The milkweed plant family of the order Gentianales, subclass Asteridae, class Magnoliopsida. It includes many tropical herbs and shrubby climbers; most with milky juice. Flowers have five united petals. Fruits are podlike, usually with tufted seeds.
A plant species of the genus GYMNEMA that contains gymnemic acid (triterpene SAPONINS) which affects blood sugar level, and gurmarin protein. The common name of Gurmar should not be confused with Guar (CYAMOPSIS).
A plant genus of the family ASCLEPIADACEAE. This is the true milkweed; APOCYNUM & EUPHORBIA hirta are rarely called milkweed. Asclepias asthmatica has been changed to TYLOPHORA.
A plant genus of the family ASCLEPIADACEAE. The downy akund floss fiber from the seeds is used like kapok.
Saturated derivatives of the steroid pregnane. The 5-beta series includes PROGESTERONE and related hormones; the 5-alpha series includes forms generally excreted in the urine.
Any compound that contains a constituent sugar, in which the hydroxyl group attached to the first carbon is substituted by an alcoholic, phenolic, or other group. They are named specifically for the sugar contained, such as glucoside (glucose), pentoside (pentose), fructoside (fructose), etc. Upon hydrolysis, a sugar and nonsugar component (aglycone) are formed. (From Dorland, 28th ed; From Miall's Dictionary of Chemistry, 5th ed)

Effect of culture conditions on the biosynthesis of gagaminine, a potent antioxidant from the roots of Cynanchum wilfordii. (1/18)

Gagaminine, a steroidal alkaloid isolated from the roots of Cynanchum wilfordii, exhibited potent inhibitory effects on the aldehyde oxidase activity and lipid peroxidation. To find a possible means of mass production of this active component, which will be useful for animal tests, we synthesized it by an in vitro culture method using various growth conditions. Calli were induced from the explants of this medicinal plant and cultivated under culture conditions which varied in light, and the kinds and concentration of plant growth regulators. The production of gagaminine was found to be significantly higher in the dark than in the light. The best gagaminine content (0.960%) was obtained after cultivation of stems on the medium containing 2,4-dichlorophenoxyacetic acid (2,4-D, 2.0 mg/l) only. However, gagaminine was not detected by the mixture of 2,4-D and kinetin, while the mixtures of 2,4-D/zeatin and 2,4-D/6-benzylaminopurine produced a low content of gagaminine (<0.4%). In addition, suspension medium was much better for the formation of gagaminine than solid medium with an increase from 0.960 to 2.227% yield. These results suggest that gagaminine can be produced massively by in vitro culture using stems under the conditions of dark and 2,4-D on liquid medium.  (+info)

New pregnane glycosides from Cynanchum ascyrifolium. (2/18)

Two new pregnane glycosides, cynascyrosides D and E, were isolated from the roots of Cynanchum ascyrifolium. The structures of these compounds were determined on the basis of spectroscopic and chemical evidence as cynajapogenin A 3-O-alpha-L-cymaropyranosyl-(1-->4)-beta-D-digitoxopyranosyl-(1-->4)-beta-L-cymar opyranoside and cynajapogenin A 3-O-beta-D-glucopyranosyl-(1-->4)-alpha-L-diginopyranosyl-(1-->4)-beta-L-cymaropy ranosyl-(1-->4)-beta-D-digitoxopyranoside.  (+info)

The effect of Gongronema latifolium extracts on serum lipid profile and oxidative stress in hepatocytes of diabetic rats. (3/18)

Diabetes is known to involve oxidative stress and changes in lipid metabolism. Many secondary plant metabolites have been shown to possess antioxidant activities, improving the effects of oxidative stress on diabetes. This study evaluated the effects of extracts from Gongronema latifolium leaves on antioxidant enzymes and lipid profile in a rat model of non insulin dependent diabetes mellitus (NIDDM). The results confirmed that the untreated diabetic rats were subjected to oxidative stress as indicated by significantly abnormal activities of their scavenging enzymes (low superoxide dismutase and glutathione peroxide activities), compared to treated diabetic rats, and in the extent of lipid peroxidation (high malondialdehyde levels) present in the hepatocytes. The ethanolic extract of G. latifolium leaves possessed antioxidant activity as shown by increased superoxide dismutase and glutathione peroxidase activities and decreases in malondialdehyde levels. High levels of triglycerides and total cholesterol, which are typical of the diabetic condition, were also found in our rat models of diabetes. The ethanolic extract also significantly decreased triglyceride levels and normalized total cholesterol concentration.  (+info)

