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Seed germination of pineapple lily (Eucomis autumnalis subspecies) and effect of fertigation frequency and growing medium on plant growth and anti-inflammatory activityKuhn, Elza. January 2006 (has links)
Thesis M.Sc.)(Horticulture)--University of Pretoria, 2006. / Includes summary. Includes bibliographical references. Available on the Internet via the World Wide Web.
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Extractives from the Hyacinthaceae.Koorbanally, Chantal. January 2000 (has links)
Four species belonging to the Hyacinthaceae family were investigated. The taxonomy of the Hyacinthaceae is currently under review and therefore compounds isolated from these plants could provide valuable chemical evidence which taxonomists could find very useful. The bulbs of the species investigated have been reported to have widespread uses in traditional African medicine, being used by different local tribes to treat a variety of ailments ranging from use as a soothing medicine for pregnant women to their being used as an ethnoveterinary medicine. The bulbs of Ledebouria cooperi are
specifically used as an anti-inflammatory agent during circumcision ceremonies. The bulbs investigated were found to contain homoisoflavonoids, a class of compounds known to be specifically responsible for the anti-inflammatory properties of these plants when used by traditional healers. The bulbs of L. cooperi were found to contain two known homoisoflavonoids as well as a triterpenoid. Malic acid was also isolated from the methanol extract. A further homoisoflavonoid of the 3-benzyl-4-chromanone type was isolated from Scilla plumbea. Drimiopsis maculata was found to be an abundant source of natural products from which two scillascillin-type
homoisoflavonoids as well as two aromatic compounds were isolated. Investigation into the fourth species, Drimia robusta, yielded an uncommon bufadienolide. As no spectroscopic information was available for this compound, the complete assignment of the compound was performed using 2-D NMR spectroscopy. / Thesis (M.Sc.)-University of Natal, Durban, 2000.
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Homoisoflavonids and stilbenoids from Scilla species.Bangani, Vuyisile. January 1998 (has links)
Bulbs of Scilla natalensis Planch, Scilla nervosa (Burch.) Jessop, Scilla dracomontana Hilliard and Burt and Scilla kraussii Bak. (Hyacinthaceae) were investigated. The plants are widely used by the local African people for a variety of ailments that inflict them and their livestock. Plant material was harvested in different localities i.e. KwaZulu-Natal (KZN) and Mpumalanga (Mpl). The bulbs have been found to contain homoisoflavonoids and stilbenoids. Ten homoisoflavonoids and two stilbenoids were isolated. Of the ten
homoisoflavonoids isolated, nine were of the 3-benzyl-4-chromanone type while one was a 3-benzylidene-4-chromanone. Four of the 3-benzyl-4-chromanones were found to be novel compounds while others were recognised as having been reported before from
other genera within the family Hyacinthaceae viz., Eucomis and Muscari. The 3-benzylidene-4-chromanone type compound isolated was also found to be a known compound. The stilbenoids, on the other hand, are reported for the first time in this genus although they seem to have a wide distribution in the plant kingdom. The structures of the isolated compounds were elucidated using spectroscopic methods. / Thesis (M.Sc.)-University of Natal, Durban, 1998.
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The chemical investigation of Ledebouria zebrina and Scilla natalensis.Moodley, Nivan. January 2001 (has links)
Ledebouria zebrina and Scilla natalensis Planch were the two species investigated in
this work. Ledebouria zebrina belongs to the Hyacinthaceae (Liliacea sensu lato) and to this
date, the chemical composition of this species has not been investigated. Members of this family are found in southern Africa. The Ledebouria genus was formerly classified as part of the Scilla genus from which a large member of naturally occuring oxygen heterocycles known as homoisoflavanones have been isolated. In this work the bulbs of L. zebrina were investigated and five compounds were isolated. Three compounds were of the homoisoflavanone type while the remaining two belong to the eucosterol type triterpernoids.
Scilla natalensis Planch also belongs to the Hyacinthaceae family. Previous chemical
investigations of the bulbs of this plant yield two homoisoflavanones of the 3-benzyl-4-
chromanone type. Members of this family are mostly found in the Eastern parts of the country, ranging from the Eastern Cape to Mpumalanga province including Lesotho and Swaziland. The bulbs of this plant were investigated and this yielded ten compounds. The structures of the isolated compounds were elucidated using spectroscopic methods. / Thesis (M.Sc.)-University of Natal, Durban, 2001.
