Showing papers in "Phytochemistry Reviews in 2013"

Lichens: a promising source of antibiotic and anticancer drugs

Abstract: Lichens are symbiotic associations between fungi and a photosynthetic alga and/or cyanobacteria. Lichenized fungi have been found to produce a wide array of secondary metabolites, most of which are unique to the lichenized condition. These secondary metabolites have shown an impressive range of biological activities including antibiotics, antifungal, anti-HIV, anticancer, anti-protozoan, etc. This review focuses primarily on the antibiotic and anticancer properties of lichen secondary chemicals. We have reviewed various publications related to antibiotic and anticancer drug therapies emphasizing results about specific lichens and/or lichen compounds, which microbes or cancer cells were involved and the main findings of each study. We found that crude lichen extracts and various isolated lichen compounds often demonstrate significant inhibitory activity against various pathogenic bacteria and cancer cell lines at very low concentrations. There were no studies examining the specific mechanism of action against pathogenic bacteria; however, we did find a limited number of studies where the mechanism of action against cancer cell lines had been explored. The molecular mechanism of cell death by lichen compounds includes cell cycle arrest, apoptosis, necrosis, and inhibition of angiogenesis. Although lichens are a reservoir for various biologically active compounds, only a limited number have been tested for their biological significance. There is clearly an urgent need for expanding research in this area of study, including in depth studies of those compounds which have shown promising results as well as a strong focus on identifying specific mechanisms of action and extensive clinical trials using the most promising lichen based drug therapies followed by large scale production of the best of those compounds.

Rosmarinic acid: new aspects

Abstract: Rosmarinic acid (RA) is an ester of caffeic acid and 3,4-dihydroxyphenyllactic acid which is one of the most frequently occurring caffeic acid esters in the plant kingdom besides chlorogenic acid. RA has numerous biological and pharmacological activities. Its occurrence is spread all over the land plant kingdom. Enzymes and genes of its biosynthesis are well investigated. RA can be produced in high amounts in in vitro cultivated plant cells which offers the possibility of an economical exploitation. The review reports about recent findings in the biosynthesis of RA and related caffeic acid esters and discusses some aspects of the evolution of the biosynthetic enzymes.

Chemistry, bioactivity and quality control of Dendrobium, a commonly used tonic herb in traditional Chinese medicine

Abstract: The fresh or dried stems of many Dendrobium species are well known as one of the most expensive tonics in traditional Chinese medicine Documented as a “superior grade” herbal medicine in the ancient text “Shen Nong’s Herbal Classic”, Dendrobium has been used for thousands of years and is now a popular health food worldwide The main chemical components of Dendrobium are alkaloids, aromatic compounds, sesquiterpenoids and polysaccharides, with multiple biological activities, including immunomodulatory, neuroprotective and anti-tumor effects, etc Various qualitative and quantitative methods have been developed for the quality evaluation of Dendrobium In this review, the research progress since the 1930s relating to the chemistry, bioactivity and quality control of Dendrobium is summarized, existing problems and prospects are also discussed

Saponins and their role in biological processes in plants

Abstract: Saponins are steroid and triterpenoid glycosides that display diverse biological activities. The wide-spread occurrence in plants as well as the potential for pharmaceutical application has led to saponin extraction and identification in numerous species. Although these efforts are important to extend our knowledge of naturally occurring saponin structures, recent attention has been given to the biosynthesis and distribution in plants. In this review, we present recent advances on saponin production and distribution and highlight studies showing effects on the growth and development.