New triterpenoid saponins from Stelmatocrypton khasianum. (4/18)

Four new triterpenoid saponins, designated as stelmatotriterpenosides E-H (1-4), together with three known compounds, asterbatanoside B (5), 2alpha,3beta,19alpha,23-tetrahydroxy-olean-12-en-28-oic acid-3-O-beta-D-glucopyranosyl-28-O-beta-D-glucopyranosyl ester (6) and 2alpha,3beta,19alpha,23-tetrahydroxy-urs-12-en-28-oic acid-3-O-beta-D-glucopyranosyl-28-O-beta-D-glucopyranosyl ester (7), were isolated from the stems of Stelmatocrypton khasianum. On the basis of chemical and spectral evidence, the structures of 1-4 were established as 2alpha,3beta,23-trihydroxy-olean-12-en-28-oic acid-3-O-beta-D-glucopyranosyl-28-O-beta-D-glucopyranosyl-(1-->6)-beta-D-glucopyr anosyl ester (1), 2alpha,3beta,23-trihydroxy-urs-12-en-28-oic acid-3-O-beta-D-glucopyranosyl-28-O-beta-D-glucopyranosyl-(1-->6)-beta-D-glucopyr anosyl ester (2), 2alpha,3beta,19alpha-trihydroxy-urs-12-en-28-oic acid-3-O-beta-D-glucopyranosyl-28-O-beta-D-glucopyranosyl-(1-->2)-beta-D-glucopyr anosyl ester (3), and 2beta,3beta,19alpha-trihydroxy-urs-12-en-24,28-dioic acid-24-O-beta-D-glucopyranosyl-28-O-beta-D-glucopyranosyl diester (4).  (+info)

Acylated-oxypregnane glycosides from the roots of Araujia sericifera. (5/18)

Twenty-three new acylated-oxypregnane glycosides were obtained from the roots of Araujia sericifera. (Asclepiadaceae). These glycosides were confirmed to be tetraglycosides possessing twelve known compounds, 12-O-benzoyllineolon, 12-O-benzoyldeacylmetaplexigenin, ikemagenin, kidjolanin, cynanchogenin, caudatin, rostratamine, penupogenin, 12-O-benzoylisolineolon, 12-O-tigloyldecylmetaplexigenin (incisagenin), 12-O-benzoyl-20-O-acetylsarcostin, 20-O-benzoyl-12-O-(E)-cinnamoyl-3 beta,5 alpha,8 beta,12 beta,14 beta,17 beta,20-heptahydroxy-(20S)-pregn-6-ene and ten new acylated-oxypregnanes, 12-O-benzoyl-20S-hydroxyisolineolon, 12-O-tigloyllineolon, 12-O-salicyloyllineolon, 12-O-salicyloyldeacylmetplexigenin, 12-O-benzoyl-3 beta,5 alpha,8 beta,12 beta,14 beta,17 beta-hexahydroxypregn-6-en-20-one, 12-O-benzoyl-19-benzoyloxydeacylmetapleligenin, 12-O-benzoyl-19-benzoyloxy-20-O-acetylsarcostin, 12-O-benzoyl-19-salicyloyloxy-20-O-acetylsarcostin, 12-O-benzoyl-5 alpha,6 alpha-epoxydeacylmetaplexigenin, and 12-O-benzoyl-5 alpha,6 alpha-epoxylineolon as their aglycones, using both spectroscopic and chemical methods.  (+info)

Antiproliferative activity of cardenolides isolated from Streptocaulon juventas. (6/18)

Sixteen cardenolides, two hemiterpenoids, two phenylpropanoids and a phenylethanoid isolated from the roots of Streptocaulon juventas (LOUR.) MERR. were examined for their antiproliferative activity toward three human-derived (HT-1080 fibrosarcoma, lung A549 adenocarcinoma, cervix HeLa adenocarcinoma) and three murine-derived (colon 26-L5 carcinoma, Lewis lung carcinoma, B16-BL6 melanoma) cell lines. The cardenolides selectively and strongly inhibited proliferation of the HT-1080 (IC(50) values, 0.054-1.6 microM) and A549 (IC(50), 0.016-0.65 microM) cell lines. The characteristic morphological changes and ladder-like DNA fragmentation in those cells treated with the cardenolides indicated the antiproliferative activity was due to the induction of apoptosis.  (+info)

