Your search keyword '"Blancquaert D"' showing total 37 results

1. Wat als droogbloemen minder populair worden?

Author

Blindeman, L., Blancquaert, D., Blindeman, L., and Blancquaert, D.

Abstract

De biologische sierteelt omvat op dit moment bijna uitslui- tend snijbloemenbedrijven. Deze sector is vrij jong en kent momenteel een exponentiële groei. Vooral het aandeel aan pluktuinen, al dan niet via het CSA-principe, neemt sterk toe. De coronacrisis heeft de populariteit van pluktuinen, en bij uitbreiding de ganse sierteelt (al dan niet bio) de hoogte ingejaagd. Naast pluktuinen zijn er ook een aantal biobloe- mentelers actief die hoofdzakelijk een B2B afzet kennen en verkopen aan floristen.

Published

2022

2. Biobloemen: kleur van op het bioveld tot bij de consument’, een overzicht van de realisaties

Author

Blindeman, L., Blancquaert, D., Jamart, A., Van Ranst, M., De Groote, S., Blindeman, L., Blancquaert, D., Jamart, A., Van Ranst, M., and De Groote, S.

Abstract

In november 2018 werd groen licht gegeven voor de start van het plattelandsproject ‘Biobloemen: kleur van op het bioveld tot bij de consument’. Hiervoor sloegen het Proefcentrum voor Sierteelt (PCS), BioForum en Proefcentrum voor Groenteteelt (PCG) de handen in elkaar. Inmiddels liep het project op zijn einde en geven we in dit artikel een overzicht van een aantal realisaties uit deze projectperiode.

Published

2021

3. Door de bomen terug het bos zien : Werken aan duurzame klantrelaties

Author

Blancquaert, D., Raaij, M. Van, Meulemeester, P., Blancquaert, D., Raaij, M. Van, and Meulemeester, P.

Abstract

Bij veel telers nam het aantal klanten sterk toe doorheen de jaren, waardoor het moeilijk wordt om alle klanten op hun wenken te blijven bedienen en alle wensen te vervullen. Maar hoe kan je hiermee omgaan? Hoe kan je je klantrelaties versterken en tegelijkertijd zelf veel meer sturen?

Published

2021

4. Zorg voor een correcte prijsvorming! : Rechtstreeks verkopen aan de consument?

Author

Blancquaert, D., Pauwels, E., Oost, P. van, Blancquaert, D., Pauwels, E., and Oost, P. van

Abstract

Het wegvallen van de export en de sluiting van de tuincentra en bloemenwinkels afgelopen voorjaar noopten de telers om creatief te zijn, zodat ze hun product waar ze terecht fier op zijn, toch bij de consument konden krijgen. Hoewel dit tot tevredenheid van alle partijen was, willen we toch een kantlijn plaatsen bij deze particuliere verkoop.

Published

2020

5. relanceplan voor de sierteelt na COVID-19

Author

Blancquaert, D., Gobin, B., Oost, P. Van, Blancquaert, D., Gobin, B., and Oost, P. Van

Abstract

Net als vele andere sectoren, heeft de coronacrisis ook de sierteeltsector zwaar getroffen. De economische gevolgen zijn niet te overzien. Hoelang de crisis zal duren, is koffiedik kijken, maar we zijn nu al zeker dat na de crisis het landschap binnen de sierteeltsector, zowel qua productie als qua afzet, er helemaal anders zal uitzien. Om de siertelers ten volle te ondersteunen en de bedrijven veerkracht te geven na de crisis, stellen het PCS en AVBS momenteel een relanceplan op.

Published

2020

6. Naar een eenvoudige kostprijsberekening bij azalea

Author

Blancquaert, D. and Blancquaert, D.

Abstract

Weinig sierteeltbedrijven doen op een correcte manier aan kostprijsberekening. Het PCS stelde daarom een vereenvoudigd kostprijsberekeningsmodel op voor de azaleateelt. Dit is nu vrij beschikbaar.

Published

2020

7. Kostprijsberekening bij potchrysant

Author

Blancquaert, D. and Blancquaert, D.

Abstract

De populariteit van potchrysant heeft al een tijdje een knauw gekregen. Toch is het een prachtige plant die als geen ander tuinen, terrassen en de openbare ruimte kan opfleuren in een periode waar de natuur wat somberder wordt. Uiteraard komt deze bloemenpracht met een prijs. Het vraagt moeite, tijd en ruimte vooraleer een potchrysant op de markt wordt gebracht. In dit artikel trachten we hier een concreet getal op te kleven en gaan we na of de teelt van potchrysant nog rendabel genoeg is.

Published

2018

8. Siertelers maken bedrijfsevaluatie en kijken naar de toekomst

Author

Blancquaert, D. and Blancquaert, D.