Serine protease inhibitors in plants: nature’s arsenal crafted for insect predators

Abstract: Plant serine protease inhibitors are defense proteins crafted by nature for inhibiting serine proteases. Use of eco-friendly, sustainable and effective protein molecules which could halt or slow down metabolism of nutrients in pest would be a pragmatic approach in insect pest management of crops. The host-pest complexes that we observe in nature are evolutionary dynamic and inter-depend on other defense mechanisms and interactions of other pests or more generally speaking symbionts with the same host. Insects have co-evolved and adapted simultaneously, which makes it necessary to investigate serine protease inhibitors in non-host plants. Such novel serine protease inhibitors are versatile candidates with vast potential to overcome the host inhibitor-insensitive proteases. In a nutshell exploring and crafting plant serine proteinase inhibitors (PIs) for controlling pests effectively must go on. Non-host PI seems to be a better choice for coevolved insensitive proteases. Transgenic plants expressing wound inducible chimaeric PIs may be an outstanding approach to check wide spectrum of gut proteinases and overcome the phenomenon of resistance development. Thus, this article focuses on an entire array of plant serine protease inhibitors that have been explored in the past decade, their mode of action and biological implications as well as applications.

Sustainable utilization of oil palm wastes for bioactive phytochemicals for the benefit of the oil palm and nutraceutical industries

Abstract: For a hectare of oil palm plantation, about 21.63 tonnes of biomass comprising 20.43 % empty fruit bunches, 5.09 % palm kernel shells, 11.65 % oil palm trunks, 50.30 % oil palm fronds and 12.53 % palm pressed fibre is produced per year as wastes which keep raising many environmental concerns as most of them are incinerated and dumped at open sites. Oil palm wastes are found to contain phytochemicals which have anti-cancer, antioxidants and other vital biological activities. About 17–65 kg of carotenoids, 0.1–60 kg phenolic compounds, 0.6–39 kg sterols and 4.0–62 kg tocols could be extracted from these wastes which would not only boost the economy but also help improve human health and promote clean environments. This study assesses the phytochemistry of oil palm wastes and their pharmacological activities beneficial to the nutraceutical industry with the view of utilizing oil palm wastes for sustainable development.

Grayanoids from the Ericaceae family: structures, biological activities and mechanism of action

Abstract: Grayanoids, occurring exclusively in Ericaceae plants, are well-known highly toxic components from the genera Rhododendron, Pieris, Leucothoe, Craibiodendron, Lyonia, Kalmia, etc. Grayanoids have been the topic of research in many phytochemical and pharmacological laboratories due to their complex structures and fascinating bioactivities. This review, citing 100 references, summarises their chemistry, including the total synthesis and bioactivity of grayanoids isolated from the Ericaceae family in the last five decades, to illustrate the chemo-diversity and biological significance of these diterpenoids.

Plant growth inhibitors: allelopathic role or phytotoxic effects? Focus on Mediterranean biomes

Abstract: Allelopathy (the chemical based communication among plants) is gaining more and more attention thanks to its likely outcomes in several fields, but it is, in the meantime, a questionable topic, due to a difficult determination. Despite the broad literature, allelopathic interactions are far from being clarified. Conclusive evidence in this field is not a simple find, as this biological activity is governed by a number of different factors. Such an issue can be solved only provided that suitable methods are used. Understanding allelopathy in natural ecosystems may be crucial in order to think about the exploitation of this resource. Mediterranean plants, in particular, have been proven to be a source of natural active compounds. This paper reviews the most outstanding methods used for plant extract or pure metabolite phytotoxic or allelopathic properties determination. Furthermore, it points out the bioactive metabolites reported from plants characteristics of Mediterranean ecosystems.

Nematicidal potential of Brassicaceae

Abstract: Brassicaceae Burnett (syn. Cruciferae A. L. de Jussieu) include many important economic plants used as edibile or ornamental. They are commonly known as the “mustard” plant family due to the sharp, potent flavour of their main metabolites, the glucosinolates (GLSs) which contain sulfur. Glucosinolates coexist in vivo with glycosylated thioglucosidases, myrosinase(s), responsible of their hydrolysis with the production of bioactive cognate isothiocyanates (ITC). GLSs and ITCs function as defence bioactive metabolites against plant pathogens, insects and herbivores. The present review paper focus on GLSs role as bionematicides. The current knowledge on the efficacy of these phytochemicals against the most common phytoparasitic nematodes affecting crops of agriculture importance such as tomato, potato and grapevine is reported. Data from our ongoing research on the in vitro biocidal activity of glucosinolate extracts, and their main components, against the virus-vector nematode Xiphinema index Thorne & Allen and the carrot cyst nematode Heterodera carotae Jones are also described.

