One hundred years of comparative genetic and physical mapping in cultivated oat (Avena sativa)

Oat crown rust, caused by Puccinia coronata f. sp. avenae, poses a significant threat to global oat production (Avena sativa L.). Molecular markers are essential to assist in the integration of multiple resistance genes into a single oat cultivar to achieve genetic resistance durability. Here, we validated previously reported markers for the race-specific resistance genes Pc39, Pc45/PcKM, Pc54, and Pc68, and developed new KASP markers closely linked to these loci. These markers were subsequently screened across a collection of 150 oat cultivars. Analysis of molecular marker data, pedigree information, and disease resistance profile indicated several oat cultivars likely carrying Pc39 and Pc68. Newly identified carriers of Pc68 include the cultivars Galileo and Graza80, while Warrego, Kowari, Possum, Forester, Drummond, Hokonui, Glider, and Culgoa were identified as potential carriers of Pc39. Discrepancies between the previous postulation of Pc gene carriers and our phenotyping and genotyping analysis were also found. For example, the oat line Glider was previously postulated to carry Pc58 or Pc59, but it was positive for the Pc39-associated marker and had a similar resistance profile to Pc39 carriers. These findings underscore the importance of the utilisation of molecular markers in tracking the resistance genes in breeding germplasm.

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Genetic mapping and comparative analysis of heading date in hexaploid oat

Ubert,

Nava

2024

Preprint

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Heading date is a critical stage in the growth and development of oats. The objectives of this study were to identify DNA markers associated with quantitative trait loci (QTL) affecting heading date in hexaploid oat, and to locate and characterize heading date QTL by comparative analysis using an oat reference genome. Genetic linkage maps were constructed using single nucleotide polymorphism (SNP) markers in RIL lines from oat populations FL0206B-S-B-S1 × UFRGS 078030-1 and URS Taura × Leggett. Days to heading were collected in field trials, and QTLs for heading date were identified in several genomic regions of the two maps. Oat loci with the most significant additive effects were associated with linkage groups Mrg02, Mrg06, and Mrg05 in the FL0206B-S-B-S1 × UFRGS 078030-1 population and with Mrg12, Mrg24, and Mrg11 in the URS Taura × Leggett population. Major QTLs affecting heading date were mapped to locations consistent with known QTLs and candidate genes that play critical roles in regulating flowering. These genes include Hd3a and FT, which are orthologs of the Vrn3 gene and integrate the vernalization and photoperiod response pathways. The gene PRR37 is an ortholog of Ppd1, the main gene determining photoperiod sensitivity in wheat and barley. The COL13 and GI genes are involved in the regulation of flowering by photoperiod. In addition, novel QTLs were identified that are valuable for molecular selection in oat breeding programs aimed at developing new and improved oat cultivars adapted to specific growing conditions.

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One hundred years of comparative genetic and physical mapping in cultivated oat (Avena sativa)

Cited by 3 publications

References 54 publications

Genetic mapping and comparative analysis of heading date in hexaploid oat

Genetic mapping and comparative analysis of heading date in hexaploid oat

Identification of diagnostic KASP markers for selection of crown rust resistance in oats

Genetic mapping and comparative analysis of heading date in hexaploid oat

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