Abstract

Heel wat siertelers hebben enkele moeilijke jaren achter de rug. Gelukkig vangen we her en der positievere signalen op en horen we dat de verkoop binnen bepaalde subsectoren terug in de lift zit. In de zomer van 2017 heeft het PCS een grootschalige bevraging uitgestuurd naar de sector om te polsen naar de huidige situatie binnen het bedrijf en hoe siertelers de toekomst van het bedrijf en de sector in het algemeen zien. Een bloemlezing van de resultaten!

Published

2018

9. Kostprijsberekening en rentabiliteit in de sierteelt : neem gefundeerde bedrijfsbeslissingen en oogst succes!

Author

Blancquaert, D., Van Belleghem, K., Blancquaert, D., and Van Belleghem, K.

Abstract

Deze brochure dient als leidraad om zelf kostprijsberekening uit te voeren en geeft tips op welke manier je de rentabiliteit van je bedrijf en haar producten kan verhogen.

Published

2018

10. Kostprijsberekening bij warme kasteelten

Author

Blancquaert, D. and Blancquaert, D.

Abstract

In het kader van het demonstratieproject ‘Telen met inzicht’ hebben we de voorbije maanden vijftien sierteeltbedrijven bezocht en een kostprijsberekening gedaan van hun verschillende producten. Hierbij werden de bedrijven zo geselecteerd, dat een zo divers mogelijk gamma aan teelten aan bod kwam. Immers, de kostenstructuur hangt sterk af van het teelttype. In dit artikel lichten we de verschillende aspecten van kostprijsberekening toe en gaan we wat dieper in op de situatie bij warme kasteelten. We gingen hiervoor langs bij Joris Volckaert.

Published

2017

11. Opgepast voor quarantaine boomschimmels

Author

Blancquaert, D. and Blancquaert, D.

Abstract

Door de toegenomen mobiliteit, internationale handel en het opwarmende klimaat wordt de kans dat quarantaine boomschimmels onze contreien bereiken steeds groter. Deze vormen niet alleen een bedreiging voor de gezondheid van bossen en ander openbaar groen, ook de export van onze bomen kan hierdoor in het gedrang komen. Er snel bij zijn en kordaat optreden is dus de boodschap! We werpen een licht op enkele quarantaine boomschimmels die van belang zijn voor onze boomkwekerijen.

Published

2017

12. Kostprijsberekening bij azalea

Author

Blancquaert, D. and Blancquaert, D.

Abstract

De Gentse azalea staat hoog aangeschreven als een rasecht Europees erkend streekproduct waar we terecht trots op mogen zijn. Toch gaat het aantal azaleabedrijven sterk achteruit. Dit heeft uiteraard alles te maken met de dalende populariteit bij de consument, waardoor ook de verkoopprijs sterk onder druk staat. Het is voor een azaleateler meer dan ooit noodzakelijk om de kostprijs van zijn product te kennen en bij te sturen waar mogelijk.

Published

2017

13. Proeven boomkwekerij in beeld

Author

Rys, R., Van Haecke, D., Van Remoortere, L., Christiaens, A., Dierickx, M., Adriaensens, S., Delcour, I, Blancquaert, D., Vissers, M., Rys, R., Van Haecke, D., Van Remoortere, L., Christiaens, A., Dierickx, M., Adriaensens, S., Delcour, I, Blancquaert, D., and Vissers, M.

Published

2017

14. Kostprijsberekening in de boomkwekerij

Author

Blancquaert, D. and Blancquaert, D.

Abstract

Dat kostprijsberekening binnen de sierteelt geen gemakkelijke opgave is, daar is iedereen het over eens. Maar hoe pakken we dit het beste aan? Via het demonstratieproject ‘Telen met inzicht’ willen we siertelers warm maken om zelf de oefening te doen en wij helpen hen daarbij graag! In dit artikel, het derde in zijn reeks, belichten we kostprijsberekening in de boomkwekerij. Een boomkweker die zijn cijfers kent en inzicht heeft in de kostprijs van zijn product heeft alle wapens in handen om ook in de toekomst een rendabel bedrijf te runnen!

Published

2017

15. Boomkwekerij : erosiemaatregelen gedemonstreeerd

Author

Blancquaert, D. and Blancquaert, D.

Abstract

Op 17 oktober vond in het kader van het project ‘Erosie in de sier- en fruitteelt: een brongerichte aanpak’ een demonstratie plaats van erosiebestrijdende maatregelen op boomkwekerijpercelen in Velzeke en Sint-Lievens-Houtem. Onder het oog van een twintigtal geïnteresseerden werden de kranen opengedraaid en het effect van de verschillende maatregelen gedemonstreerd.

Published

2017

16. Wilgenbroek : kennis van kostprijs product ontontbeerlijk voor een gezond bedrijf

Author

Blancquaert, D. and Blancquaert, D.

Abstract

Thierry Van Paemel en echtgenote Anneke namen 17 jaar geleden een tuincentrum over in Oostkamp. Uit passie voor de Helleborus groeide het bedrijf uit tot een Helleboruskwekerij van 12 hectare. Thierry en Anneke reageerden positief op de oproep om mee te werken aan het net gestarte demonstratieproject 'Telen met inzicht'. Projectmedewerkers Dieter Blancquaert (PCS) en Hannes Buyle (VMS) brachten hen een bezoek, spraken met hen over het belang van een juiste kostprijsberekening en demonstreerden Aquino om de berekening uit te voeren.