Metabolomics for the rapid dereplication of bioactive compounds from natural sources

Abstract: The introduction of high throughput screening in the 1990s aimed to shorten the drugs discovery route. To fully use its high potential, this technology requires a large number of compounds to screen. Thus, increasing the number of chemicals for initial screening is high on the agenda of pharmaceutical companies. High throughput synthesis and combinatorial chemistry were developed to address this demand. However, these technologies cannot fulfill the expectation to increase new lead compounds. One of the reasons is that the obtained compounds lack relevant chemical diversity. On the other hand, it is well known that an enormous molecular diversity and biological functionality are two important features which distinguish plant extracts as a drug source from synthetic chemicals, although a natural products-based drug discovery project also poses some challenges, mostly connected with the presence of an active compound in a complex matrix with all kind of compounds. An elaborative purification to isolate and identify active compounds is thus needed. The possibility of antagonism or synergism between metabolites present in the extracts, and the fact that some common plant products have been found to be active in a number of test systems even make lead finding projects from natural sources become complicated. This review summarizes recent studies reporting metabolomics based techniques to uncover activity related compounds in complex plant matrices.

What makes Allium species effective against pathogenic microbes

Abstract: The antimicrobial activity of garlic (Allium sativum L.) has been known since ancient times. The first citation dates back to the Egyptian period of fifteenth century BC when garlic was reported to be used in folk medicine as a remedy for microbial infections. Scientific investigations on garlic started in 1858 with the work of Pasteur who first noted antibacterial properties of garlic extracts. From that date to the discovery of antibiotics, garlic has been used against amoebic dysentery and epidemic diseases such as typhus, cholera, diphtheria, and tuberculosis. But what makes garlic and Allium species effective against pathogenic microbes? The volatile allicin and other thiosulfinates, giving pungency to Allium plants, are well-studied antimicrobial agents. The thiosulfinates can decompose to form additional sulfur constituents, including diallyl, methyl allyl, and dipropyl mono-, di-, tri- e tetra-sulfides, and (E)- and (Z)-ajoene without losing antimicrobial activity. Besides these compounds, onion and garlic are characterized by polar compounds of steroidal and phenolic origin, often glycosilated, not pungent and more stable during cooking, showing also antimicrobial activity. Recently, there has been increasing scientific attention given to such compounds. Nitrogen organic compounds, like alkaloids and polypeptides, have also been isolated from these plants and have shown antimicrobial activity. In this paper, the literature about the major volatile and non-volatile organic compounds of garlic and other Allium plants has been reviewed. Particular attention is given to the compounds possessing antimicrobial activity and to the correlation between the observed activity and the chemical structure of the tested compounds.

Structural and biochemical perspectives in plant isoprenoid biosynthesis

Abstract: The isoprenoid family represents one of the most ancient and widespread classes of structurally and functionally rich biomolecules known to man. Although these natural products are synthesized in all organisms, the plant kingdom exhibits tremendous variation in their chemistry and roles, ranging from primary metabolism to secondary metabolism and specialized ecological interactions with the environment. Despite enormous diversity in structure and function, all isoprenoids are derived from the universal C5 precursor isoprene. The isoprenoid biosynthetic pathway has three major stages, viz., (1) synthesis of the isoprene building blocks, followed by their (2) assembly into flexible linear and branched hydrocarbon substrates, which then undergo (3) multistep reaction cascades to generate the vast assortment of isoprenoid end products. One of the most interesting aspects of isoprenoid biosynthesis is its being finely tuned by a multilayered and complex regulatory network, which excellently controls the machinery producing one of the most heterogeneous groups of molecules in plants. Terpene synthases, enzymes of the final stage, are key players in the generation of isoprenoid diversity, catalyzing one of the most complex reactions known to chemistry and biology. Unraveling the mechanism by which a minimal pool of substrates is thus converted into tens of thousands of regiospecific and stereospecific products, is a promising research avenue: This knowledge may be practically used for rational design of novel compounds by metabolic engineering, in order to yield plants with improved nutritional efficacy, stress resistance, bio-pharmaceutical properties etc. This review is an attempt to summarize the biochemical, molecular, physiological, structural, genomic and evolutionary aspects of isoprenoid biosynthesis, providing new insights into how these enzymes utilize various innovative strategies for creation of the so-called final terpenome.

