The stem bark of Anthocleista grandiflora (Gentianaceae) has yielded five triterpenoids, baruol, 3-deacetylmongolenin, anthocleistone, 6-ketoanthocleistone and lupenone together with scopoletin and (+)-de-O-methyllasiodiplodin. 3-Deacetyl-mongolenin was isolated from the leaves while the root bark yielded, in addition to the above compounds, the secoiridoid, sweroside.
LeeuwenbergAJM. (1992) Anthocleista grandiflora. Flowering Plants of Africa, 52, t. 2080.
2.
PalmerE, PitmanN. (1972) Trees of southern Africa. Volume3, AA. Balkema, Cape Town, pp. 1845–1847.
3.
GithensTS. (1949) Drug plants of Africa. African Handbooks: 8. University of Pennsylvania Press, Philadelphia, USA, p. 78.
4.
WattJM, Breyer-BrandwijkMG. (1962) The medicinal and poisonous plants of southern and eastern Africa.E. & S. Livingstone Ltd., Edinburgh and London, p. 727.
5.
MabogoDEN. (1990) The ethnobotany of the Vhavenda. Unpublished M.Sc thesis. University of Pretoria, p. 96.
6.
NeuwingerHD. (2000) African traditional medicine. A dictionary of plant use and applications. Medpharm Scientific Publishers, Stuttgart, p. 47.
7.
EloffJN. (1998) The presence of antibacterial compounds in Anthocleista grandiflora. South African Journal of Botany, 64, 209–212.
8.
BacklundM, OxelmanB, BremerB. (2000) Phylogenetic relationships within the Gentianales based on ndhF and rbcL sequences, with particular reference to the Loganiaceae. American Journal of Botany, 87, 1029–1043.
9.
ChapelleJP. (1976) Grandifloroside and methyl grandifloroside, secoiridoid glucosides from Anthocleista grandiflora. Phytochemistry, 15, 1305–1307.
10.
NunezMJ, LopezMR, JimenezIA, MoujirLM, RaveloAG, BazzocchiIL. (2004) First examples of tetracyclic triterpenoids with a D:B-friedobaccharane skeleton. A tentative biosynthetic route. Tetrahedron Letters, 45, 7367–7370.
11.
HishamA, KumarGJ, FujimotoY, HaraN. (1995) Salacianone and salacianol: two triterpenes from Salacia beddomei. Phytochemistry, 40, 1227–1231.
MaWG, FuzzatiN, WolfenderJL, HostettmannK, YangCR. (1994) Rhodenthoside A, a new type of acylated secoiridoids glycosides from Gentiana rhodentha. Helvetica Chimica Acta, 77, 1660–1671.
14.
MulhollandDA, NairJJ. (1994) Triterpenoids from Dysoxylum pettigrewianum. Phytochemistry, 37, 1409–1411.
15.
MahatoSB, KunduAP. (1994) 13C NMR spectra of pentacyclic triterpenoids: A compilation and some salient features. Phytochemistry, 37, 1517–1575.
16.
KhanMR, NkunyaMHH, WeversH. (1979) Pentacyclic triterpenoids from leaves of Diospyros species, Pakistan Journal of Industrial Research, 22, 301–304.
17.
HuJF, HeWY, KongM, JiaZJ, FengXZ. (2000) Mongolenin: a new triterpene from Artemisia mongolica. Natural Product Letters, 14, 211–215.