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Extractives from eucomis montana and agapanthus inapertus.Pillay, Bavani. January 2003 (has links)
Two species belonging to different families were investigated, Eucomis montana from
the Hyacinthaceae and Agapanthus inapertus from the Agapanthaceae.
To date no previous chemical investigation on Eucomis montana has been reported.
Eucomis species are routinely harvested, processed and sold for the treatment of
various ailments ranging from toothache, gastro-intestinal ailments, pain-producing
ailments and venereal and urinary diseases. Members of the genus have shown to
contain steroidal compounds and homoisoflavonoids. In this work one
nortriterpenoid, a eucosterol type derivative and eleven homoisoflavonoids belonging
to four classes, the 3-benzyl-4-chromanone, the 3-benzyl-3-hydroxy-4-chromanone,
the 3-benzylidenyl-4-chromanone and the scillascillin type were found in the bulbs of
Eucomis montana.
Agapanthus species are also used by a number of African tribes medicinally. The
bulbs and rhizomes of this family have been reported to contain steroidal saponins
and sapogenins. In this work the roots of Agapanthus inapertus have been
investigated and a tignan precursor and a lignan have been found.
Structures of the compounds isolated were determined using spectroscopic
techniques. / Thesis (M.Sc.)-University of Natal, Durban 2003.
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A phytochemical investigation of members of the hyacinthaceae family and biological screening of homoisoflavanones and structurally related compounds.Du Toit, Karen. January 2004 (has links)
The Hyacinthaceae family is richly represented in southern Africa. Of the five subfamilies, three are found in southern Africa. These are the Urgineoideae (URG), Ornithogaloideae (ORN) and the Hyacinthoideae (HYA). The overview of Pfosser and Speta (1999), revealed chemotaxonomic trends at a subfamily level for the Hyacinthaceae family of the Flora of southern Africa region. Homoisoflavanones were found to define the Hyacinthoideae subfamily whilst the Ornithogaloideae subfamily and the Urgineoideae subfamily are defined by steroidal compounds namely, cholestane glycosides and bufadienolide glycosides respectively. Representatives of all three subfamilies were investigated phytochemically. From Eucomis comosa (HYA), five homoisoflavanones were isolated. Omithogalum tenuifolium (ORN) contained a spirostanol saponin of which the crystals were amenable to X-ray analysis. Evidence of a novel stereoisomer was obtained. Extraction of the bulbs of Galtonia princeps (ORN) led to the isolation of two cholestane glycosides, one known and one novel, and a homoisoflavanone. Two novel bufadienolides were isolated from Urginea Iydenburgensis (URG). Structures were elucidated on the basis of spectroscopic data and chemical evidences. Homoisoflavanones and related compounds were then screened for antibacterial and anti-inflammatory activity. Several compounds showed antibacterial activity against Staphylococcus aureus, a gram-positive bacteria. Inhibition of the inflammatory process in microsomal cells was first evaluated, followed by screening of specific inhibition of cyclooxygenase enzymes. These are membrane-associated enzymes occurring in different isoforms. High levels of anti-inflammatory activity were detected especially in microsomal cells. This biological information made it possible to rationalize the ethnomedicinal use of some of the plants from which the compounds were isolated. 15 Biological screening was followed by a computer-based quantitative structureactivity relationship (QSAR) study. This study produced five equations with significant prediction value of anti-inflammatory and antibacterial activity for homoisoflavanones and related compounds. The derived models also provided valuable parameter guidelines of those properties influencing the antiinflammatory and antimicrobial activity of the studied compounds. / Thesis (Ph.D.)-University of KwaZulu-Natal, Durban, 2004.
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The chemical investigation of the Amaryllidaceae and Hyacinthaceae.Moodley, Nivan. January 2004 (has links)
This work is an account of investigations into the chemistry of members of the Amaryllidaceae and Hyacinthaceae families.