Published

2016

17. Folate Biofortification of Potato by Tuber-Specific Expression of Four Folate Biosynthesis Genes.

Author

De Lepeleire J, Strobbe S, Verstraete J, Blancquaert D, Ambach L, Visser RGF, Stove C, and Van Der Straeten D

Subjects

Oryza metabolism, Plant Proteins metabolism, Solanum tuberosum metabolism, Folic Acid metabolism, Metabolic Engineering methods, Plants, Genetically Modified metabolism

Abstract

Insufficient dietary intake of micronutrients, known as "hidden hunger", is a devastating global burden, affecting two billion people. Deficiency of folates (vitamin B9), which are known to play a central role in C 1 metabolism, causes birth defects in at least a quarter million people annually. Biofortification to enhance the level of naturally occurring folates in crop plants, proves to be an efficient and cost-effective tool in fighting folate deficiency. Previously, introduction of folate biosynthesis genes GTPCHI and ADCS, proven to be a successful biofortification strategy in rice and tomato, turned out to be insufficient to adequately increase folate levels in potato tubers. Here, we provide a proof of concept that additional introduction of HPPK/DHPS and/or FPGS, downstream genes in mitochondrial folate biosynthesis, enables augmentation of folates to satisfactory levels (12-fold) and ensures folate stability upon long-term storage of tubers. In conclusion, this engineering strategy can serve as a model in the creation of folate-accumulating potato cultivars, readily applicable in potato-consuming populations suffering from folate deficiency., (Copyright © 2017 The Author. Published by Elsevier Inc. All rights reserved.)

Published

2018

18. Dihydrofolate Reductase/Thymidylate Synthase Fine-Tunes the Folate Status and Controls Redox Homeostasis in Plants.

Author

Gorelova V, De Lepeleire J, Van Daele J, Pluim D, Meï C, Cuypers A, Leroux O, Rébeillé F, Schellens JHM, Blancquaert D, Stove CP, and Van Der Straeten D

Subjects

Arabidopsis genetics, Arabidopsis metabolism, Arabidopsis Proteins genetics, Gene Expression Regulation, Enzymologic, Gene Expression Regulation, Plant, Isoenzymes genetics, Isoenzymes metabolism, Mutation, NADP metabolism, Oxidation-Reduction, Phylogeny, Plants, Genetically Modified, Tetrahydrofolate Dehydrogenase classification, Tetrahydrofolate Dehydrogenase genetics, Thymidylate Synthase classification, Thymidylate Synthase genetics, Arabidopsis Proteins metabolism, Folic Acid metabolism, Homeostasis, Tetrahydrofolate Dehydrogenase metabolism, Thymidylate Synthase metabolism

Abstract

Folates (B9 vitamins) are essential cofactors in one-carbon metabolism. Since C1 transfer reactions are involved in synthesis of nucleic acids, proteins, lipids, and other biomolecules, as well as in epigenetic control, folates are vital for all living organisms. This work presents a complete study of a plant DHFR-TS (dihydrofolate reductase-thymidylate synthase) gene family that implements the penultimate step in folate biosynthesis. We demonstrate that one of the DHFR-TS isoforms (DHFR-TS3) operates as an inhibitor of its two homologs, thus regulating DHFR and TS activities and, as a consequence, folate abundance. In addition, a novel function of folate metabolism in plants is proposed, i.e., maintenance of the redox balance by contributing to NADPH production through the reaction catalyzed by methylenetetrahydrofolate dehydrogenase, thus allowing plants to cope with oxidative stress., (© 2017 American Society of Plant Biologists. All rights reserved.)

Published

2017

19. The socioeconomics of genetically modified biofortified crops: a systematic review and meta-analysis.

Author

De Steur H, Wesana J, Blancquaert D, Van Der Straeten D, and Gellynck X

Subjects

Asia, Consumer Behavior, Cost-Benefit Analysis, Folic Acid economics, Humans, Manihot, Micronutrients deficiency, Solanum tuberosum, Biofortification economics, Food, Fortified economics, Oryza genetics

Abstract

Building upon the growing interest and research on genetically modified (GM) biofortification, its socioeconomic potential has been increasingly examined. We conducted two systematic reviews and meta-analyses to provide comprehensive evidence of consumers' willingness to pay (11 economic valuation studies, 64 estimates) and cost-effectiveness/benefits (five economic evaluation studies, 30 estimates). Worldwide, consumers were willing to pay 23.9% more for GM biofortified food crops. Aside from crop and design-related differences, information provision was deemed crucial. Positive information (nutrition and GM benefits) is associated with the highest consumer willingness to pay, compared with negative, objective, and conflicting GM information, especially when negative information was mentioned last. This health intervention would reduce the aggregated micronutrient deficiency burden in Asia (15.6 million disability-adjusted life years (DALYs)) by 12.5-51.4%, at a low cost of USD 7.9-27.8 per DALY in a pessimistic and optimistic scenario, respectively. Given that GM biofortified crops could tackle hidden hunger in a cost-effective and well-accepted way, its implementation is worth pursuing. A case study on folate biofortification further elaborates on the importance of socioeconomic research and the determinants of their market potential., (© 2016 New York Academy of Sciences.)