Variation in the mating system of Vincetoxicum hirundinaria (Asclepiadaceae) in peripherial island populations. (7/18)

BACKGROUND AND AIMS: Self-fertility may be selected for in small and isolated plant populations of normally outcrossing species. In addition, adaptations for self-fertility are likely to arise in island populations and in populations that are located at the border of the species range. The mating system of Vincetoxicum hirundinaria (Asclepiadaceae) is examined in island populations that are located at the northern border of the species range. METHODS: Pollination experiments were conducted under glasshouse conditions with plants from four populations. KEY RESULTS: The frequencies of self-fertile individuals were relatively high and did not differ among populations. Cross-pollination resulted in higher fruit set than self-pollination. However, fruit-set from self-pollination and cross-pollination did not differ in the self-fertile individuals. Interestingly, the proportion of aborted fruits was on average higher following cross-pollination than following self-pollination. No differences were observed in seed number or seed mass between self- and cross-pollinated fruits. Pollen tube growth following self- and cross-pollinations was indistinguishable. CONCLUSIONS: The results of this study revealed that V. hirundinaria possess a mixed-mating system in the studied island populations. Evidence was also provided for a late-acting self-incompatibility system commonly observed in Asclepiadaceae. No clear signs of inbreeding depression were observed in the early stages of development.  (+info)

Triterpenoids from swallow roots--a convenient HPLC method for separation. (8/18)

A convenient semi-preparative high-performance liquid chromatography (HPLC) method for separating a mixture of triterpenoids (alpha-amyrin, beta-amyrin, and lupeol) and their corresponding acetates from the swallow roots (Decalepis hamiltonii Wight and Arn), which are known to have potential bioactive properties, is described. The swallow roots are found to be one of the richest natural sources for these compounds. The hexane extract of the dried spent root on column chromatography yields mixtures (i.e., triterpenoids and their acetates) containing at least three compounds in each. These could not be further separated using the routine chromatographic techniques, such as classical column chromatography and preparative thin-layer chromatography using various solvent systems. Therefore, the optimal conditions are determined on reversed-phase HPLC for their separation and are characterized using spectral data, particularly by nuclear magnetic resonance with physical and chemical properties.  (+info)

Asclepiadaceae is a former family of flowering plants that is now considered to be part of the larger family Apocynaceae. It was named after Asclepius, the Greek god of medicine and healing, due to the medicinal properties of some of its members. The plants in this family are primarily tropical or subtropical vines, shrubs, and trees that have milky sap and opposite leaves. They are known for their unique flower structure, which includes a corona of fleshy, modified stamens surrounding the central reproductive structures. Some examples of plants that were once classified in Asclepiadaceae include milkweeds (Asclepias spp.), periwinkles (Catharanthus roseus), and mandevillas (Mandevilla spp.).

Gymnema sylvestre is not a medical term, but rather the name of a plant species native to the tropical forests of India and Africa. This woody climbing shrub has been used in traditional medicine for centuries, particularly in Indian Ayurvedic medicine.

In a medical context, Gymnema sylvestre is often referred to as a herbal supplement or botanical medicine. Its leaves contain compounds such as gymnemic acids, which are believed to have various health benefits. Some of the potential medicinal uses of Gymnema sylvestre include:

* Lowering blood sugar levels in people with diabetes
* Reducing inflammation and pain
* Helping with weight loss by suppressing appetite
* Lowering cholesterol and triglyceride levels

However, it's important to note that while some small studies have suggested that Gymnema sylvestre may have health benefits, more research is needed to confirm these effects and establish safe and effective dosages. As with any supplement or herbal medicine, it's important to talk to your healthcare provider before taking Gymnema sylvestre to ensure that it's safe for you and won't interact with any medications you may be taking.