The plants of the family Amaryllidaceae are a large group comprising over sixty genera and more than a thousand species. They are widely distributed, but are found more richly in the tropics, with a particularly high density in South Africa, with smaller centers of diversity in
Andean South America and the Mediterranean. Amaryllidaceae plants have been extensively used by local traditional healers and have been reported to have numerous pharmacological uses. The alkaloids isolated from this family are a group of isoquinoline alkaloids found exclusively in this family. Plants belonging to two Amaryllidaceae genera were investigated phytochemically, one from each of the sub-tribes Crinineae and Amaryllidineae were
investigated phytochemically. Brunsvigia natalensis is used in local traditional medicine to "straighten bones of children", treat barrenness in women and ease childbirth. This is the first
phytochemical investigation of Brunsvigia natalensis, and yielded two new alkaloids, a new ceramide type compound and a known flavanoid. A comparative phytochemical investigation was carried out on the bulbs and seeds of Crinum stuhlmanni, which resulted in a number of different alkaloids being isolated from the seeds and bulbs of this plant. The southern African Hyacinthaceae is a large and chemically morphologically diverse group of plants. This family comprises approximately sixty-seven genera and nine hundred species worldwide, of which twenty-seven genera and three hundred and sixty - eight species are found locally. There are five sub-families of which three occur in southern Africa. The chemical constituents of this family can be divided into four classes, namely homoisoflavanones, steroidal compounds, bufadienolides and miscellaneous compounds. These plants are used in local traditional medicine for treating ailments such as hangovers,
rheumatic fever, sprains and even cancer. The phytochemistry of three Hyacinthaceae plants was studied. The phytochemical investigation of Drimia macrocentra and Urginea riparia
yielded a novel bufadienolide glycoside. These glycosides are quite unusual with the glycone attached to the aglycone at C-2 and C-3 and this has only been reported only once before in this family. The phytochemical investigation of Ledebouria revoluta yielded a number of homoisoflavanones. These homoisoflavanones have been shown to have anti-inflammatory activity and all of the compounds isolated in this work have been screened for this activity. Structural elucidation was carried out using spectroscopic methods such as NMR, MS, UV
and IR. / Thesis (Ph.D.)-University of KwaZulu-Natal, Durban, 2004.
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Synthesis and biological activities of natural homoisoflavanones.Shaikh, Mahidansha Mahiboob. January 2011 (has links)
Plants have formed the foundation of traditional medicine systems throughout the world for
thousands of years and continue to provide mankind with new remedies for various ailments.
A large portion of the black South African population still depends on medicinal plants as
primary health care due to its affordability, accessibility and cultural importance. These
medicinal plants need to be investigated since new lead compounds are often found in nature.
Homoisoflavanones isolated from South African and Indian plants were found to exhibit anti inflammatory activities although the mechanism of action has not yet been determined. A
few reports on the anti fungal activities of these compounds were also found.
Four new and three known homoisoflavanones of the 3-benzylidene-4-chromanone type were
synthesized and tested for anti-inflammatory and antifungal activities. Two novel
intermediates were also synthesised. Enantiomers of a homoisoflavanone of the 3-benzyl-4-
chromanone types were also synthesized from the corresponding 3,5-dimethoxy phenol via 4-
chromanone in six steps. This is the first report of the synthesis of an enantiomerically pure
homoisoflavanone compound together with its opposite isomer. The enantiomers and
racemate were tested for anti-inflammatory activity. All the synthesized homoisoflavanones
were screened for cytotoxicity. The structures of these homoisoflavanones were elucidated
by NMR spectroscopy along with HRMS data. The crystal structure of a homoisoflavanone
with anti-inflammatory and antifungal activity is reported.
The anti-inflammatory activity of the homoisoflavanones was determined in an acute croton
oil-induced auricular dermatitis mouse model. The antifungal activity was performed in vitro
against a Candida albicans strain. Compounds were tested for cytotoxicity against a Chinese
Hamster Ovarian (CHO) cell line using the 3-(4,5-dimethylthiazol-2-yl)-3,5-
diphenyltetrazoliumbromide (MTT) assay.
In conclusion, the synthetic homoisoflavanones showed anti-inflammatory as well as
antifungal activity. Some of the compounds showed anti-inflammatory activity comparable
to that of the commercially available diclofenac. / Thesis (Ph.D.)-University of KwaZulu-Natal, Westville, 2011.
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The toxicological properties of Scilla nervosa (Burch.) Jessop (Hyacinthaceae) in cultured HepG2 liver cells.Pillay, Prishania. January 2011 (has links)
Background and Aims of Study.