Published

2017

20. Methods matter: a meta-regression on the determinants of willingness-to-pay studies on biofortified foods.

Author

De Steur H, Wesana J, Blancquaert D, Van Der Straeten D, and Gellynck X

Subjects

Agriculture, Attitude to Health, Cost-Benefit Analysis, Genetic Techniques, Humans, Biofortification economics, Crops, Agricultural economics, Food, Fortified economics, Micronutrients

Abstract

Following the growing evidence on biofortification as a cost-effective micronutrient strategy, various researchers have elicited consumers' willingness to pay (WTP) for biofortified crops in an effort to justify and determine their adoption. This review presents a meta-analysis of WTP studies on biofortified foods, either developed through conventional breeding or using genetic modification technology. On the basis of 122 estimates from 23 studies (9507 respondents), consumers are generally willing to pay 21.3% more for biofortified crops. Because WTP estimates are often determined through different valuation methods and procedures, a meta-regression was carried out to examine the role of potential determinants. Aside from contextual factors, such as type of food crop, target nutrient, and region (but not breeding technique), various methodological factors significantly influence premiums, including the type of respondent, nature of the study, study environment, participation fee, and provided information. The findings allow researchers to better anticipate potential methodological biases when examining WTP for (biofortified) foods, while it gives policy makers a broad understanding of the potential demand for different biofortified crops in various settings., (© 2016 New York Academy of Sciences.)

Published

2017

21. Metabolic engineering of micronutrients in crop plants.

Author

Blancquaert D, De Steur H, Gellynck X, and Van Der Straeten D

Subjects

Anemia therapy, Animals, Biological Availability, Crops, Agricultural, Humans, Micronutrients deficiency, Minerals analysis, Vitamins analysis, Biofortification, Food, Fortified, Metabolic Engineering, Micronutrients analysis

Abstract

Micronutrient deficiency is a widespread phenomenon, most prevalent in developing countries. Being causally linked to the occurrence of a range of diseases, it affects billions of people worldwide. Enhancing the content of micronutrients in crop products through biotechnology is a promising technique to fight micronutrient malnutrition worldwide. Micronutrient fortification of food products has been implemented in a number of Western countries, but remains inaccessible for poor rural populations in a major part of the developing world. Moreover, evidence of the negative impacts of this practice on human health, at least for some vitamins, is accumulating. Biofortification of crop plants-the enhancement of vitamins and minerals through plant biotechnology-is a promising alternative or complement in the battle against micronutrient deficiencies. Owing to a growing knowledge about vitamin metabolism, as well as mineral uptake and reallocation in plants, it is today possible to enhance micronutrient levels in crop plants, offering a sustainable solution to populations with a suboptimal micronutrient intake., (© 2016 New York Academy of Sciences.)

Published

2017

22. Degradation and interconversion of plant pteridines during sample preparation and ultra-high performance liquid chromatography-tandem mass spectrometry.

Author

Van Daele J, Blancquaert D, Kiekens F, Van Der Straeten D, Lambert WE, and Stove CP

Subjects

Arabidopsis metabolism, Molecular Structure, Plant Extracts metabolism, Pteridines metabolism, Solanum tuberosum metabolism, Arabidopsis chemistry, Chromatography, High Pressure Liquid methods, Plant Extracts chemistry, Pteridines chemistry, Solanum tuberosum chemistry, Tandem Mass Spectrometry methods

Abstract

The degradation and interconversion of a selected set of pterins (dihydroneopterin, hydroxymethyldihydropterin, dihydroxanthopterin, neopterin, hydroxymethylpterin, xanthopterin, 6-formylpterin, 6-carboxypterin and pterin), spiked to charcoal-treated potato and Arabidopsis thaliana matrix was investigated, together with their relative recovery in potato and A. thaliana. As a result, a matrix-specific procedure for the ultra-high performance liquid chromatography-tandem mass spectrometry based determination of 6 aromatic pterins (neopterin, hydroxymethylpterin, xanthopterin, 6-formylpterin, 6-carboxypterin and pterin) is proposed: 1.5ml of an N2-flushed, alkaline (pH=10) extraction solvent is added to 200mg of plant sample. After boiling and homogenization, the samples are incubated: Arabidopsis samples for 30min at room temperature, while shaking, and potato samples for 2h at 37°C (applying a dienzyme treatment with α-amylase and protease). After a final boiling step, the samples are ultrafiltrated and resulting extracts are analyzed by UHPLC-MS/MS., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2016