Enzymatic glycosylation of terpenoids

Abstract: A significant number of terpenoid compounds are glycosides with the sugars linked to the active groups. Sometimes, the glycosidic residue is crucial for their activity, but in other cases glycosylation only improves pharmacokinetic parameters. Enzymatic glycosylation of terpenoids is a useful tool due to the high selectivity and the mildness of the reaction conditions, in comparison with chemical methods. Several types of biocatalysts have been used in the enzymatic glycosylation of terpenoids. These include the use of glycosyltransferases, trans-glycosidases, and whole-cell biotransformation systems capable of regenerating the cofactor, such as fungi, bacteria, plant-cell cultures, etc. Many biosynthesized terpenoid glycosides display medicinal and pharmacological properties and can be used as pro-drug substances. These terpenoid glycosides have also been employed as food additives (e.g. low-caloric sweetener compounds) and cosmetics, and even have applications as controlled-release fragrances.

Biotechnological approaches to enhance the biosynthesis of ginkgolides and bilobalide in Ginkgo biloba

Abstract: Ginkgo biloba is one of the oldest living tree species and its extracts or powdered leaves are one of the best selling herbal preparations. The main bioactive constituents are flavonoids and the terpene trilactones, ginkgolides and bilobalide, which are responsible for their pharmacological activity. However, there are many difficulties for ginkgo leaves supply and the chemical synthesis is far from of being applicable for commercial-scale production. G. biloba cell cultures have arisen as a useful alternative source of pharmacologically active terpene trilactones. This review sheds light on the chemistry and biosynthesis of terpene trilactones with the aim of increasing the production of these high value compounds by biotechnological approaches. Different biotechnological strategies to improve ginkgolides and bilobalide production will be discussed, including screening and selection of in vitro ginkgo cultures, cell differentiation levels of these cultures, optimization of culture conditions, feeding and elicitation strategies. Special attention will be paid in developing new methodologies to enhance ginkgo cell biomass and provide high amounts of these bioactive terpene trilactones using large-scale cell cultures.

Soy isoflavones and their relationship with microflora: beneficial effects on human health in equol producers

Abstract: The bioavailability of soy isoflavones depends on the composition of the microflora for each subject. Bacteria act on different isoflavones with increased or reduced absorption and cause biotransformation of these compounds into metabolites with higher biological activity. S-equol is the most important metabolite and only 25–65 % of the population have the microflora that produces this compound. The presence of equol-producing bacteria in soy product consumers means that the consumption of such products for prolonged periods leads to lower cardiovascular risk, reduced incidence of prostate and breast cancer, and greater relief from symptoms related to the menopause such as hot flushes and osteoporosis.

Plant-derived bioactive compounds at sub-lethal concentrations: towards smart biocide-free antibiofilm strategies

Abstract: Biofilm resistance to biocides is becoming a global issue with an impact on many fields, including health care, agriculture, the environment, society and industry. Plants offer a virtually inexhaustible and sustainable resource of very interesting classes of biologically active, low-molecular-weight compounds (parvome). In the past, the plant parvomes were screened mainly for their lethal effects, disregarding concentrations and ecologically relevant functions of these molecules in the natural context. Testing sub-lethal concentrations of plant-derived compounds mimicking environmental levels may be critical to reveal mechanisms subtler than the killing activity, e.g. those influencing the multicellular behavior, offering an elegant way to develop novel biocide-free antibiofilm strategies. In a cross-disciplinary fashion, we illustrated recent successes of sub-lethal concentrations of plant-derived compounds, their ecological insight, pro et contra, future directions and impacts, envisioning implications for policy making and resource management.

MabCent: Arctic marine bioprospecting in Norway.

