Fred A van Eeuwijk
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Explore the profile of Fred A van Eeuwijk including associated specialties, affiliations and a list of published articles.
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66
Citations
1883
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Recent Articles
1.
Theeuwen T, Wijfjes R, Dorussen D, Lawson A, Lind J, Jin K, et al.
Proc Natl Acad Sci U S A
. 2024 Nov;
121(49):e2414024121.
PMID: 39602263
Efforts to improve photosynthetic performance are increasingly employing natural genetic variation. However, genetic variation in the organellar genomes (plasmotypes) is often disregarded due to the difficulty of studying the plasmotypes...
2.
Wijfjes R, Boesten R, Becker F, Theeuwen T, Snoek B, Mastoraki M, et al.
Plant J
. 2024 Oct;
120(4):1662-1681.
PMID: 39400686
Natural populations of Arabidopsis thaliana provide powerful systems to study the adaptation of wild plant species. Previous research has predominantly focused on global populations or accessions collected from regions with...
3.
Arouisse B, Thoen M, Kruijer W, Kunst J, Jongsma M, Keurentjes J, et al.
Plant J
. 2024 Sep;
120(2):674-686.
PMID: 39316617
Although plants harbor a huge phytochemical diversity, only a fraction of plant metabolites is functionally characterized. In this work, we aimed to identify the genetic basis of metabolite functions during...
4.
Li W, Boer M, Joosen R, Zheng C, Percival-Alwyn L, Cockram J, et al.
Front Plant Sci
. 2024 Aug;
15:1410851.
PMID: 39145196
Multi-parent populations (MPPs) are attractive for genetic and breeding studies because they combine genetic diversity with an easy-to-control population structure. Most methods for mapping QTLs in MPPs focus on the...
5.
Wijnen C, Botet R, van de Belt J, Deurhof L, de Jong H, de Snoo C, et al.
Heredity (Edinb)
. 2024 Jul;
133(3):198-205.
PMID: 38982296
Chromosome substitution lines (CSLs) are tentatively supreme resources to investigate non-allelic genetic interactions. However, the difficulty of generating such lines in most species largely yielded imperfect CSL panels, prohibiting a...
6.
Bartzis G, Peeters C, Ligterink W, van Eeuwijk F
BMC Bioinformatics
. 2024 May;
25(1):202.
PMID: 38816801
Intoduction: In systems biology, an organism is viewed as a system of interconnected molecular entities. To understand the functioning of organisms it is essential to integrate information about the variations...
7.
van Voorn G, Boer M, Truong S, Friedenberg N, Gugushvili S, McCormick R, et al.
Front Plant Sci
. 2023 Jun;
14:1172359.
PMID: 37389290
Introduction: Dynamic crop growth models are an important tool to predict complex traits, like crop yield, for modern and future genotypes in their current and evolving environments, as those occurring...
8.
Wijnen C, Becker F, Okkersen A, de Snoo C, Boer M, van Eeuwijk F, et al.
Genes (Basel)
. 2023 Jun;
14(6).
PMID: 37372341
Plants can express different phenotypic responses following polyploidization, but ploidy-dependent phenotypic variation has so far not been assigned to specific genetic factors. To map such effects, segregating populations at different...
9.
Vos P, Paulo M, Bourke P, Maliepaard C, van Eeuwijk F, Visser R, et al.
Mol Breed
. 2023 Jun;
42(12):76.
PMID: 37313326
Supplementary Information: The online version contains supplementary material available at 10.1007/s11032-022-01344-2.
10.
Mildau K, Te Beest D, Engel B, Gort G, Lambert J, Swinkels S, et al.
NAR Genom Bioinform
. 2023 Jan;
5(1):lqad001.
PMID: 36685726
Differential abundance analysis of infant 16S microbial sequencing data is complicated by challenging data properties, including high sparsity, extreme dispersion and the relative nature of the information contained within the...