Kathy Esvelt Klos

A consensus map in cultivated hexaploid oat reveals conserved grass synteny with substantial subgenome rearrangement

We constructed a hexaploid oat consensus map from 12 populations representing 19 parents. The map represents the most common physical chromosome arrangements in oat. Deviations from the consensus map may indicate physical rearrangements. Large chromosomal translocations vary among different varieties. There is regional synteny with rice but considerable subgenome rearrangement.

Population Genomics Related to Adaptation in Elite Oat Germplasm

An oat association‐mapping panel contributed by active breeding programs worldwide. Characterized population structure and found subdivisions related to adaptation Characterized genome‐wide and chromosome‐specific linkage disequilibrium Performed association‐mapping and post hoc modeling of heading date Found several consistently associated QTL

A High-Throughput RNA Extraction for Sprouted Single-Seed Barley (Hordeum vulgare L.) Rich in Polysaccharides

Germinated seed from cereal crops including barley (Hordeum vulgare L.) is an important tissue to extract RNA and analyze expression levels of genes that control aspects of germination. These tissues are rich in polysaccharides and most methods for RNA extraction are not suitable to handle the excess polysaccharides. Here, we compare the current methods for RNA extraction applicable to germinated barley tissue. We found that although some of these standard methods produced high-quality RNA, the process of extraction was drastically slow, mostly because the frozen seed tissue powder from liquid N2 grinding became recalcitrant to buffer mixing. Our suggested modifications to the protocols removed the need for liquid N2 grinding and significantly increased the output efficiency of RNA extraction. Our modified protocol has applications in other cereal tissues rich in polysaccharides, including oat.

Quantitative trait loci of barley malting quality trait components in the Stellar/01Ab8219 mapping population

Malting barley is of high economic and scientific importance. Determining barley grains that are suitable for malting involves measuring malting quality, which is an expensive and complex process. In order to decrease the cost of phenotyping and accelerate the process of developing superior malting barley cultivars, markers for marker-assisted breeding are needed. In this study, we identified quantitative trait loci (QTLs) for malting traits in a Stellar/01Ab8219 F6:8 recombinant inbred line population grown at Aberdeen and Tetonia, Idaho, USA in 2009 and 2010. We identified QTLs associated with malt extract (ME), wort protein, soluble/total protein (S/T), diastatic power (DP), alpha-amylase, beta-glucan (BG) and free amino nitrogen (FAN) at a logarithm of odds score ≥2.5 using a high-density genetic map produced by merging Diversity Arrays Technology markers with the current single nucleotide polymorphism map. Novel QTLs were identified for DP and FAN on chromosome 5H, S/T on 6H, and BG and ME on 7H. Dissection of the genetic regions associated with malting traits suggests the involvement of multiple molecular pathways. The resulting molecular markers may prove useful for barley improvement.

Genome-Wide Association Mapping of Crown Rust Resistance in Oat Elite Germplasm

Multienvironment genome‐wide association study of reaction to crown rust in elite oat Oat response to inoculation with 10 well‐characterized Puccinia coronata isolates evaluated Adult plant response to crown rust assessed in 10 location–years Patterns of association compared against genotypes of differential gene stocks QTL placed in the context of current literature