Delphine Madur
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Explore the profile of Delphine Madur including associated specialties, affiliations and a list of published articles.
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24
Citations
544
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Recent Articles
1.
Hammami M, Madur D, Kthiri Z, Galaretto A, Nicolas S, Charcosset A, et al.
PLoS One
. 2025 Jan;
20(1):e0316185.
PMID: 39841663
Based on history, maize was first introduced into Tunisia and northern Africa, at large, from the south of Spain. Several subsequent introductions were made from diverse origins, generating new landraces...
2.
Balconi C, Galaretto A, Malvar R, Nicolas S, Redaelli R, Andjelkovic V, et al.
Biology (Basel)
. 2024 Jun;
13(6).
PMID: 38927334
The ECPGR European Evaluation Network (EVA) for Maize involves genebanks, research institutions, and private breeding companies from nine countries focusing on the valorization of maize genetic resources across Europe. This...
3.
Lorenzi A, Bauland C, Pin S, Madur D, Combes V, Palaffre C, et al.
Theor Appl Genet
. 2024 Mar;
137(3):75.
PMID: 38453705
We validated the efficiency of genomic predictions calibrated on sparse factorial training sets to predict the next generation of hybrids and tested different strategies for updating predictions along generations. Genomic...
4.
Sanchez D, Allier A, Ben Sadoun S, Mary-Huard T, Bauland C, Palaffre C, et al.
Theor Appl Genet
. 2024 Jan;
137(1):19.
PMID: 38214870
Implementing a collaborative pre-breeding multi-parental population efficiently identifies promising donor x elite pairs to enrich the flint maize elite germplasm. Genetic diversity is crucial for maintaining genetic gains and ensuring...
5.
Beugnot A, Mary-Huard T, Bauland C, Combes V, Madur D, Lagardere B, et al.
Theor Appl Genet
. 2023 Oct;
136(11):219.
PMID: 37816986
An original GWAS model integrating the ancestry of alleles was proposed and allowed the detection of background specific additive and dominance QTLs involved in heterotic group complementarity and hybrid performance....
6.
Arca M, Gouesnard B, Mary-Huard T, Le Paslier M, Bauland C, Combes V, et al.
Plant Biotechnol J
. 2023 Feb;
21(6):1123-1139.
PMID: 36740649
Landraces, that is, traditional varieties, have a large diversity that is underexploited in modern breeding. A novel DNA pooling strategy was implemented to identify promising landraces and genomic regions to...
7.
Welcker C, Spencer N, Turc O, Granato I, Chapuis R, Madur D, et al.
Nat Commun
. 2022 Jun;
13(1):3225.
PMID: 35680899
Combined phenomic and genomic approaches are required to evaluate the margin of progress of breeding strategies. Here, we analyze 65 years of genetic progress in maize yield, which was similar...
8.
Diaw Y, Tollon-Cordet C, Charcosset A, Nicolas S, Madur D, Ronfort J, et al.
PLoS One
. 2021 Feb;
16(2):e0238334.
PMID: 33524023
From the 17th century until the arrival of hybrids in 1960s, maize landraces were cultivated in the South-West of France (SWF), a traditional region for maize cultivation. A set of...
9.
Arca M, Mary-Huard T, Gouesnard B, Berard A, Bauland C, Combes V, et al.
Front Plant Sci
. 2021 Jan;
11:568699.
PMID: 33488638
Genebanks harbor original landraces carrying many original favorable alleles for mitigating biotic and abiotic stresses. Their genetic diversity remains, however, poorly characterized due to their large within genetic diversity. We...
10.
Rio S, Mary-Huard T, Moreau L, Bauland C, Palaffre C, Madur D, et al.
PLoS Genet
. 2020 Mar;
16(3):e1008241.
PMID: 32130208
When handling a structured population in association mapping, group-specific allele effects may be observed at quantitative trait loci (QTLs) for several reasons: (i) a different linkage disequilibrium (LD) between SNPs...