Abstract:
Rust diseases (leaf, stripe and stem rust) of wheat constitute a major threat to wheat production worldwide including
Romania. Durable rusts resistance is a significant component for food security and combining/pyramiding of rusts
resistance genes into new wheat cultivars is the main strategy to increase durability of resistance. This work reports a
gene pyramiding wheat breeding approach assisted by DNA markers used to develop new breeding rust resistant lines.
In this study 60 breeding lines were analyzed for the presence of resistant haplotypes Lr34/Yr18//Sr57/Ltn1,
Lr37/Yr17/Sr38, Lr46/ Yr29//Sr58/Ltn2 and Lr68/Ltn4 using DNA markers. The results showed that 17 wheat breeding
lines carried the Lr genes pyramided in homozygous or heterozygous state, other 13 lines carried only one Lr gene,
while 30 breeding lines had no resistant alleles Lr, from the analyzed Lr genes. In homozygous state we found the
following combinations: Lr34+Lr37 (one line); Lr37+Lr46 (six lines), Lr37+Lr68 (one line) and only one line, GCO2-
12, with three resistant alleles in homozygous state Lr34+Lr37+Lr46. This line also carried heterozygous alleles for
Lr68 gene, so, this result suggest that it is possible to obtain a line with four resistance Lr alleles
(Lr34+Lr37+Lr46+Lr68) using markers-assisted selection (MAS). The wheat breeding lines with two, three or four
resistance alleles were identified in the F5 generation and will be used to accelerate the rust resistance breeding program
at NARDI Fundulea. Furthermore, this study proves the value of MAS breeding strategy, for the acceleration of wheat
rusts resistance cultivars development.
