Nederlandse laagveengebieden vormen voor het habitattype overgangs- en trilvenen een zwaartepunt in Noordwest-Europa. In veel van deze gebieden wordt een negatieve trend van verzuring, verdroging en vermesting waargenomen. Hoe deze systemen precies functioneren en welke bijdrage een verhoogde atmosferische stikstofdepositie heeft op de vegetatiesuccessie in kraggenverlandingen, is echter onbekend. In een OBN-onderzoek zijn 110 locaties met overgangs- en trilvenen in 21 Nederlandse laagvenen bemonsterd voor standplaatsfactoren en vegetatiesamenstelling.
MULTIFILE
Bisphosphonates (BPs) are widely used in the treatment of osteolytic bone disease associated with multiple myeloma, and have been demonstrated to exert antitumor effects both in vitro and in vivo. However, the precise molecular mechanisms involved in the direct antitumor effects of BPs in vitro are not known. Nitrogen-containing BPs, such as risedronate (RIS), act by inhibiting protein prenylation. A phosphonocarboxylate analogue of RIS, 3-PEHPC, has previously been shown in osteoclasts and macrophages to specifically inhibit prenylation of Rab GTPases. The aim of this study was to identify the molecular targets of RIS and 3-PEHPC in human myeloma cells and to determine the cellular effects of selective inhibition of Rab prenylation by 3-PEHPC as compared to nonspecific inhibition of protein prenylation by RIS in human myeloma cells. RIS dose-dependently inhibited prenylation of both Rap1A and Rab6, whereas 3-PEHPC only inhibited Rab6 prenylation. Both RIS and 3-PEHPC dose-dependently increased apoptosis in human myeloma cells. RIS induced an accumulation of cells in the S-phase of the cell cycle, associated with inhibition of DNA replication. In contrast, 3-PEHPC did not cause cell-cycle arrest. Furthermore, geranylgeraniol could prevent inhibition of prenylation, induction of apoptosis, and cell-cycle arrest in response to RIS, but not inhibition of Rab prenylation and apoptosis induced by 3-PEHPC, consistent with specific inhibition of Rab geranylgeranyl transferase by 3-PEHPC. In conclusion, our studies demonstrate that selective inhibition of Rab prenylation induces apoptosis, but not S-phase arrest, thus identifying distinct molecular pathways that mediate the antimyeloma effect of nitrogen-containing BPs. © 2006 Wiley-Liss, Inc.
Ammonia is heavily used in agriculture as a fertilizer and in industry as a raw material for the production of various organic nitrogen compounds. Its high hydrogen content and its established infrastructure for both storage and distribution makes ammonia a prominent candidate for storing fluctuating renewable energy. The Haber-Bosch heterogenous reaction of hydrogen and nitrogen on an iron-based catalyst is used today at large scale ammonia production sites. The current industrial hydrogen production is dominated by fossil energy sources. The traditional Haber-Bosch process can become green and carbon-free if renewable electricity is used for hydrogen generation. However, a continuous operation of power to ammonia can be challenging with a fluctuating renewable energy source. Techno-economic models show that electrolysis and the hydrogen supply chain is the main dominating cost factor of power to ammonia.
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The growing awareness of consumers of the increasing problem with livestock and meat production due to the high nitrogen emissions and the related impact on climate change drives consumption of plant based vegetarian alternatives. Similarly there is also an increasing demand for animal-free, eco-friendly alternative vegan leather. Consequently there has been significant interest in developing leather-like vegan materials from multiple plant sources, such as mango, pineapple and mushroom based materials. However, the commercialization and the growth of sustainable vegan leather production is hampered significantly by the difficulty of achieving the needed quality for the various consumer products as well as the high prices of the vegan alternatives. In the Growing Leather project two SMEs, BioscienZ and B4Plastics, will combine forces with Avans University of Applied Sciences to develop vegan leather from the mushroom based material called mycelium. BioScienZ is a biotech company with strong expertise and capacity to produce low-cost and consistent quality mycelium. B4Plastics is a material development company, with strengths in designing and distributing eco-plastic products. In this project Avans University will use several mycelium types (produced by BioscienZ), and with the guidance of B4Plastics, it will test various additives under many different conditions, to ultimately develop an environmentally friendly, vegan material that will have comparable material characteristics to animal leather and is competitive in price.
The reclaiming of street spaces for pedestrians during the COVID-19 pandemic, such as on Witte de Withstraat in Rotterdam, appears to have multiple benefits: It allows people to escape the potentially infected indoor air, limits accessibility for cars and reduces emissions. Before ordering their coffee or food, people may want to check one of the many wind and weather apps, such as windy.com: These apps display the air quality at any given time, including, for example, the amount of nitrogen dioxide (NO2), a gas responsible for an increasing number of health issues, particularly respiratory and cardiovascular diseases. Ships and heavy industry in the nearby Port of Rotterdam, Europe’s largest seaport, exacerbate air pollution in the region. Not surprisingly, in 2020 Rotterdam was ranked as one of the unhealthiest cities in the Netherlands, according to research on the health of cities conducted by Arcadis. Reducing air pollution is a key target for the Port Authority and the City of Rotterdam. Missing, however, is widespread awareness among citizens about how air pollution links to socio-spatial development, and thus to the future of the port city cluster of Rotterdam. To encourage awareness and counter the problem of "out of sight - out of mind," filmmaker Entrop&DeZwartFIlms together with ONSTV/NostalgieNet, and Rotterdam Veldakademie, are collaborating with historians of the built environment and computer science and public health from TU Delft and Erasmus University working on a spatial data platform to visualize air pollution dynamics and socio-economic datasets in the Rotterdam region. Following discussion of findings with key stakeholders, we will make a pilot TV-documentary. The documentary, discussed first with Rotterdam citizens, will set the stage for more documentaries on European and international cities, focusing on the health effects—positive and negative—of living and working near ports in the past, present, and future.
This project has received funding from the Bio-based Industries Joint Undertaking under the European Union's Horizon 2020 research and innovation programme under grant agreement No 720726LIBBIO is a European research project on Andes Lupin (Lupinus mutabilis, tarwi) cropping in marginal lands for enhanced bio economy. Lupin has the ability to fix nitrogen, mobilise soil phosphate and has low nutritional requirements for cultivation. Varieties will be chosen that give high yield of green silage or high yield of seeds which contain more than 20% oil, more than 40% protein and the remaining materials are carbohydrates, mainly oligosaccharides characterized as “prebiotics”. Andes lupin will be grown as a summer crop in N-central Europe and as winter crop in Mediterranean conditions. Pre-industrial processing is developed and optimized for the lupin, properties of the different fractions analysed, their advantage for different industrial use evaluated, and a few products developed as an example. Social and environmental impact will be evaluated as well as techno-economic viability and effect on farm and biorefinery income.This project has received funding from the Bio-based Industries Joint Undertaking under the European Union's Horizon 2020 research and innovation programme under grant agreement No 720726
