Streptomyces bacteria are a valuable source of natural products, many of which are used in the clinic or in biotechnology. In our search for novel antibiotics we discovered lugdunomycin, a natural... Show moreStreptomyces bacteria are a valuable source of natural products, many of which are used in the clinic or in biotechnology. In our search for novel antibiotics we discovered lugdunomycin, a natural product with a highly complex chemical architecture that is produced by Streptomyces sp. QL37. It is derived from the angucyclines, a well-known class of molecules known for their antibacterial and anticancer activities. Though angucyclines are produced in high quantities under most conditions, lugdunomycin is produced in minimal amounts. This thesis describes novel insights into the transcriptional control of the lugdunomycin biosynthetic gene cluster and into the lugdunomycin biosynthesis pathway. These insights may be applied to improve the yield of lugdunomycin and expand the chemical diversity of angucyclines. Using molecular biology, bioinformatic approaches and omics studies, such as metabolomics and transcriptomics, we have characterized the lugdunomycin biosynthetic gene cluster, the regulatory genes (lugRI–lugRV) required for transcriptional activation of the cluster, and the oxygenase genes (lugOI–lugOV) that play a key role in the different chemical rearrangements of the angucyclines. Furthermore, this thesis contains a detailed review of the regulatory network that controls antibiotic production in Actinobacteria. Show less
In this thesis, I study 1) metabolic alterations in tuberculosis related to wasting syndrome in human patients as well as in rodent and fish animal models. 2) effects of the mutation of the leptin... Show moreIn this thesis, I study 1) metabolic alterations in tuberculosis related to wasting syndrome in human patients as well as in rodent and fish animal models. 2) effects of the mutation of the leptin gene on cachexia and diabetes in rodent and zebrafish animal models. 3) how tuberculosis infection and resulting metabolic reprogramming are dependent on leptin signaling in mice and zebrafish larvae. Show less
Marine sponges are important members of reef ecosystems, as they play ecological roles that are essential for the health of the reef. From a chemical perspective, sponges have been widely studied,... Show moreMarine sponges are important members of reef ecosystems, as they play ecological roles that are essential for the health of the reef. From a chemical perspective, sponges have been widely studied, showing great chemical diversity with biological activity, although this chemical diversity can often not be linked to for instance variation in environmental conditions experienced by sponges. Metabolomics, with its holistic overview of the metabolites present in samples, has provided new tools to gain insight into the function of metabolites in the intricate relationship between sponges and their environment. Among sponges, giant barrel sponges have stood out for their predominance in many reefs, their longevity and the fact that they are widely spread across oceans. this thesis showed how environmental, genetic and biological factors individually or as a result of their interaction can influence the metabolome of giant barrel sponges. This is only the first step towards a better understanding of the role that chemical compounds play in interactions between sponges and the surrounding environment. The advances in this field will rely, among others, on the development of technologies that would allow real time measurement of the metabolome and the study of the interaction between the metabolome and other omics. Show less
By growing in a soil plants change the biotic and abiotic properties of the soil in which they grow. This can influence the performance of plants that grow in the same soil subsequently and is... Show moreBy growing in a soil plants change the biotic and abiotic properties of the soil in which they grow. This can influence the performance of plants that grow in the same soil subsequently and is known as plant soil feedback (PSF). Species largely differ in how they influence the soil while they grow in it and how they react to conditioned soil. So far PSF was mainly shown to influence biomass of plants and certain specific chemical compounds in plants. This thesis demonstrates how the whole metabolome of a range of different plants changes due to different microbiomes in the soil and that the influence of soil on the metabolome of plants can be stronger than the effect of herbivory. Furthermore, this thesis shows how these PSF change over time and on different spatial scales and which methods are most suitable to study the metabolomic response of plants. Show less
Narcissus is an economically important crop with a large number of species, hybrids and/or varieties in cultivation. It is one of the most popular ornamental plants. The Netherlands is among the... Show moreNarcissus is an economically important crop with a large number of species, hybrids and/or varieties in cultivation. It is one of the most popular ornamental plants. The Netherlands is among the top producers of Narcissus in the world. The ornamental value of Narcissus is quite well known but they can also be a valuable resource of natural compounds. Among these compounds, galanthamine has been successfully commercialized as medicine for the treatment of early to mild Alzheimer’s Disease (AD). The characteristic symptoms of this disease are loss of memory and impairment of multiple cognitive and emotional functions. The objective was to find out how galanthamine levels could be enhanced to convert this floricultural crop into a medicinal crop. There are different factors that influence the production of galanthamine and other metabolites in the bulbs. Effect of various factors such as preanalytical methods, bulb location and age along with effect of biotic and abiotic factors on the growth and yield were studied. From the results, it is evident that factors have detrimental effect on the total bulb yield and galanthamine levels. Show less
Plant exudates appeared long time ago in the history line of life in the early Devonian. They are typical saps produced by specialized cells. They can be naturally excreted outside or right after... Show morePlant exudates appeared long time ago in the history line of life in the early Devonian. They are typical saps produced by specialized cells. They can be naturally excreted outside or right after plants are damaged or infected. Through time, diverse cultures recognized them as valuable sources of natural medicines. Of various types of plant exudates, the most outstanding are gums, mucilage, essential oils, oleoresins, resins, phloem like saps, and latexes. Regardless of their commercial importance, in the aspect of biology, plant exudates are believed to be involved in plant defense mechanisms, but their roles still remain unclear. In this thesis, based on diverse experiments, many features of plant exudates were unveiled. Interestingly, even if plant exudates possess a broad chemical diversity, their specialized biological functions resulted in less variation of their metabolomes as compared with their bearing tissues. This lower variation indicates that plant exudates might partake of a general-broad defense against herbivores and pathogens in their bearing tissues. This defense involves both mechanical and chemical traits which might complement and modulate each other, eventually resulting in a chemo-mechanical defense layer. Of the diverse chemicals in plant exudates, terpenes are one of the most common metabolites in these saps. Show less
