sophora japonica L. La sofora del Giappone ( Styphnolobium japonicum ( L. ) Schott ) è un albero della famiglia delle Fabacee (o Leguminose) [1] , originario delle regioni centro asiatiche , che è stato introdotto in Europa nel XVIII secolo. (danimgroup.com)
- Sophora japonica), tamén coñecida coma sófora do Xapón, árbore do mel, árbore dos pagodes, ou falsa acacia do Xapón, é unha árbore leguminosa, oriúnda do leste de Asia (principalmente da China que foi introducida no Xapón. (danimgroup.com)
- Sophora japonica L. (1767) 이명 Styphnolobium japonicum (L.) Schott 회화나무(槐花─, 학명: Sophora japonica)는 콩과 고삼속에 속하는 나무이다. (danimgroup.com)
- Sophora Japonica, or Japanese pagoda tree, is one of the 50 fundamental herbs of traditional Chinese medicine and used to promote circulatory system health. (danimgroup.com)
- L'acàcia del Japó o sòfora (Styphnolobium japonicum, abans anomenada Sophora japonica (L.)) és una espècie d'arbre o arbust en la subfamília Faboideae de la família de les fabàcies (lleguminoses). (danimgroup.com)
- Sophora japonica 'Fleright' Download PDF. (danimgroup.com)
- Many students see Sophora as three genera: Sophora, Calia (S. secundiflora) and Styphnolobium (S. japonica). (danimgroup.com)
- What is Sophora Japonica? (globalhealing.com)
- Sophora japonica, otherwise known as Japanese pagoda tree, is native to eastern China and Japan. (globalhealing.com)
- Sophora japonica has a documented history of being used to promote optimal vein health and it's actually one of the fifty fundamental herbs in traditional Chinese medicine. (globalhealing.com)
- Why is Sophora Japonica Effective? (globalhealing.com)
- Sophora japonica is no exception. (globalhealing.com)
- Sophora japonica contains two potent flavonoids, troxerutin and oxymatrine, which exhibit strong antioxidant activity and have repeatedly been shown to support circulatory system health. (globalhealing.com)
- The beneficial compounds contained within Sophora japonica may make it one of the best herbal supplements for hemorrhoids. (globalhealing.com)
- Although Sophora japonica promotes healthy blood vessels, it also promotes overall cardiovascular system health. (globalhealing.com)
- Whether you suffer from hemorrhoids or are simply looking for a natural botanical that naturally supports your circulatory system, Sophora japonica may be an herb for you to consider adding to your supplement regimen. (globalhealing.com)
- Although you should always consult with your trusted health care advisor before beginning new therapies, the evidence for Sophora japonica is largely positive and it's not associated with negative side effects. (globalhealing.com)
- Isolation and identification of antioxidants from Sophora japonica. (globalhealing.com)
- Anti-platelet effects of flavonoids and flavonoid-glycosides from Sophora japonica. (globalhealing.com)
Microphylla5
- Juan Fernández Islands) Sophora microcarpa C.Y. Ma Sophora microphylla Aiton-small-leaved kowhai (New Zealand) Sophora mollis (Royle) Baker subsp. (wikipedia.org)
- Sophora microphylla var. (nzpcn.org.nz)
- Sophora microphylla subp. (nzpcn.org.nz)
- Sophora microphylla, S. chathamica, S. godleyi and S. tetraptera could be confused with S. fulvida. (nzpcn.org.nz)
- chathamica (Cockayne) Yakolev, Sophora microphylla subsp. (nzpcn.org.nz)
Flavescens4
- Sophora flavescens Aiton-ku shen (Eastern Asia) var. (wikipedia.org)
- Antiarrhythmic effects and ionic mechanisms of oxymatrine from Sophora flavescens. (globalhealing.com)
- Please log in to read excerpts from scientific literature and experts statements about Sophora Flavescens Root Extract. (cosmeticanalysis.com)
- This list includes 10 random products that contain Sophora Flavescens Root Extract. (cosmeticanalysis.com)
Tetraptera2
- Sophora songarica Schrenk Sophora stenophylla A. Gray Sophora tetraptera J.F. Mill. (wikipedia.org)
- Sophora tetraptera is a semi-deciduous to evergreen shrub or small tree growing from 4 - 12 metres tall. (theferns.info)
