Description:
<label>Abstract</label>
<p>The Green Revolution genes considerably increased the yield potential of modern wheat varieties, but also rendered them more susceptible to Fusarium head blight (FHB) causing problems with mycotoxin contamination. In order to study the association of “reduced height” (Rht) genes and FHB resistance,<italic>Rht-B1b, Rht-D1b</italic>and<italic>Rht8</italic>genes were introduced in tall high-yielding wheat cultivars expressing a good level of Fusarium head blight (FHB) resistance via marker-assisted selection (MAS). The F1 plants of five crosses were backcrossed twice and 189 BC1 lines were genotyped. MAS was performed with<italic>Rht-B1b</italic>and<italic>Rht-D1b</italic>specific markers, with SSR<italic>Xgwm261</italic>being diagnostic for<italic>Rht8</italic>, and with a<italic>Ppd-D1</italic>specific marker. During the first phase of selection corresponding chromosomes were screened with 48 SSRs for polymorphisms followed by the use of 3 to 5 polymorphic SSRs for the detection of recombination around these loci. Based on this procedure a total of 42 lines were selected for the selection phase two. 152 genome-wide SSRs had been screened among the parent lines, and from these a set of 80 polymorphic SSRs (4 per chromosome) was chosen for background fingerprinting of the 42 lines. This process is ongoing. We expect that<italic>Rht</italic>alleles will be quickly integrated into tall and high-yielding cultivars with excellent quantitative FHB resistance carrying only small chromosomal fragments of the<italic>Rht</italic>donor lines. Finally, in multi-location field trials these new lines will be tested to analyse the association of the three<italic>Rht</italic>genes and FHB susceptibility.</p>