We showed that constitutive and inducible chemical and morphological defenses against Western flower thrips differ between tomato and chrysanthemum plants. Furthermore, we demonstrated that both... Show moreWe showed that constitutive and inducible chemical and morphological defenses against Western flower thrips differ between tomato and chrysanthemum plants. Furthermore, we demonstrated that both plant species respond differently to bacteria-derived defense elicitors, such as the phytotoxin coronatine. This highlights the plant species-specificity of these interactions and the possible limitation for the use of pathogen-associated molecular patterns to enhance the plant immune system. This study thus provides knowledge and novel strategies for Western flower thrips control. Yet, further comprehensive work is needed to evaluate the influence of these induction strategies on plant fitness. Show less
The thesis aims at combining metabolomics with other methods to investigate the regulation of the TIA biosynthesis and how this is connected with other pathways and the plant__s physiology and... Show moreThe thesis aims at combining metabolomics with other methods to investigate the regulation of the TIA biosynthesis and how this is connected with other pathways and the plant__s physiology and development. It reviews the biosynthesis studies of Catharanthus roseus. An HPLC method is described for both precursors and alkaloids which was validated to analyze alkaloid contents in different organs, its relationship with leaf age and growth of C. roseus plants. A metabolomics investigation of C. roseus varieties with different flower colors by NMR profiling method is also reported. Besides, it explores the effect of JA/MeJA treatment on TIA biosynthesis in different organs and the influence of flowering on TIA levels in C. roseus plants. Overexpression of ORCA3 and G10H in C. roseus plants is reported and the effect on alkaloid biosynthesis and general metabolism is revealed by NMR-metabolomics. Finally, it reports on C. roseus plants fed with 13C-labeled glucose to study the flux into different metabolic pathways, and gives a summary and discussion about further perspectives. Show less
In this thesis, patterns of variation in plant metabolomes and insect communities were described in GM and non-GM potato plants in both laboratory and field experiments. Differences between plant... Show moreIn this thesis, patterns of variation in plant metabolomes and insect communities were described in GM and non-GM potato plants in both laboratory and field experiments. Differences between plant genotypes in insect abundances were small when compared to year-to-year differences, location effects and differences between developmental stages of plants. Standardized effect sizes are discussed as an alternative scale for measuring effects. Leaf age, aphid infestation and virus infection were found to cause significant alterations in leaf metabolism in a laboratory study as measured by 1H NMR. However, these changes were similar in quantity and quality in both GM and non-GM plants. Furthermore, 1H NMR metabolomic profiles of potato plants were measured in a 2-year field study. Large changes in metabolomic profiles occurred across years and locations, and throughout the growth period of plants within years. Only weak relationships were found between metabolomics data and insect abundances on the same experimental fields. GxE interactions imply that conclusions from field trials are not valid outside the range of tested environments. This emphasizes the need for a careful choice of representative geographical zones for risk assessment studies. However, it also shows that a residual level of uncertainty in NTO safety is unavoidable. Show less
Inflammation is an immune reaction of the body to the external stimuli such as toxins or pathogens, and is characterized by redness, swelling, pain, and heat. The process of inflammation is... Show moreInflammation is an immune reaction of the body to the external stimuli such as toxins or pathogens, and is characterized by redness, swelling, pain, and heat. The process of inflammation is regulated by several pro-inflammatory and antiinflammatory cytokines. Tumor necrosis factor-_ (TNF-_) is a major pro-inflammatory cytokine involved in the inflammatory response.Elevated TNF-_ expression has been found to be associated with the development of diabetes, atherosclerosis, septic shock, and tumorigenesis. Thus inhibition of TNF-_ at any step of inflammatory pathways provides an attractive treatment for inflammatory diseases as well as for series of other common diseases.Plants provide an alternative sources of medicines used traditionally by people worldwide since thousands of years ago. The aim of this thesis was to develop methods for the rapid identification of active compounds in plant extracts by correlating NMR metabolomics and bioassay results by means of multivariate data analysis. This work demonstrates the great potential of NMR spectroscopy in combination with chemometrics for the screening of large set of crude extracts, to study the effects of different variables on the activity, and identifying sets of active compounds in complex mixtures like plant extracts. Show less
Despite the rich diversity in molecular structures and biological functionality, the complex matrix of the compounds with a broad dynamic range has limited the use of plants as an important source... Show moreDespite the rich diversity in molecular structures and biological functionality, the complex matrix of the compounds with a broad dynamic range has limited the use of plants as an important source for drug development. Adressing this issue, several papers have described the use of the more holistic approach targeting on a wide range of metabolite present in plant extract, i.e. metabolomics. This new approach involves the use of various analytical methods followed by appropriate multivariate data analysis. The aim is to shorten the bioassay guided isolation route, particularly in the identification and dereplication step This thesis describes a new strategy to improve dereplication and identification steps in drug discovery process from plants. The integration of comprehensive extraction coupled to NMR metabolomics and multivariate data analysis is found to be a potential new approach to uncovering bioactive compounds from crude plant extracts. Show less
Plant hybridization has been shown to have important ecological and evolutionary consequences in a number of genera, including Senecio. Here, I investigate the possible consequences of natural... Show morePlant hybridization has been shown to have important ecological and evolutionary consequences in a number of genera, including Senecio. Here, I investigate the possible consequences of natural hybridization between Senecio jacobaea and S. aquaticus. It is shown that many factors are involved in hybrid fitness, and that hybridization can alter the expression of primary and secondary metabolites in plants. Show less