"Asclepias" is a genus of plants in the dogbane family (Apocynaceae). It includes several species commonly known as milkweeds. These plants are native to North America and are known for their milky sap and clusters of pink, yellow, or white flowers. Some species of Asclepias are important host plants for the monarch butterfly, which lays its eggs on the leaves and uses the sap to fuel its migration.

'Calotropis' is a genus of flowering plants in the family Apocynaceae, also known as milkweeds or crownflowers. There are two main species within this genus: Calotropis procera and Calotropis gigantea. These plants are native to tropical and subtropical regions of Africa, Asia, and Australia. They have large, showy flowers and produce a milky sap that contains latex. Some parts of these plants, such as the roots and leaves, have been used in traditional medicine for various purposes, including treating skin conditions, inflammation, and pain. However, it is important to note that all parts of Calotropis plants contain toxic compounds and can cause serious side effects if ingested or applied improperly. Therefore, they should only be used under the guidance of a qualified healthcare professional.

Pregnanes are a class of steroid hormones and steroids that contain a pregnane nucleus, which is a steroid core with a carbon skeleton consisting of 21 carbons. This structure includes four fused rings, labeled A through D, and is derived from cholesterol.

Pregnanes are important precursors for the synthesis of various steroid hormones in the body, including progesterone, which plays a crucial role in maintaining pregnancy and regulating the menstrual cycle. Other examples of pregnanes include cortisol, a stress hormone produced by the adrenal gland, and aldosterone, a hormone that helps regulate electrolyte balance and blood pressure.

It's worth noting that pregnanes can also refer to synthetic compounds that contain this steroid nucleus and are used in various medical and research contexts.

Glycosides are organic compounds that consist of a glycone (a sugar component) linked to a non-sugar component, known as an aglycone, via a glycosidic bond. They can be found in various plants, microorganisms, and some animals. Depending on the nature of the aglycone, glycosides can be classified into different types, such as anthraquinone glycosides, cardiac glycosides, and saponin glycosides.

These compounds have diverse biological activities and pharmacological effects. For instance:

* Cardiac glycosides, like digoxin and digitoxin, are used in the treatment of heart failure and certain cardiac arrhythmias due to their positive inotropic (contractility-enhancing) and negative chronotropic (heart rate-slowing) effects on the heart.
* Saponin glycosides have potent detergent properties and can cause hemolysis (rupture of red blood cells). They are used in various industries, including cosmetics and food processing, and have potential applications in drug delivery systems.
* Some glycosides, like amygdalin found in apricot kernels and bitter almonds, can release cyanide upon hydrolysis, making them potentially toxic.

It is important to note that while some glycosides have therapeutic uses, others can be harmful or even lethal if ingested or otherwise introduced into the body in large quantities.