Abstract: The deep waters surrounding the coastline of the northern parts of Norway represent an exciting biotope for marine exploration. Dark and cold Arctic water generates a hostile environment where the ability to adapt is crucial to survival. These waters are nonetheless bountiful and a diverse plethora of marine organisms thrive in these extreme conditions, many with the help of specialised chemical compounds. In comparison to warmer, perhaps more inviting shallower tropical waters, the Arctic region has not been as thoroughly investigated. MabCent is a Norwegian initiative based in Tromso that aims to change this. Since 2007, scientists within MabCent have focussed their efforts on the study of marine organisms inhabiting the Arctic waters with the long term goal of novel drug discovery and development. The activities of MabCent are diverse and range from sampling the Arctic ice shelf to the chemical synthesis of promising secondary metabolites discovered during the screening process. The current review will present the MabCent pipeline from isolation to identification of new bioactive marine compounds via an extensive screening process. An overview of the main activities will be given with particular focus on isolation strategies, bioactivity screening and structure determination. Pitfalls, hard earned lessons and the results so far are also discussed.

Phytochemicals as a potential source for TNF-α inhibitors

Abstract: Cytokines play an important role in the immune system. Any disorder in the regulation of cytokines can lead to the development of inflammatory diseases. Tumor necrosis factor-α (TNF-α) is one of the most important inflammatory cytokines that controls different types of cell functions. The overproduction of TNF-α is linked with the development of various diseases such as asthma, rheumatoid arthritis, psoriatic arthritis, inflammatory bowel disease, septic shock, diabetes and atherosclerosis. Plants are considered as excellent sources of pharmacologically active compounds. Currently, scientists are searching for natural products with anti-TNF-α properties for the treatment of various inflammatory disorders. At present, protein-based drugs are available for the inhibition of TNF-α, however these have some limitations. Plant might provide an alternative and cost-effective source of drugs that can regulate TNF-α levels. This review briefly highlights the physiological and pathological roles of TNF-α along with a description of plant-derived compounds capable of interfering with TNF-α activity and production.

Secondary metabolites during early development in plants

Abstract: Early development is a critical stage in a plant’s life, as the plant must establish itself in the ecosystem during this period. The secondary metabolites (SM) during this phase is a strategy that contributes to the survival of plant species. Through a review of the literature, a number of reports were found that investigated the presence of SM during germination and early plant development (phases 0 and 1 according to the Zadoks and BBCH scales). A total of 250 reports were found that investigated 99 species and nearly 200 SM that accumulate during this period of the plant life cycle. A large portion of the SM are biosynthesised de novo, whereas the remainder are derived in part or in total from the mother plant. In many cases, the resources for biosynthesis are supplied only by the reserve material of the endosperm or cotyledons, which allows for independent photosynthesis. The presence of SM at these stages confers characteristics of more advanced stages, such as tissue-specific distribution, spatio-temporal regulation, and the individual regulation of all of the biosynthesised SM. The amount and diversity of SM are not universally related to the progress of plant development, but it is a widespread phenomenon. The early production of SM has ecological implications that involve defence mechanisms, relationships with microorganisms, and the role of these compounds as nitrogen reserves. This review contributes to the systematisation of studies on SM in the early stages of development.

Classical and epigenetic approaches to metabolite diversification in filamentous fungi

Abstract: Studies on fungal metabolites have produced an overwhelming expectation concerning the production of novel bioactive compounds for pharmaceutical applications. The adding of various biosynthetic precursors and the changing of nutritional components in the fermentation medium can change biosynthesis pathways, also leading to the production of novel metabolites. In addition, several growing conditions can be classically manipulated to modify fungal metabolite profiles. Recently, modern genome sequence tools have shown that not all gene clusters are regularly expressed in conventional growing conditions, thus expanding the possibilities of modulating the chemical metabolite profiles produced by filamentous fungi. This review discusses and exemplifies classical and epigenetic tools successfully applied to diversify metabolite production and to produce fungal metabolites from silent metabolic pathways.

Metabolic profiling in Echium plantagineum: presence of bioactive pyrrolizidine alkaloids and napthoquinones from accessions across southeastern Australia.