23. Determination of five folate monoglutamates in rodent diets.

Author

Kiekens F, Daele JV, Blancquaert D, Van Der Straeten D, Lambert WE, and Stove CP

Subjects

Animals, Folic Acid analysis, Rodentia, Animal Feed analysis, Chemistry Techniques, Analytical methods, Folic Acid analogs & derivatives, Glutamates analysis

Abstract

A method for the quantitative determination of folates in rodent diets is very important for correct interpretation of folate intake during feeding trials, given the possible discrepancy between the actual folate concentration in the diet and that mentioned on the product sheet. Liquid chromatography tandem-mass spectrometry is the method of choice to differentiate and quantify the individual folate species present. This discrepancy may be accounted for by, e.g., inaccurate folic acid supplementation and/or the presence of endogenous reduced and substituted folates. We developed a method, validated based on FDA guidelines, that allows the measurement of added and endogenous folates by quantitative determination of 5 folate monoglutamates with linear ranges from 8 μg to 2 mg/kg feed. This information, combined with feed intake data, allows insight into the actual folate intake in animal feeding studies. The relevance of this method was illustrated by the analysis of several feed samples of varying composition, by the investigation of the effect of casein incorporation, and by evaluating the variability of the folate content between pellets and production batches.

Published

2015

24. Improving folate (vitamin B9) stability in biofortified rice through metabolic engineering.

Author

Blancquaert D, Van Daele J, Strobbe S, Kiekens F, Storozhenko S, De Steur H, Gellynck X, Lambert W, Stove C, and Van Der Straeten D

Subjects

Dietary Supplements, Drug Stability, Plant Proteins genetics, Plants, Genetically Modified chemistry, Plants, Genetically Modified genetics, Folic Acid chemistry, Folic Acid genetics, Genetic Enhancement methods, Metabolic Engineering methods, Oryza chemistry, Oryza genetics

Abstract

Biofortification of staple crops could help to alleviate micronutrient deficiencies in humans. We show that folates in stored rice grains are unstable, which reduces the potential benefits of folate biofortification. We obtain folate concentrations that are up to 150 fold higher than those of wild-type rice by complexing folate to folate-binding proteins to improve folate stability, thereby enabling long-term storage of biofortified high-folate rice grains.

Published

2015

25. A validated ultra-high-performance liquid chromatography-tandem mass spectrometry method for the selective analysis of free and total folate in plasma and red blood cells.

Author

Kiekens F, Van Daele J, Blancquaert D, Van Der Straeten D, Lambert WE, and Stove CP

Subjects

Folic Acid analogs & derivatives, Glutamates analysis, Humans, Blood Chemical Analysis methods, Chromatography, High Pressure Liquid, Chromatography, Liquid, Erythrocytes chemistry, Folic Acid analysis, Folic Acid blood, Plasma chemistry, Tandem Mass Spectrometry

Abstract

A stable isotope dilution LC-MS/MS method is the method of choice for the selective quantitative determination of several folate species in clinical samples. By implementing an integrated approach to determine both the plasma and red blood cell (RBC) folate status, the use of consumables and time remains limited. Starting from a single 300μl whole blood sample, the folate status in plasma and RBCs can be determined after separating plasma and RBCs and sequential washing of the latter with isotonic buffer, followed by reproducible lysis using an ammonium-based buffer. Acidification combines both liberation of protein bound folates and protein precipitation. Sample cleanup is performed using a 96-well reversed-phase solid-phase extraction procedure, similar for both plasma and RBC samples. Analyses are performed by UHPLC-MS/MS. Method validation was successfully performed based on EMA-guidelines and encompassed selectivity, carry-over, linearity, accuracy, precision, recovery, matrix effect and stability. Plasma and RBC folates could be quantified in the range of 1-150nmol/l and 5-1500nmol/l, respectively. This method allows for the determination of 6 folate monoglutamates in both plasma and RBCs. It can be used to determine short and long term folate status in both normal and severely deficient subjects in a single analytical sequence., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published

2015

26. Folates from metabolically engineered rice: a long-term study in rats.

Author

Kiekens F, Blancquaert D, Devisscher L, Van Daele J, Stove VV, Delanghe JR, Van Der Straeten D, Lambert WE, and Stove CP

Subjects

Animals, Body Weight drug effects, Erythrocytes drug effects, Erythrocytes metabolism, Female, Folic Acid blood, Food, Fortified, Hematocrit, Homocysteine blood, Longitudinal Studies, Oryza metabolism, Plants, Genetically Modified genetics, Plants, Genetically Modified metabolism, Rats, Wistar, Vitamin B 12 blood, Folic Acid pharmacology, Oryza chemistry, Plants, Genetically Modified chemistry