This is a list of diseases of foliage plants belonging to the family Asclepiadaceae. Common Names of Diseases, The American ...
Asclepiadaceae). Annals of the Missouri Botanical Garden 37(4): 477-560 The Plant List, genus Philibertia Wikimedia Commons has ... Asclepiadaceae neotropicales nuevas o poco conocidas. Acta Botanica Venezuelica 20(2): 11-23. Serrano, M. & J. Terán. 1998 [ ...
Asclepiadaceae). Annals of the Missouri Botanical Garden 37(4): 477-560 The Plant List, genus Pentacyphus v t e (Articles with ... Asclepiadaceae andinas nuevas o interesantes. Acta Botanica Venezuelica 16(2/4): 55-71. Holm, R. W. 1950. The American species ... nov., y otras novedades o aportaciones en Asclepiadaceae andinas. Anales del Jardín Botánico de Madrid 52(1): 33-41 Morillo, G ...
Asclepiadaceae. Cat. Pl. Madag., Asclep. 1(9): 5-24. Catalogue des Plantes de Madagascar, Asclepiadeae. The Plant List, genus ... Recircumscription of the Stapelieae (Asclepiadaceae). Taxon 40(3): 381-391 Gibbs Russell, G. E., W. G. M. Welman, E. Retief, K ...
Asclepiadaceae. 13(8): 116-175. In A. L. Cabrera (ed.) Flora de la provincia de Jujuy . Instituto Nacional de Tecnología ...
Asclepiadaceae. 13(8): 116-175. In A. L. Cabrera (ed.) Flora de la provincia de Jujuy. Instituto Nacional de Tecnología ... Asclepiadaceae, Convolvulaceae, Bignoniaceae, Campanulaceae in A. Cabrera. 4(5): 6-12; 298-302. In A. L. Cabrera (ed.) Flora de ...
Asclepiadaceae. Catalogue des Plantes de Madagascar, Asclepiadaceae 1(9): 5-24. Choux, P. 1926. Le genre Secamone a Madagascar ... Asclepiadaceae) in the Madagascar Region. Opera Botanica 112: 1-127. Gibbs Russell, G. E., W. G. M. Welman, E. Retief, K. L. ...
Asclepiadaceae. Catalogue des Plantes de Madagascar, Asclepiadaceae 1(9): 5-24. The Plant List (Articles with short description ...
Klackenberg, Jens (1998). "Taxonomy and phylogeny of the genus Camtocarpus s.l. (Periplocoideae, Asclepiadaceae)". Botanische ...
"Asclepiadaceae: Huernia". succulent-plant.com. Retrieved 2019-08-13. Justus van Heurne P. Bruyns, C. Klak, P. Hanacek: ...
Schlechter, R. (1895). "Asclepiadaceae Elliotianae". Journal of Botany, British and Foreign (in Latin and English). 33: 302-303 ...
Asclepiadaceae. 5: 103-147. In A. E. Burkart (ed.) Flora Ilustrada de Entre Ríos (Argentina). Instituto Nacional de Tecnología ... Asclepiadaceae, Convolvulaceae, Bignoniaceae, Campanulaceae in A. Cabrera. 4(5): 6-12; 298-302. In A. L. Cabrera (ed.) Flora de ...
Schlechter, R. (1905). "Asclepiadaceae africanae". Botanische Jahrbücher für Systematik, Pflanzengeschichte und ...
Asclepiadaceae. 5: 103-147. In A. E. Burkart (ed.) Flora Ilustrada de Entre Ríos (Argentina). Instituto Nacional de Tecnología ... Revisión taxonómica del género Tweedia (Asclepiadaceae). Parodiana 5(2): 382. Liede-Schumann, Sigrid; Meve, Ulrich (2006). "The ... Asclepiadaceae, Convolvulaceae, Bignoniaceae, Campanulaceae in A. Cabrera. 4(5): 6-12; 298-302. In A. L. Cabrera (ed.) Flora de ...
Asclepiadaceae, Milkweed Family. Journal of the Arizona-Nevada Academy of Science 27:169-187. Shinners, L.H. Sida 1(6): 365. ...
5: Asclepiadaceae (1. ed., corr. 2. print. ed.). Berlin Heidelberg: Springer. ISBN 978-3-642-56370-6. Smith, Gideon (2017). ...
Asclepiadaceae, Milkweed Family. Journal of the Arizona-Nevada Academy of Science 27:169-187. "Asclepias viridiflora". Native ...
Tylophora) species (Asclepiadaceae). After about 14 days and five instars the caterpillars pupate, anchoring themselves to the ...
Asclepiadaceae (milkweed plants) . Eugen Ulmer, Stuttgart 2002, ISBN 3-8001-3982-0 , p 150 "Hoya carnosa - Wax Plant, ... Asclepiadaceae". Plant of The Week. University of Oklahoma Department of Microbiology & Plant Biology. May 1999. Archived from ...
"Leptadenia pyrotechnica (Forssk.) Dec'ne [family ASCLEPIADACEAE]". Steinsaltz, Adin (1998). Talmud Bavli - Yoma. Jerusalem, ...