Tomentosa2
- large-leaved kowhai, Taupo kowhai (New Zealand) Sophora tomentosa L.-necklace pod (Pantropical on coasts) subsp. (wikipedia.org)
- tomentosa L. Sophora tonkinensis Gagnep. (wikipedia.org)
Kowhai8
- The New Zealand Sophora species are known as kowhai. (wikipedia.org)
- Sparre-Pelú (Chile) Sophora chathamica Cockayne-coastal kowhai (New Zealand) Sophora chrysophylla (Salisb. (wikipedia.org)
- Sophora fulvida (Allan) Heenan & de Lange-Waitakere kowhai (New Zealand) Sophora gibbosa (DC. (wikipedia.org)
- Yakovlev Sophora godleyi-Godley kowhai, papa kowhai (New Zealand) Sophora howinsula (W.R.B.Oliv. (wikipedia.org)
- P.S.Green -lignum vitae, Lord Howe kowhai Sophora huamotensis Mattapha, Suddee & Rueangr. (wikipedia.org)
- Sophora longicarinata (G.Simpson) Allan-limestone kowhai (New Zealand) Sophora longipes Merr. (wikipedia.org)
- mollis (Royle) Baker Sophora molloyi-Cook Strait Kowhai (New Zealand) Sophora moorcroftiana (Benth. (wikipedia.org)
- Sophora praetorulosa Chun & T. Chen Sophora prostrata Buchanan-dwarf kowhai, prostrate kowhai (New Zealand) Sophora raivavaeensis H.St.John (French Polynesia) Sophora rapaensis H.St.John (French Polynesia) Sophora reedeana (Phil. (wikipedia.org)
Species6
- The seeds of species such as Sophora affinis and Sophora chrysophylla are reported to be poisonous. (wikipedia.org)
- Sophora comprises the following species: Sophora albescens (Rehder) C.Y. Ma Sophora albopetiolulata Léonard Sophora alopecuroides L.-sophora root var. (wikipedia.org)
- zimbabweensis J. B. Gillett & Brummitt Sophora violacea Thwaites Sophora wightii Baker (India) Sophora xanthoantha C.Y. Ma Sophora yunnanensis C.Y. Ma Sophora zeylanica Trimen The status of the following species is unresolved: Sophora angustifolia Q.Q.Liu & H.Y.Ye Sophora biflora Houtt. (wikipedia.org)
- After the segregation of Sophora, this genus comprises 9 species. (danimgroup.com)
- Cytisine, a tricyclic quinolizidine alkaloid found in Baptisia, Cytisus, Laburnum , and Sophora species, has nicotinelike effects on the gastrointestinal (GI) tract and the central nervous system (CNS). (medscape.com)
- A Sophora species commonly used as medicinal herb and is main source of quinolizidine alkaloid MATRINES. (bvsalud.org)
Affinis1
- After I grew this from seed several years ago, I lost it amid a bunch of sophora affinis plants raised the same year, only to refind it a couple years later, when it showed itself as quite distinct both in foliage and in flower. (robsplants.com)
Moorcroftiana6
- Sophora moorcroftiana - (Wall. (pfaf.org)
- Sophora moorcroftiana is an evergreen Shrub growing to 1.2 m (4ft). (pfaf.org)
- The component in traditional Chinese herb medicine, Sophora moorcroftiana alkaloids (SA), is thought to be a potential drug to treat echinococcosis. (hindawi.com)
- Sophora moorcroftiana , also known as Tibet S. viciifolia , thorn firewood, is an endemic leguminous shrub widespread in valleys of Tibet plateau in China. (hindawi.com)
- It was reported that the alkaloids from Sophora moorcroftiana is the potential active ingredient in this folk medicine [ 7 , 10 ]. (hindawi.com)
- In the present study, we not only investigated the therapeutic effect of the combinational treatment of Sophora moorcroftiana alkaloids and albendazole against echinococcosis in an experimental rats model, but also explored the underlying molecular mechanism of this strategy by proteomics. (hindawi.com)
Chathamica1
- Sophora chathamica Cockayne Sophora coerulea Moench Sophora cuneifolia Steud. (wikipedia.org)
Secundiflora2
- unplaced) Sophora saxicola Proctor (Jamaica) Sophora secundiflora, a popular landscape plant, was reclassified to Dermatophyllum secundiflorum. (wikipedia.org)
- Sophora secundiflora (Ortega) Lag. (wildflower.org)
Godleyi1
- Sophora godleyi Heenan & de Lange Sophora grandiflora (Salisb. (wikipedia.org)
Davidii1
- Sophora davidii (Franch. (wikipedia.org)
