Abstract
Background: Rust diseases are of major importance in wheat production worldwide. With the constant evolution
of new rust strains and their adaptation to higher temperatures, consistent and durable disease resistance is a key
challenge. Environmental conditions affect resistance gene performance, but the basis for this is poorly understood.
Results: Here we show that a change in day temperature affects wheat resistance to Puccinia striiformis f. sp tritici
(Pst), the causal agent of yellow (or stripe) rust. Using adult plants of near-isogenic lines UC1041 +/- Yr36, there was
no significant difference between Pst percentage uredia coverage in plants grown at day temperatures of 18°C or
25°C in adult UC1041 + Yr36 plants. However, when plants were transferred to the lower day temperature at the
time of Pst inoculation, infection increased up to two fold. Interestingly, this response was independent of Yr36,
which has previously been reported as a temperature-responsive resistance gene as Pst development in adult
UC1041 -Yr36 plants was similarly affected by the plants experiencing a temperature reduction. In addition, UC1041 -Yr36
plants grown at the lower temperature then transferred to the higher temperature were effectively resistant and a
temperature change in either direction was shown to affect Pst development up to 8 days prior to inoculation. Results for
seedlings were similar, but more variable compared to adult plants. Enhanced resistance to Pst was observed in seedlings
of UC1041 and the cultivar Shamrock when transferred to the higher temperature. Resistance was not affected in
seedlings of cultivar Solstice by a temperature change in either direction.
Conclusions: Yr36 is effective at 18°C, refining the lower range of temperature at which resistance against Pst is conferred
compared to previous studies. Results reveal previously uncharacterised defence temperature sensitivity in the UC1041
background which is caused by a change in temperature and independently of Yr36. This novel phenotype is present in
some cultivars but absent in others, suggesting that Pst defence may be more stable in some cultivars than others when
plants are exposed to varying temperatures.
Original language | English |
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Article number | 10 |
Journal | BMC Plant Biology |
Volume | 14 |
DOIs | |
Publication status | First published - 2014 |
Bibliographical note
1023370Keywords
- HTAP
- Plant defence
- Puccinia striiformis f.sp tritici
- Temperature
- Yellow rust
- Yr36