Asclepiadaceae, Milkweed Family. Journal of the Arizona-Nevada Academy of Science 27:169-187. Altervista Flora of USA and ...
Asclepiadaceae) (MSc thesis). Grahamstown, South Africa: Rhodes University. Retrieved 28 Jul 2023. Bruyns, P. V. (2014). The ...
Asclepiadaceae: Tylophora cordata (Thunb.) Fourc. Asphodelaceae: Bulbine altissima (Mill.) Fourc. Asteraceae: Aster corymbosus ...
"Studies in the Asclepiadaceae-VIII. A New Species of Asclepias from Kansas and Two Possible Hybrids from New York." Bulletin of ... "Studies in the Asclepiadaceae.-II." Bulletin of the Torrey Botanical Club, vol. 25, no. 1, 1898, pp. 30-39. Vail, Anna Murray ... "Studies in the Asclepiadaceae-VI. Notes on the Genus Rouliniella." Bulletin of the Torrey Botanical Club, vol. 29, no. 12, 1902 ... "Studies in the Asclepiadaceae-VII. A New Species of Vincetoxicum from Alabama." Bulletin of the Torrey Botanical Club, vol. 30 ...
against Stephanotis Thouars (Asclepiadaceae). Taxon 39 ( 2): 364-367 (1991) A taxonomic revision of Cynanchum L. ( ... Asclepiadaceae: Periplocoideae) in Australia. Australian systematic botany 4 (1992) A taxonomic revision of Alstonia ( ... P I Forster (October 1989). "New host records (family Asclepiadaceae) for 'Euploea core corinna' (W.S. Macleay) (Lepidoptera: ... Paul I Forster; Geoff Martin (December 1990). "Host records (family Asclepiadaceae) and distribution of 'Tirumala hamata hamata ...
461 1810 : Family: ASCLEPIADACEAE". Llifle.com. Retrieved 2017-07-20. "World Checklist of Selected Plant Families: Royal ...
Woodson, Robert E. (1941). "The North American Asclepiadaceae. I. Perspective of the Genera". Annals of the Missouri Botanical ...
Asclepiadaceae) Funastrum fendleri Schltr. (Asteraceae) Heteropleura fendleri (Sch.Bip.) Rydb. (Blechnaceae) Spicanta fendleri ...
Woodson, Robert E. (1941). "The North American Asclepiadaceae. I. Perspective of the Genera". Annals of the Missouri Botanical ...
Fragmenta Phytographiæ Australiæ 1: 128 in Latin Karen Wilson (23 December 1980). "The genus Rhyncharrhena (Asclepiadaceae)". ...
This is a list of diseases of foliage plants belonging to the family Asclepiadaceae. Common Names of Diseases, The American ...
Browse Results For Family: Apocynaceae (Asclepiadaceae) ...
... (Apocynales); [FFP], #235 *Asclepiadaceae (Gentianales); [RK], #77; [GNSP] *Asclepiadaceae (Contortae); [GMB], # ...
Medicinally important climber with simple opposite leaves.Flowers in axillary.Plant shows presence of ...
Asclepiadaceae (Milkweed Family). USDA Symbol: ASSP. Image Information. Photographer: Hixson, John. City: Great Falls. County: ...
Asclepiadaceae (Milkweed Family). USDA Symbol: ASASC. Image Information. Photographer: Richardson, Charmaine. City: Cedar ...
The Indiana Plants Atlas is a source of data for the distribution of plants within the state as well as taxonomic, conservation, invasive, and wetland information for each species. The website also provides access to a database and images of plants photos and herbarium specimens found at participating herbaria.
to Tylophora (Asclepiadaceae). Together they form a unique fingerprint. * Apocynaceae Agricultural and Biological Sciences 100 ... to Tylophora (Asclepiadaceae). / Yamashiro, Tadashi; Tateishi, Yoichi; Denda, Tetsuo et al. In: Journal of Japanese Botany, Vol ... to Tylophora (Asclepiadaceae). In: Journal of Japanese Botany. 2003 ; Vol. 78, No. 6. pp. 349-354. ... to Tylophora (Asclepiadaceae)",. abstract = "We conducted a morphological re-examination of Vincetoxicum matsumurae (T.Yamaz.) ...
ASCLEPIADACEAE. * Caralluma burchardii N. E. Brown. * Ceropegia chrysantha Svent.. BORAGINACEAE. * Echium candicans L. fil. ...
Asclepiadaceae.. Flora of Australia. 28. : 225, Fig. 108O-P, Map 257. [secondary reference]. nomenclatural synonym:. ...
We acknowledge Aboriginal People and Torres Strait Islander People as the first inhabitants of the nation, and acknowledge Traditional Custodians of the Australian lands where our staff and students live, learn and work. Aboriginal and Torres Strait Islander peoples are advised that this site may contain names, images or voices of people who have passed away. ...