Cassioides2
- Sophora bakeri Prain Sophora benthamii Steenis Sophora brachygyna C.Y. Ma Sophora cassioides (Phil. (wikipedia.org)
- Sophora cassioides (Phil. (nzor.org.nz)
Oligophylla1
- Sophora oligophylla Baker Sophora pendula Spach Sophora pentaphylla Desv. (wikipedia.org)
Oxymatrine1
- The main composition of alkaloids in the seed decoction includes oxymatrine, sophora, sophorine, and matrine, which was also used as an emetic, detoxicant, and antiphlogistic and in verminosis in traditional Chinese medicine [ 7 , 8 ]. (hindawi.com)
Benth1
- kronei (Hance) C.Y.Ma Sophora franchetiana Dunn Sophora fraseri Benth. (wikipedia.org)
Heenan1
- Sophora molloyi Heenan & de Lange Sophora molokaiensis O. Degener & I. Degener Sophora mutabilis Salisb. (wikipedia.org)
Shen2
- Substancja zwana matrine w korzeniu Sophora (Ku Shen) obniżała deminilizację mózgu oraz uszkodzenia aksonów. (zdrowiebeztajemnic.pl)
- Sophora root is used in traditional Chinese medicine where it is known as "Ku Shen" and is used to treat dysentery, scabies, itchy rashes such as with eczema, skin lesions, jaundice, edema, urinary dysfunction, and vaginal discharge. (medscape.com)
Salisb1
- Skeels Sophora donihuensis Ravenna Sophora genistaefolia Salisb. (wikipedia.org)
Primadonna3
- Sophora er en sprek serie fra Primadonna. (netty.no)
- The PrimaDonna Sophora collection offers a timeless design and unsurpassed figure-shaping. (lineaintima.com)
- Primadonna Sophora collection, featuring the Deep Plunge Balcony bra. (braforme.com)
GmbH1
- Sophora Unternehmerkapital GmbH („Sophora") is a long-term investor, that is well aware of its environmental, social and governance (ESG) duties towards stakeholders. (sophora.de)
Baker1
- ex Baker Sophora nuttalliana B.L. Turner Sophora oblongata P.C.Tsoong Sophora pachycarpa Schrenk ex C.A.Mey. (wikipedia.org)
Oliv1
- Sophora howinsula (W.R.B. Oliv. (wikipedia.org)
Yakovlev1
- Yakovlev Sophora rhynchocarpa Griseb. (wikipedia.org)
Styphnolobium2
- Styphnolobium has galactomannans as seed polysaccharide reserve, in contrast Sophora contains arabinogalactans, and Dermatophyllum amylose. (wikipedia.org)
- Styphnolobium japonicum Schott) árbol deciduo de fuste erecto, con semejanza a la Robinia originaria de China y de Japón, introducida en Europa hacia el siglo XVIII, crece lentamente de 5 a 20 m de altura, porte elegante, tronco con corteza arrugada según líneas tortuosas, ramas de ejemplares más jóvenes, son verde-brillante, las hojas pinnatas compuestas de … Sophora japnica wird unter vielen deutschen Namen geführt. (danimgroup.com)
Medicinal1
- Especie de Sophora utilizada habitualmente como planta medicinal que es la principal fuente de los alcaloides quinolizidínicos MATRINAS. (bvsalud.org)
Phil2
- Skeels Sophora denudata Bory Sophora dunii Craib Sophora exigua Craib Sophora fernandeziana (Phil. (wikipedia.org)
- mayo or mayú (Chile) Sophora mangarevaensis H.St.John (French Polynesia) Sophora masafuerana (Phil. (wikipedia.org)
Lingerie1
- Lingerie Valentijn staat je met raad en daad bij! (lingerie-valentijn.be)
Code2
- As a registered AIFM within the meaning of the German Capital Investment Code (KAGB), Sophora does not have a remuneration guideline (remuneration policy) in accordance with the requirements of the KAGB. (sophora.de)
- 1 carte à code à échanger en ligne. (pokecards.fr)
Image1
- For writing IPTC meta data into JPGs the module Sophora Image Service is required. (subshell.com)
Tree1
- català: Acàcia del Japó čeština: Jerlín japonský dansk: Pagodetræ Deutsch: Japanischer Schnurbaum English: Pagoda Tree español: Falsa acacia del Japón suomi: Japaninpagodipuu français: Sophora du Japon magyar: Közönséges pagodafa, japánakác italiano: Sofora del giappone 日本語: エンジュ 한국어: 회화나무 Nederlands: Honingboom It is a medium to large deciduous tree that typically matures to 50-75' (less frequently to 100') tall with a broad rounded crown. (danimgroup.com)