Abstract

Scope: The biological impact of folates from folate rice, a metabolically engineered (biofortified) rice line, rich in folates, was investigated. Its consumption may be helpful to fight folate deficiency. Our objective was to investigate the potential of folate rice to supply the organism with folates and evaluate its biological effectiveness using a rat model., Methods and Results: Five groups of 12 Wistar rats were monitored during a 7/12-wk depletion/repletion trial. Animals receiving folate-free diet (0 μg/rat/day) and those additionally receiving wild-type rice (on average 0.11 μg/rat/day) suffered from decreased hematocrit and lower folate concentrations in both plasma and RBCs. This resulted in serious morbidity and even lethality during the trial. In contrast, all animals receiving a daily supplement of folate rice or folic acid fortified rice (on average 3.00 μg/rat/day and 3.12 μg/rat/day, respectively) and those receiving a positive control diet (11.4 to 25.0 μg/rat/day), survived. In these groups, the hematocrit normalized, plasma and RBC folate concentrations increased and pronounced hyperhomocysteinemia was countered., Conclusion: Using an animal model, we demonstrated that biofortified folate rice is a valuable source of dietary folate, as evidenced by folate determination in plasma and RBCs, the alleviation of anemia and counteraction of pronounced hyperhomocysteinemia., (© 2014 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2015

27. Corrigendum: Status and market potential of transgenic biofortified crops.

Author

De Steur H, Blancquaert D, Strobbe S, Lambert W, Gellynck X, and Van Der Straeten D

Published

2015

28. Status and market potential of transgenic biofortified crops.

Author

De Steur H, Blancquaert D, Strobbe S, Lambert W, Gellynck X, and Van Der Straeten D

Subjects

Crops, Agricultural genetics, Plants, Genetically Modified

Published

2015

29. Wounding stress causes rapid increase in concentration of the naturally occurring 2',3'-isomers of cyclic guanosine- and cyclic adenosine monophosphate (cGMP and cAMP) in plant tissues.

Author

Van Damme T, Blancquaert D, Couturon P, Van Der Straeten D, Sandra P, and Lynen F

Subjects

Arabidopsis chemistry, Plant Leaves chemistry, Cyclic AMP analysis, Cyclic GMP analysis, Guanosine analysis, Stress, Physiological physiology

Abstract

3',5'-Cyclic guanosine monophosphate (cGMP) and 3',5'-cyclic adenosine monophosphate (cAMP) are well reported second messenger molecules involved in cellular signal transduction, in physiological functions such as neurotransmission in animals and in the modulation of cell growth and differentiation. In plants, 3',5'-cyclic nucleotides have been implicated in the regulation of ion homeostasis, hormone and stress responses. The behavior of the 2',3'-cyclic nucleotide variants is also known in animal tissue but no quantitative information is available about 2',3'-cAMP and 2',3'-cGMP in plant material. A recently developed HILIC-SPE/LC-MS/MS method for the analysis of cyclic nucleotides in blood and animal tissue was therefore adapted to measure 2',3'-cAMP and 2',3'-cGMP concentrations in plant material. Cyclic nucleotide concentrations were measured in Arabidopsis thaliana (Col-0) leaves before and after the application of wounding stress. A significant (∼5-fold) up-regulation of 2',3'-cAMP and 2',3'-cGMP was measured in Arabidopsis leaves compared to the control samples. The results indicate a thus far unreported strong correlation between plant stress and both 2',3'-cAMP and 2',3'-cGMP levels in plant material, and may open new avenues towards understanding the role of cyclic nucleotides in plants., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published

2014

30. Folate Profiling in Potato (Solanum tuberosum) Tubers by Ultrahigh-Performance Liquid Chromatography-Tandem Mass Spectrometry.

Author

Van Daele J, Blancquaert D, Kiekens F, Van Der Straeten D, Lambert WE, and Stove CP

Abstract

An ultrahigh-performance liquid chromatography-tandem mass spectrometry method was developed and validated for the profiling of six folate species in potatoes. The calibration curves cover a wide, linear range (the lower and upper limits of quantitation range between 0.22-0.24 and 216.07-242.28 μg/100 g of fresh weight), allowing sensitive determination in small amounts of potato flesh. With a single exception, the acceptance criteria for intra- and interday precision and accuracy were met: for all quality controls, the percent relative standard deviation and the percent bias were lower than 15% (or 20% at the lower limit of quantitation). Application of the method on tubers at different stages of maturation demonstrated the large variability within a single variety: the folate content and polyglutamylation rate varied between 10.35 and 24.01 μg/100 g of fresh weight and between 4.96% and 60.49%, respectively. Additionally, the two-dimensional folate profiling of mature tubers demonstrated an increase in folate from center to peel, combined with a stable species distribution and polyglutamylation rate.

