Stem rust resistance gene Sr43, derived from tall wheatgrass (Thinopyrum ponticum), is effective against Ug99 lineage Pgt races. Previous studies indicated that Sr43 was located on large Th. ponticum 7el2 chromosome segments in 7D/7el2 translocation stocks KS10-2 and KS24-1. In the present work, we applied a recently-established chromosome engineering procedure to reduce the size of the alien chromosome carrying Sr43. KS10-2 was crossed and backcrossed to the Chinese Spring (CS) ph1b mutant. BC1F1 plants were screened for stem rust response and Ph1- associated molecular markers. Resistant BC1F1 plants homozygous ph1bph1b were further backcrossed to CS. The resulting population of 706 BC2F1 plants was screened for stem rust response and with six co-dominant SSR markers. Wheat lines RWG33 and RWG34 carry Sr43 on shortened alien segments that are about 15% of that in KS10-2. Two molecular markers closely linked to Sr43 were identified; one was an SSR marker and the other a STS marker based on sequences of deletion bin-mapped expressed sequenced tags in wheat. The two new wheat lines with Sr43 and closely-linked markers may provide new resources for combating the threat of race Ug99 and derivatives.
Development and characterization of wheat lines carrying stem rust resistance gene Sr43 derived from tall wheatgrass
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