Olacaceae

Abstract: The paper represents a reassessment of familial relationships within the Order Santalales. Rafflesiaceae, Hydnoraceae, and Balanophoraceae are excluded from the order, and their reproductive similarities with some Santalales regarded as evolutionary convergence. The exclusion of Grubbiaceae from Santalales sponsored by other workers is accepted, as is the reassignment to other families of the two only genera of Octoknemaceae. The remaining members of the order are placed into six families, viz. Olacaceae (possibly representing several smaller families); Santalaceae; Loranthaceae (sensu stricto); Viscaceae (sensu stricto); Myzodendraceae ; and Eremolepidaceae (containingEremolepis, Eubrachion, andAntidaphne). It is suggested thatLepidoceras, formerly placed near the above three genera, is more properly placed in Loranthaceae (sensu stricto) nearTupeia. The proposed scheme of affinities of the families of Santalales, as reconstituted, is based to a large extent on inflorescence structure, but is supported by floral morphology and other features. The thesis is defended that Loranthaceae (sensu stricto), Santalaceae, Myzodendraceae, and Eremolepidaceae represent four inde pendent lines of development from portions of the Olacacean complex. Viscaceae (sensu stricto) may be derived directly from Santalaceae.

Abstract: Background Pestalotiopsis-like fungi are widely distributed in many plants and include endophytes, pathogens and saprobes. Five strains of Neopestalotiopsis were isolated from diseased leaves of Rhapisexcelsa (Principes, Palmae), Rhododendronsimsii and Rho.championiae (Ericales, Ericaceae) and Erythropalumscandens (Santalales, Olacaceae) in southern China. New information Based on morphology and multi-gene (ITS, tub2, tef1) phylogeny, our five strains of Neopestalotiopsis represent two new species and one extant species. Descriptions, illustrations and notes are also provided for the new species.

Abstract: One hundred and fifty-five extracts from 93 terrestrial species of plants in Peninsula Malaysia were screened for in vitro photo-cytotoxic activity by means of a cell viability test using a human leukaemia cell-line HL60. These plants which can be classified into 43 plant families are diverse in their type of vegetation and their natural habitat in the wild, and may therefore harbour equally diverse metabolites with potential pharmaceutical properties. Of these, 29 plants, namely three from each of the Clusiaceae, Leguminosae, Rutaceae and Verbenaceae families, two from the Piperaceae family and the remaining 15 are from Acanthaceae, Apocynaceae, Bignoniaceae, Celastraceae, Chrysobalanaceae, Irvingiaceae, Lauraceae, Lythraceae, Malvaceae, Meliaceae, Moraceae, Myristicaceae, Myrsinaceae, Olacaceae and Sapindaceae. Hibiscus cannabinus (Malvaceae), Ficus deltoidea (Moraceae), Maranthes corymbosa (Chrysobalanaceae), Micromelum sp., Micromelum minutum and Citrus hystrix (Rutaceae), Cryptocarya griffithiana (Lauraceae), Litchi chinensis (Sapindaceae), Scorodocarpus bornensis (Olacaceae), Kokoona reflexa (Celastraceae), Irvingia malayana (Irvingiaceae), Knema curtisii (Myristicaceae), Dysoxylum sericeum (Meliaceae), Garcinia atroviridis , Garcinia mangostana and Calophyllum inophyllum (Clusiaceae), Ervatamia hirta (Apocynaceae), Cassia alata , Entada phaseoloides and Leucaena leucocephala (Leguminosae), Oroxylum indicum (Bignoniaceae), Peronema canescens, Vitex pubescens and Premna odorata (Verbenaceae), Piper mucronatum and Piper sp. (Piperaceae), Ardisia crenata (Myrsinaceae), Lawsonia inermis (Lythraceae), Strobilanthes sp. (Acanthaceae) were able to reduce the in vitro cell viability by more than 50% when exposed to 9.6 J/cm 2 of a broad spectrum light when tested at a concentration of 20 μg/mL. Six of these active extracts were further fractionated and bio-assayed to yield four photosensitisers, all of which are based on the pheophorbide-a and -b core structures. Our results suggest that the main photosensitisers from terrestrial plants are likely based on the cyclic tetrapyrrole structure and photosensitisers with other structures, if present, are present in minor amounts or are not as active as those with the cyclic tetrapyrrole structure.

Abstract: As traditionally circumscribed, the family Olacaceae contains a morphologically diverse assemblage of genera that has historically caused much confusion regarding their classification. For example, Olacaceae contain parasites and nonparasites, climbing lianas and trees, and members with dichlamydous and monochlamydous perianths. This family is basalmost in the sandalwood order (Santalales), thus it represents the staging ground for many innovations that evolved in subsequent groups. The present molecular phylogenetic study has obtained DNA sequence data (nuclear SSU rDNA and chloroplast rbcL and matK) for all but two of the 28 genera in this group. Maximum parsimony and Bayesian analyses have resolved seven clades, well-supported by molecular and morphological characters. Root hemiparasitism appears to have first evolved in the clade containing Ximenia whereas clades between that one and the outgroup appear to be entirely autotrophic.