Published

2014

31. Present and future of folate biofortification of crop plants.

Author

Blancquaert D, De Steur H, Gellynck X, and Van Der Straeten D

Subjects

Biosynthetic Pathways, Crops, Agricultural genetics, Humans, Metabolic Engineering, Plants, Genetically Modified, Crops, Agricultural metabolism, Folic Acid metabolism, Folic Acid Deficiency prevention & control, Food, Fortified adverse effects, Neural Tube Defects prevention & control

Abstract

Improving nutritional health is one of the major socio-economic challenges of the 21st century, especially with the continuously growing and ageing world population. Folate deficiency is an important and underestimated problem of micronutrient malnutrition affecting billions of people worldwide. More and more countries are adapting policies to fight folate deficiency, mostly by fortifying foods with folic acid. However, there is growing concern about this practice, calling for alternative or complementary strategies. In addition, fortification programmes are often inaccessible to remote and poor populations where folate deficiency is most prevalent. Enhancing folate content in staple crops by metabolic engineering is a promising, cost-effective strategy to eradicate folate malnutrition worldwide. Over the last decade, major progress has been made in this field. Nevertheless, engineering strategies have thus far been implemented on a handful of plant species only and need to be transferred to highly consumed staple crops to maximally reach target populations. Moreover, successful engineering strategies appear to be species-dependent, hence the need to adapt them in order to biofortify different staple crops with folate.

Published

2014

32. Engineering complex metabolic pathways in plants.

Author

Farré G, Blancquaert D, Capell T, Van Der Straeten D, Christou P, and Zhu C

Subjects

Genetic Engineering methods, Metabolic Networks and Pathways genetics, Plants genetics, Plants metabolism

Abstract

Metabolic engineering can be used to modulate endogenous metabolic pathways in plants or introduce new metabolic capabilities in order to increase the production of a desirable compound or reduce the accumulation of an undesirable one. In practice, there are several major challenges that need to be overcome, such as gaining enough knowledge about the endogenous pathways to understand the best intervention points, identifying and sourcing the most suitable metabolic genes, expressing those genes in such a way as to produce a functional enzyme in a heterologous background, and, finally, achieving the accumulation of target compounds without harming the host plant. This article discusses the strategies that have been developed to engineer complex metabolic pathways in plants, focusing on recent technological developments that allow the most significant bottlenecks to be overcome.

Published

2014

33. Rice folate enhancement through metabolic engineering has an impact on rice seed metabolism, but does not affect the expression of the endogenous folate biosynthesis genes.

Author

Blancquaert D, Van Daele J, Storozhenko S, Stove C, Lambert W, and Van Der Straeten D

Subjects

Arabidopsis genetics, Arabidopsis Proteins genetics, DNA, Complementary genetics, GTP Cyclohydrolase genetics, GTP Cyclohydrolase metabolism, Gene Expression, Gene Expression Profiling, Gene Expression Regulation, Plant, Metabolic Engineering, Oligonucleotide Array Sequence Analysis, Oryza genetics, Oryza growth & development, Plants, Genetically Modified, RNA, Plant genetics, Real-Time Polymerase Chain Reaction, Seeds genetics, Seeds growth & development, Transaminases genetics, Transaminases metabolism, Arabidopsis enzymology, Arabidopsis Proteins metabolism, Folic Acid metabolism, Gene Expression Regulation, Enzymologic, Oryza metabolism, Seeds metabolism

Abstract

Folates are key-players in one-carbon metabolism in all organisms. However, only micro-organisms and plants are able to synthesize folates de novo and humans rely entirely on their diet as a sole folate source. As a consequence, folate deficiency is a global problem. Although different strategies are currently implemented to fight folate deficiency, up until now, all of them have their own drawbacks. As an alternative and complementary means to those classical strategies, folate biofortification of rice by metabolic engineering was successfully achieved a couple of years ago. To gain more insight into folate biosynthesis regulation and the effect of folate enhancement on general rice seed metabolism, a transcriptomic study was conducted in developing transgenic rice seeds, overexpressing 2 genes of the folate biosynthetic pathway. Upon folate enhancement, the expression of 235 genes was significantly altered. Here, we show that rice folate biofortification has an important effect on folate dependent, seed developmental and plant stress response/defense processes, but does not affect the expression of the endogenous folate biosynthesis genes.

Published

2013

34. Enhancing pterin and para-aminobenzoate content is not sufficient to successfully biofortify potato tubers and Arabidopsis thaliana plants with folate.

Author

Blancquaert D, Storozhenko S, Van Daele J, Stove C, Visser RG, Lambert W, and Van Der Straeten D

Subjects

Arabidopsis metabolism, Arabidopsis Proteins genetics, Arabidopsis Proteins metabolism, DNA, Complementary genetics, DNA, Complementary metabolism, GTP Cyclohydrolase metabolism, Plant Proteins metabolism, Plants, Genetically Modified genetics, Plants, Genetically Modified metabolism, Pterins metabolism, Solanum tuberosum metabolism, Transaminases metabolism, para-Aminobenzoates metabolism, Arabidopsis genetics, Folic Acid metabolism, GTP Cyclohydrolase genetics, Gene Expression Regulation, Plant, Plant Proteins genetics, Solanum tuberosum genetics, Transaminases genetics

Abstract

Folates are important cofactors in one-carbon metabolism in all living organisms. Since only plants and micro- organisms are capable of biosynthesizing folates, humans depend entirely on their diet as a folate source. Given the low folate content of several staple crop products, folate deficiency affects regions all over the world. Folate biofortification of staple crops through enhancement of pterin and para-aminobenzoate levels, precursors of the folate biosynthesis pathway, was reported to be successful in tomato and rice. This study shows that the same strategy is not sufficient to enhance folate content in potato tubers and Arabidopsis thaliana plants and concludes that other steps in folate biosynthesis and/or metabolism need to be engineered to result in substantial folate accumulation. The findings provide a plausible explanation why, more than half a decade after the proof of concept in rice and tomato, successful folate biofortification of other food crops through enhancement of para-aminobenzoate and pterin content has not been reported thus far. A better understanding of the folate pathway is required in order to determine an engineering strategy that can be generalized to most staple crops.

