Your search keyword '"Dhondt, S."' showing total 4 results

1. Entrepreneurial Ecosystems: Measurement, mechanisms and outcomes

Author

Strategy, Organisation, Entrepreneurship, Stam, Erik, Bosma, Niels, Dhondt, S., Schrijvers, Mirella Theresia, Strategy, Organisation, Entrepreneurship, Stam, Erik, Bosma, Niels, Dhondt, S., and Schrijvers, Mirella Theresia

Published

2024

2. Current Advances and Material Innovations in the Search for Novel Treatments of Phenylketonuria.

Author

Delbreil P, Dhondt S, Kenaan El Rahbani RM, Banquy X, Mitchell JJ, and Brambilla D

Subjects

Humans, Phenylalanine chemistry, Phenylalanine Hydroxylase genetics, Phenylalanine Hydroxylase metabolism, Biopterins analogs & derivatives, Biopterins therapeutic use, Biopterins metabolism, Animals, Recombinant Proteins, Phenylketonurias metabolism, Phenylketonurias therapy, Phenylketonurias drug therapy, Phenylalanine Ammonia-Lyase metabolism, Phenylalanine Ammonia-Lyase genetics

Abstract

Phenylketonuria (PKU) is a genetically inherited disease caused by a mutation of the gene encoding phenylalanine hydroxylase (PAH) and is the most common inborn error of amino acid metabolism. A deficiency of PAH leads to increased blood and brain levels of phenylalanine (Phe), which may cause permanent neurocognitive symptoms and developmental delays if untreated. Current management strategies for PKU consist of early detection through neonatal screening and implementation of a restrictive diet with minimal amounts of natural protein in combination with Phe-free supplements and low-protein foods to meet nutritional requirements. For milder forms of PKU, oral treatment with synthetic sapropterin (BH4), the cofactor of PAH, may improve metabolic control of Phe and allow for more natural protein to be included in the patient's diet. For more severe forms, daily injections of pegvaliase, a PEGylated variant of phenylalanine ammonia-lyase (PAL), may allow for normalization of blood Phe levels. However, the latter treatment has considerable drawbacks, notably a strong immunogenicity of the exogenous enzyme and the attached polymeric chains. Research for novel therapies of PKU makes use of innovative materials for drug delivery and state-of-the-art protein engineering techniques to develop treatments which are safer, more effective, and potentially permanent., (© 2024 Wiley‐VCH GmbH.)

Published

2024

3. High-throughput phenotyping reveals multiple drought responses of wild and cultivated Phaseolinae beans.

Author

Verheyen J, Dhondt S, Abbeloos R, Eeckhout J, Janssens S, Leyns F, Scheldeman X, Storme V, and Vandelook F

Abstract

Introduction: Although drought resistance of a plant may be achieved through morphological, structural, physiological, cellular, and molecular adaptations, most studies remain limited to quantifying the effect of drought on biomass., Methods: Using a highthroughput phenotypic imaging system, we evaluated the drought resistance of 151 bean accessions (Phaseolinae; Fabaceae) in an explorative approach, by quantifying five different traits simultaneously: biomass, water use efficiency (WUE), relative water content (RWC), chlorophyll content (NDVI), and root/shoot ratio. Since crop wild relatives are important resources for breeding programs, we analyzed both wild and cultivated accessions, most of which have never been evaluated for drought resistance before., Results: We demonstrate that the five traits are affected very differently by drought in the studied accessions, with significant correlations existing only between the biomass and WUE indicators (r=0.39), and between the RWC and NDVI indicators (r=0.40). When grouping accessions by subgenus or by species, large intraspecific and withinsubgenus variation was found. For this reason, we performed a cluster analysis, which grouped the accessions into five distinct clusters with similar response profiles. We also correlated the drought resistance for each accession to local climate variables at their original collection sites. The biomass, WUE, and RWC indicators were significantly correlated to annual precipitation (r=0.40, r=0.20, r=0.22, respectively), confirming that accessions from arid environments are generally more drought resistant., Discussion: Our results demonstrate that the drought resistance of Phaseolinae beans is a multifaceted characteristic and cannot be simply quantified through biomass. Furthermore, the broader knowledge of the drought resistance of the accessions studied here may prove an invaluable resource for future crop production., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Verheyen, Dhondt, Abbeloos, Eeckhout, Janssens, Leyns, Scheldeman, Storme and Vandelook.)

Published

2024

4. PhenoWell®-A novel screening system for soil-grown plants.

Author

Li J, Mintgen MAC, D'Haeyer S, Helfer A, Nelissen H, Inzé D, and Dhondt S

Abstract

As agricultural production is reaching its limits regarding outputs and land use, the need to further improve crop yield is greater than ever. The limited translatability from in vitro lab results into more natural growth conditions in soil remains problematic. Although considerable progress has been made in developing soil-growth assays to tackle this bottleneck, the majority of these assays use pots or whole trays, making them not only space- and resource-intensive, but also hampering the individual treatment of plants. Therefore, we developed a flexible and compact screening system named PhenoWell® in which individual seedlings are grown in wells filled with soil allowing single-plant treatments. The system makes use of an automated image-analysis pipeline that extracts multiple growth parameters from individual seedlings over time, including projected rosette area, relative growth rate, compactness, and stockiness. Macronutrient, hormone, salt, osmotic, and drought stress treatments were tested in the PhenoWell® system. The system is also optimized for maize with results that are consistent with Arabidopsis while different in amplitude. We conclude that the PhenoWell® system enables a high-throughput, precise, and uniform application of a small amount of solution to individually soil-grown plants, which increases the replicability and reduces variability and compound usage., Competing Interests: A patent application (WO/2018/033603) on the described technology has been filed by the authors' institution., (© 2023 The Authors. Plant‐Environment Interactions published by New Phytologist Foundation and John Wiley & Sons Ltd.)

Published

2023