DArTseq-Based, High-Throughput Identification of Novel Molecular Markers for the Detection of Fusarium Resistance in Maize
Maciej Lenort, Agnieszka Tomkowiak, Aleksandra Sobiech, Jan Bocianowski, Karolina Jarzyniak, Przemysław Olejnik, Tomasz Jamruszka, Przemysław Gawrysiak

TL;DR
This paper identifies molecular markers in maize linked to resistance against Fusarium fungi, using sequencing and mapping techniques.
Contribution
The study introduces new molecular markers associated with Fusarium resistance in maize, identified through next-generation sequencing and association mapping.
Findings
5714 significant molecular markers related to maize resistance to Fusarium fungi were identified.
Two specific markers, SNP 4583014 and SilicoDArT 4579116, were found to be significantly associated with resistance.
Resistant maize varieties showed increased expression of genes linked to these markers after Fusarium infection.
Abstract
Modern maize breeding worldwide relies on a broad range of molecular genetics research techniques. These technologies allow us to identify genomic regions associated with various phenotypic traits, including resistance to fungi of the genus Fusarium. Therefore, the aim of this publication was to identify new molecular markers linked to candidate genes that confer maize resistance to Fusarium fungi, using next-generation sequencing, association mapping, and physical mapping. In the study, a total of 5714 significant molecular markers related to maize plant resistance to Fusarium fungi were identified. Of these, 10 markers were selected that were significantly associated (with the highest LOD values) with the disease. These markers were identified on chromosomes 5, 6, 7, 8, and 9. The authors were particularly interested in two markers: SNP 4583014 and SilicoDArT 4579116. The SNP marker…
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Taxonomy
TopicsGenetic Mapping and Diversity in Plants and Animals · Genomics and Phylogenetic Studies · Fungal and yeast genetics research