Abstract: Geographically distinct populations of Paterson’s curse (Echium plantagineum L., Boragineacea), found near roadsides across New South Wales and Victoria, Australia were surveyed along 3 distinct longitudinal transects in spring of 2011 for presence of pyrrolizidine alkaloids and naphthoquinones in sampled plants. Composite samples of shoots and roots were collected from each of 45 sites; shoot extracts were subjected to solid phase extraction and LC-ESI/MS for determination of pyrrolizidine alkaloids (PAs) and related N-oxides (PANOs), while root periderm extracts were analysed for naphthoquinone content spectrophotometrically and by LC-ESI/MS. Metabolic profiling of 12 possible PAs and PANOs showed their consistent appearance in all shoot extracts, with lepthamine N-oxide, echimidine-N oxide and echumine N-oxide predominant. The three major PANOs were significantly higher in northern sampling locations than those further south. Root extracts contained shikonin and several related naphthoquinones, as well as two of the major PANOs found in the leaves. Naphthoquinones were highest in the northwest corner of the sampled region. The patterns of abundance of secondary metabolites in E. plantagienum suggest that climate change might result in greater production of defensive compounds by E. plantagineum, making this weed increasingly toxic to livestock.

Comparative genome analysis of Bacillus spp. and its relationship with bioactive nonribosomal peptide production

Abstract: Bacillus genus comprises an important number of species which produce a wide range of secondary metabolites displaying a broad spectrum of activity and great structural diversity. The genome sequences of an important number of species have been published and a large number of orphan genes reported. This review, covering all the literature in this field up to end of 2011, summarizes and compares the genetic potential of these organisms from the point of view of bioactive nonribosomal peptide production and their application as antibiotics, plant pathogen biocontrol, promotion of plant growth, etc. The biological and structural studies of the peptides isolated from Bacillus species are revised and some aspects of the biosynthesis of these metabolites and related compounds are discussed.

Ecological phytochemistry of Cerrado (Brazilian savanna) plants

Abstract: The Cerrado (the Brazilian savanna) is one of the vegetation formations of great biodiversity in Brazil and it has experienced strong deforestation and fragmentation. The Cerrado must contain at least 12,000 higher plant species. We discuss the ecological relevance of phytochemical studies carried out on plants from the Cerrado, including examples of phytotoxicity, antifungal, insecticidal and antibacterial activities. The results have been classified according to activity and plant family. The most active compounds have been highlighted and other activities are discussed. A large number of complex biochemical interactions occur in this system. However, only a small fraction of the species has been studied from the phytochemical viewpoint to identify the metabolites responsible for these interactions.

Rational use of Jatropha curcas L. in food and medicine: From toxicity problems to safe applications

Abstract: Jatropha curcas L. has become an important plant for biorefinery and production of biodiesel. From its ethnobotanical use, the plant is known for several activities which are associated with high toxicity. The latest development in engineering technology enables detoxification of native oil and other parts of the plant for new pharmaceutical purposes. Hence a revised look to the rich metabolic spectra of partly structurally rare secondary compound becomes an interesting field of research to be explored. In this review, we discuss recent developments in the technology of detoxification process and give insight about how this ethnomedicinal plant can be applied to new fields of experimental medicine. The review highlights recent data on biological activities and discusses concepts and strategies for turning a poison plant into a valuable crop with high pharmaceutical potential.

Guttation 1: chemistry, crop husbandry and molecular farming

Abstract: Guttation is one of the most conspicuous visible phenomena in plants occurring in a wide range of plants. The guttation fluids, though look clear and translucent, carry a number of organic and inorganic constituents. The organic component may include sugars, amino acids, general proteins, antimicrobial phylloplane proteins, transport proteins for transporting sucrose, purine and cytokinins, toxic elements etc. and enzymes such as peroxidases, dehydrogenases, ATPases, in addition to mRNA, ATP, reductants and other important ingredients of plant life. Guttation fluids also contain a number of natural plant hormones such as auxins, gibberellins, cytokinins, abscisic acid etc., apart from several vitamins. Recent discoveries have revealed the presence of a number of salts, ions, nutrients and macromolecules in guttation fluid playing significant role in enhancing disease resistance, tolerance to toxic elements, photosynthetic efficiency, biomass production and economic yield of agricultural crops. In the light of aforementioned discoveries in guttation transgenic plants have been created to serve as bio-factories for producing various kinds of phytochemicals of immense agricultural, pharmaceutical, nutriceutical, therapeutic, cosmeceutic and commercial significance impacting food productivity and human health adding happiness to life.