Published

2013

35. Ex-ante evaluation of biotechnology innovations: the case of folate biofortified rice in China.

Author

De Steur H, Blancquaert D, Gellynck X, Lambert W, and Van Der Straeten D

Subjects

Biotechnology economics, Biotechnology methods, China, Cost-Benefit Analysis, Neural Tube Defects economics, Neural Tube Defects prevention & control, Plants, Genetically Modified, Quality-Adjusted Life Years, Folic Acid, Food, Fortified economics, Oryza genetics, Vitamin B Complex

Abstract

In order to valorize novel biotechnology innovations, there is a need to evaluate ex-ante their market potential. A case in point is biofortification, i.e. the enhancement of the micronutrient content of staple crops through conventional or genetic breeding techniques. In a recent article in Nature Biotechnology, for example, De Steur et al. (2010) demonstrated the large potential consumer health benefits of folate biofortified rice as a means to reduce folate deficiency and Neural-Tube Defects. By focusing on a Chinese high-risk region of Neural-Tube Defects, the current study defines the potential cost-effectiveness of this genetically modified crop where the need to improve folate intake levels is highest. Building on the Disability-Adjusted Life Years (DALY) approach, both the potential health impacts and costs of its implementation are measured and benchmarked against similar innovations. The results show that this transgenic crop could be a highly cost-effective product innovation (US$ 120.34 - US$ 40.1 per DALY saved) to alleviate the large health burden of folate deficiency and reduce the prevalence of neural-tube birth defects. When compared with other biofortified crops and target regions, folate biofortified rice in China has a relatively high health impact and moderate cost-effectiveness. This research further supports the need for, and importance of ex-ante evaluation studies in order to adequately market and, thus, valorize biotechnology innovations. Although the cost-effectiveness analysis enables to illustrate the market potential of innovative agricultural biotechnology research, further research is required to address policy issues on transgenic biofortification, such as biosafety regulatory requirements.

Published

2012

36. Potential impact and cost-effectiveness of multi-biofortified rice in China.

Author

De Steur H, Gellynck X, Blancquaert D, Lambert W, Van Der Straeten D, and Qaim M

Subjects

China, Costs and Cost Analysis, Female, Humans, Male, Micronutrients deficiency, Food, Fortified economics, Micronutrients economics, Oryza economics

Abstract

Biofortification, that is, improving the micronutrient content of staple foods through crop breeding, could be a pro-poor, pro-rural, agriculture-based intervention to reduce the health burden of micronutrient malnutrition. While the potential cost-effectiveness of crops biofortified with single micronutrients was shown in previous research, poor people often suffer from multiple micronutrient deficiencies, which should be accounted for in biofortification initiatives. This study is the first to estimate the potential health benefits and cost-effectiveness of multi-biofortification. Rice with enhanced provitamin A, zinc, iron and folate concentrations is used as a concrete example. The research is conducted for China, the largest rice producer in the world, where micronutrient malnutrition remains a major public health problem. Using the DALY (disability-adjusted life year) framework, the current annual health burden of the four micronutrient deficiencies in China is estimated at 10.6 million DALYs. Introducing multi-biofortified rice could lower this burden by up to 46%. Given the large positive health impact and low recurrent costs of multi-biofortification, this intervention could be very cost effective: under optimistic assumptions, the cost per DALY saved would be around US$ 2; it would stay below US$ 10 even under pessimistic assumptions., (Copyright © 2011 Elsevier B.V. All rights reserved.)

Published

2012

37. Folate fortification of rice by metabolic engineering.

Author

Storozhenko S, De Brouwer V, Volckaert M, Navarrete O, Blancquaert D, Zhang GF, Lambert W, and Van Der Straeten D

Subjects

4-Aminobenzoic Acid metabolism, Arabidopsis genetics, Genes, Plant, Genetic Engineering, Pterins metabolism, Folic Acid biosynthesis, Folic Acid genetics, Food, Fortified, Oryza genetics, Oryza metabolism, Plants, Genetically Modified

Abstract

Rice, the world's major staple crop, is a poor source of essential micronutrients, including folates (vitamin B9). We report folate biofortification of rice seeds achieved by overexpressing two Arabidopsis thaliana genes of the pterin and para-aminobenzoate branches of the folate biosynthetic pathway from a single locus. We obtained a maximal enhancement as high as 100 times above wild type, with 100 g of polished raw grains containing up to four times the adult daily folate requirement.

Published

2007