The medium to light green narrow elongated canoe-shaped foliage, sometimes with a bluish tinge, is often edged with a narrow dark purple to black line and adorns the lax stems from which the flattened, hanging clusters of dark maroon rounded flowers are produced in late spring and summer. Hoya wayetii is
Oxystelma esculentum (Asclepiadaceae). Dudhi or Dudhia Lata. Leaves, petiole, stem, roots, and rhizomes. Anti-ulcer, diuretic, ...
Asclepiadaceae USDA hardiness 7-9 Known Hazards Although no specific reports have been seen for this species, many, if not all ...
Circumscription of Marsdenia (Asclepiadaceae: Marsdenieae), with a revision of the genus in Australia and Papuasia.. Australian ...
Asclepiadaceae): structures of gymnemosides a and b. Chem.Pharm Bull.(Tokyo) 1997;45:1671-1676. View abstract. ...
The entire former milkweed family (Asclepiadaceae) has recently been rolled into the dogbane family (Apocynaceae). For many ...
Asclepiadaceae paraguayenses a D:re E. Hassler collectae. (Stockholm : Kungl. Boktryckeriet. P.A. Nordstedt & Söner, 1901., ...
Asclepiadaceae. Nomenclatural Notes. [epublished]. Remarks. doi:10.1016/j.sajb.2017.06.021. Links. Basionym. Trichocaulon ...
Key words: Asclepiadaceae, Hoya, Thailand, new species.. โฮย่าบาลา Hoya balaensis อยู่ในวงศ์ Asclepiadaceae สำรวจพบโดย ดร.มานิต ... Botany • 2007] โฮย่าบาลา , Hoya balaensis • A New Species of Hoya (Asclepiadaceae) from Southern Thailand ... A New Species of Hoya (Asclepiadaceae)
Asclepiadaceae. Milkweed Family. 35 Hoya carnosa. Wax Flower. *P. - 36 Sarcostemma cynanchoides ssp. hartwegii. Milkvine. P. 3- ...
Family: Asclepiadaceae Size: Height: 0 ft. to 3 ft.. Width: 0 ft. to 1 ft. Plant Category: perennials, Plant Characteristics: ...
Asclepiadaceae. Type Information. Distribution Of Types. San Jose Island, Panama (Central America, Southern America). Links. ...
ASCLEPIADACEAE. MILKWEED, SILKWEED. Some of the most striking of our N. American wildflowers, they are showy summer and ...
  • This is a list of diseases of foliage plants belonging to the family Asclepiadaceae. (wikipedia.org)
  • Common milkweed is a member of the Asclepiadaceae (milkweed) family. (usda.gov)
  • The typical whorl of structures between the corolla and stamens in Asclepiadaceae family. (cactus-art.biz)
  • 9. Yadav, S.R., Sardesai M.M. and S.P. Gaikwad (2003) A new species of genus Ceropegia (Asclepiadaceae) from India. (google.com)
  • Taxonomic Relationships and Status of the Genus Dorystephania (Asclepiadaceae: Marsdenieae) from the Phillipines and Borneo. (wikimedia.org)
  • Cynanchum elegans, Forster, P.I. (27 September 1991), A taxonomic revision of Cynanchum L. (Asclepiadaceae: Asclepiadoideae) in Australia. (biodiversity.org.au)
  • The unique and complex structures of corona and gynostegium are very elaborated and dissimilar in various genera and they are the most important factor for Asclepiadaceae classification. (cactus-art.biz)
  • We propose below direct links to the Agavaceae (10 pages), Aizoaceae (6 pages), Asclepiadaceae (88 pages), Bromeliaceae (137 pages) and Cactaceae (142 pages) fascicles. (cactuspro.com)
  • 15. Sardesai, M.M., Gaikwad S.P. and M.Y. Kamble (2006) Note on distribution status, & ex-situ conservation of Bidaria khandalensis (Asclepiadaceae). (google.com)
  • The entire former milkweed family (Asclepiadaceae) has recently been rolled into the dogbane family (Apocynaceae). (mo.gov)
  • Marsdenia fraseri, Forster, P.I. (25 October 1995), Circumscription of Marsdenia (Asclepiadaceae: Marsdenieae), with a revision of the genus in Australia and Papuasia. (biodiversity.org.au)
  • Vail's own botanical interests focused on the Leguminosae and Asclepiadaceae families and the Psoralea and Galactia genera. (nybg.org)