Manfred Mayer
Overview
Explore the profile of Manfred Mayer including associated specialties, affiliations and a list of published articles.
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35
Citations
297
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Recent Articles
1.
Urzinger S, Avramova V, Frey M, Urbany C, Scheuermann D, Presterl T, et al.
Plant Physiol
. 2024 Dec;
197(1).
PMID: 39711175
The sustainability of maize cultivation would benefit tremendously from early sowing, but is hampered by low temperatures during early development in temperate climates. We show that allelic variation within the...
2.
Yu P, Li C, Li M, He X, Wang D, Li H, et al.
Nat Genet
. 2024 May;
56(6):1245-1256.
PMID: 38778242
The maize root system has been reshaped by indirect selection during global adaptation to new agricultural environments. In this study, we characterized the root systems of more than 9,000 global...
3.
Lin Y, Mayer M, Valle Torres D, Pook T, Holker A, Presterl T, et al.
Front Plant Sci
. 2024 Apr;
15:1351466.
PMID: 38584949
Genomic prediction (GP) using haplotypes is considered advantageous compared to GP solely reliant on single nucleotide polymorphisms (SNPs), owing to haplotypes' enhanced ability to capture ancestral information and their higher...
4.
Vojgani E, Holker A, Mayer M, Schon C, Simianer H, Pook T
PLoS One
. 2023 Mar;
18(3):e0282288.
PMID: 37000811
The importance of accurate genomic prediction of phenotypes in plant breeding is undeniable, as higher prediction accuracy can increase selection responses. In this regard, epistasis models have shown to be...
5.
Mayer M, Holker A, Presterl T, Ouzunova M, Melchinger A, Schon C
Data Brief
. 2022 May;
42:108164.
PMID: 35510267
Genetic variation is the basis of selection, evolution and breeding. Maize landraces represent a rich source of allelic diversity, but their efficient utilization in breeding and research has been hampered...
6.
Holker A, Mayer M, Presterl T, Bauer E, Ouzunova M, Melchinger A, et al.
Proc Natl Acad Sci U S A
. 2022 Apr;
119(18):e2121797119.
PMID: 35486687
Discovery and enrichment of favorable alleles in landraces are key to making them accessible for crop improvement. Here, we present two fundamentally different concepts for genome-based selection in landrace-derived maize...
7.
Dusch M, Mayer M, Treede R, Fischer M, Berndt M
Schmerz
. 2022 Mar;
36(6):398-405.
PMID: 35244773
Aim: The training of scientific skills and competencies is an essential part of academic medical studies. As part of the MaReCuM model study program at Heidelberg University's Mannheim Medical School,...
8.
Auinger H, Lehermeier C, Gianola D, Mayer M, Melchinger A, Da Silva S, et al.
Theor Appl Genet
. 2021 Jun;
134(9):3069-3081.
PMID: 34117908
Model training on data from all selection cycles yielded the highest prediction accuracy by attenuating specific effects of individual cycles. Expected reliability was a robust predictor of accuracies obtained with...
9.
Vojgani E, Pook T, Martini J, Holker A, Mayer M, Schon C, et al.
Theor Appl Genet
. 2021 Jun;
134(9):2913-2930.
PMID: 34115154
The accuracy of genomic prediction of phenotypes can be increased by including the top-ranked pairwise SNP interactions into the prediction model. We compared the predictive ability of various prediction models...
10.
Reinsch N, Mayer M, Blunk I
G3 (Bethesda)
. 2021 Mar;
11(8).
PMID: 33693544
A class of epigenetic inheritance patterns known as genomic imprinting allows alleles to influence the phenotype in a parent-of-origin-specific manner. Various pedigree-based parent-of-origin analyses of quantitative traits have attempted to...