Linear diterpenes from the marine brown alga Bifurcaria bifurcata : a chemical perspective

Abstract: This article will give a complete overview of linear diterpenes isolated from the brown alga Bifurcaria bifurcata. For this purpose all published acyclic diterpenoids are listed and gathered in three main biosynthetic families with respect to their structural similarities. These are the C-12 oxidized (e.g. eleganediol), the C-13 oxidized (e.g. eleganolone), and the direct geranylgeraniol derivatives. The origin and plausible biosynthesis of all compounds are discussed. Additionally, the issues concerning the configurational assignment such as the configuration of trisubstituted double bonds and the configuration of oxidized stereogenic centers are pointed out. Special emphasis is also given on synthesis, biological activities (cytotoxic, antimicrobial, and antifouling activities), chemotaxonomy, and ecology of the compounds.

Analysis of betalains from fruits of Opuntia species

Abstract: Betalains are of great taxonomic significance in higher plants and occur only in 10 families of the order Caryophyllales (Centrospermae). They are water-soluble nitrogenous pigments. They can be divided into two major structural groups, the red to red-violet betacyanins and the yellow betaxanthins. Betalains are widely used as natural red food colorant as well as antioxidant potentials. Several methods have been published for the determination of betalain in fruits of Opuntia species. The purpose of the current review is to provide a systematic survey of the analytical techniques for the determination of betalain from fruits of Opuntia species.

Aloe barbadensis: how a miraculous plant becomes reality

Abstract: Aloe barbadensis Miller is a plant that is native to North and East Africa and has accompanied man for over 5,000 years. The aloe vera plant has been endowed with digestive, dermatological, culinary and cosmetic virtues. On this basis, aloe provides a range of possibilities for fascinating studies from several points of view, including the analysis of chemical composition, the biochemistry involved in various activities and its application in pharmacology, as well as from horticultural and economic standpoints. The use of aloe vera as a medicinal plant is mentioned in numerous ancient texts such as the Bible. This multitude of medicinal uses has been described and discussed for centuries, thus transforming this miracle plant into reality. A summary of the historical uses, chemical composition and biological activities of this species is presented in this review. The latest clinical studies involved in vivo and in vitro assays conducted with aloe vera gel or its metabolites and the results of these studies are reviewed.

Terpenoid biotransformations by Mucor species

Abstract: Biotransformation is an important tool for the structural modification of organic compounds, especially natural products with complex structures, which are difficult to achieve using ordinary methods. It is also useful as a model for mammalian metabolism due to similarities between mammalian and microbial enzyme systems. The development of novel biocatalytic methods is a continuously growing area of chemistry, microbiology, and genetic engineering, and novel microorganisms and/or their enzymes are being screened intensively. This review covers the transformation of non-terpenoid compounds such as steroids, coumarins, flavonoids, drugs, pesticides and others by Mucor spp. up to the end of 2012.

Traditional Mongolian Medicine: history and status quo

Abstract: Traditional Mongolian Medicine (TMM) plays an important role within the medical system of Mongolia nowadays. This medical system is rather unknown in the Western world, and detailed information can hardly be found in literature. In this article various aspects of TMM are highlighted. The eventful history of TMM is presented, and the centres which offer today’s traditional medical care are introduced. Institutions which provide education in TMM are outlined, and the latest developments in the national standard are highlighted, according to which the different institutions have to develop their curricula. Furthermore, an overview is given about herbal medicines in Mongolia and the health situation in this country. Finally, the international and Mongolian literature of Achillea asiatica, Dianthus versicolor, Euphorbia pallasii, Lilium pumilum, and Saussurea amara, which are all used in TMM to cure liver diseases, is reviewed.