Scilla nervosa is a member of the Hyacinthaceae plant family that has been naturalised in the grasslands of Southern Africa. The bulbs are traditionally used to treat a variety of ailments. For example, the Zulu people use aqueous decoctions of the bulbs as analgesics in the treatment of rheumatic fever, crushed bulbs are used by the Sotho people as laxatives and the Tswana people use cooked bulbs to treat infertility in women as well as cold aqueous extracts to treat infections. It was recently demonstrated in our laboratory that extracts prepared from the bulbs possess potent anti-inflammatory properties, and this may therefore provide a rationale for the traditional use of the plant as an analgesic. Several studies have demonstrated that the bulbs contain homoisoflavanones and stilbenoids that could be responsible for their therapeutic effects. Although the plant has diverse medicinal applications, and despite it being recognised as a poisonous species particularly in livestock, little is known about its toxicity in human liver cells. The objectives of this study were therefore to investigate the potential toxicity of the bulbs on the liver, a major detoxifying organ. A human liver cell line was treated with an aqueous extract of the bulbs to investigate (1) cell viability, (2) potential mechanisms of cytotoxicity, (3) DNA integrity, and (4) changes in the cytochrome P450 enzyme activity. Materials and Methods.
This study was conducted on the cultured HepG2 human hepatocellular carcinoma cell line, a model system to investigate the cytotoxicity of xenobiotics. The viability of cultured HepG2 liver cells in the presence of varying concentrations of an aqueous extract of the bulbs was determined after 24 hours treatment, and the concentration that reduced viability to 50% (IC50) was derived. Potential mechanisms of cytotoxicity at the IC50 were investigated. These included changes in metabolic activity (intracellular adenosine triphosphate (ATP) quantification), apoptosis induction (phosphatidylserine (PS) externalisation, caspase-8 and -9 induction and changes in mitochondrial membrane potential), and oxidative damage via free radical formation (lipid peroxidation). Genotoxicity was investigated by determining changes in DNA integrity (DNA fragmentation). The ability of the extract to stimulate or {¹ Du Toit, K., Kweyama, A., Bodenstein, J. 2011. Anti-inflammatory and antimicrobial profiles of Scilla nervosa (Burch.) Jessop (Hyacinthaceae). South African Journal of Science, 107:96-100.}
inhibit enzymes commonly involved with drug metabolism was investigated by determining cytochrome P450 3A4 (CYP3A4) activity.
Results
Cell-viability decreased in a concentration-dependent manner and the IC50 was determined as 0.03 mg/ml. Treating the cells at the IC50 resulted in (1) a 1.2-fold increase in intracellular ATP levels, (2) no significant change in PS externalisation, (3) a 1.3-fold increase in caspase-8 activity, (4) a 1.1-fold decrease in caspase-9 activity, (5) no significant change in mitochondrial membrane potential, (6) a 1.9-fold increase in lipid peroxidation, (7) evidence for genotoxicity as demonstrated by DNA fragmentation, and (8) no evidence of changes in CYP3A4 activity.
Conclusion. Results suggest that HepG2 liver cells are sensitive to an aqueous extract of the bulbs of S. nervosa. The extract has the potential to (1) induce apoptosis, (2) increase oxidative stress and (3) cause genotoxicity in vitro.
peroxidation, genotoxicity / Thesis (M.Sc.)-University of KwaZulu-Natal, Westville, 2011.
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Character variation and a cladistic analysis of the genus Lachenalia Jacq.f. ex Murray (Hyacinthaceae:Massonieae)Duncan, Graham D. January 2005 (has links)
Morphological variation and a cladistic analysis of the large, endemic Southern African genus
Lachenalia Jacq.f. ex Murray (Hyacinthaceae: Massonieae) is presented. Its close taxonomic
relationship with the small endemic sympatric genus Polyxena Kunth (which has been included in the morphological and cladistic study) is discussed. The inclusion of Polyxena
within Lachenalia is supported. One hundred and twenty species (139 taxa), comprising 115
Lachenalia and five Polyxena species are recognised. A wide range of morphological characters were analysed, including macromorphology,
micromorphology, anatomy and palynology. A discussion and comparison of karyological data is also presented.
A brief historical background, species diversity maps, figures, tables, appendices and illustrations of anatomical, micromorphological and macromorphological characters, and
cladistic data, are presented, as well as discussions of pollination biology and phytogeography.
This work is based on species studied in their natural habitats as well as under cultivation,
and from representative herbarium specimens examined from BOL, NBG, PRE and SAM. / Thesis (M.Sc.)-University of KwaZulu-Natal, Pietermaritzburg, 2005.
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