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In order to obtain high yields of winter durum wheat, it is necessary not only to use advanced agricultural technologies, but also to sow varieties resistant to major diseases. One of these diseases that cause great harm to grain crops is Septoria leaf blotch. The current paper has presented the study results of collection material of Russian and foreign winter durum wheat according to the efficiency of the Septoria leaf blotch resistance gene Stb2 in the North Caucasus region. The purpose of the current study was to identify the Septoria leaf blotch resistance gene Stb2 in the collection material of winter durum wheat. The study was carried out in 2017–2018 in the laboratory of marker breeding of the FSBSI “ARC “Donskoy” in Zernograd. In the course of the study there have been applied such methods as the isolation of genomic DNA by the CTAB-method, PCR-analysis with the molecular SSR marker WMS533, electrophoresis on 2% agarose gel, analysis of electrophoresis gels in the Bio-Rad Image Lab 6.0 software, general data analysis by Microsoft Excel. The study has shown that 29 samples out of 185 analyzed ones had the Septoria leaf blotch resistance gene Stb2, they are the lines L3557 h42, L3182 h7, L3335 h29, L3336 h43, L3408 h218 (Russia, FSBSI “Research Center of Plants named after P. P. Lukyanenko”), K-61620 (Russia), K-54455, DF 917 (Romania), K-61924, K-59179, K-51863, K-61869 (Moldova), K-63871 (Turkey), Kharkovskaya 909 (Ukraine), MVTD-15-99 (Hungary), 2196-1/04, 922/93, 589/13, 655/13, 683/13, 145/14, 322/14, 484/14, Gordeiform 1424/82 (Russia, FSBSI “ARC “Donskoy”), Beliy Parus (Ukraine), Belgorodskaya Yantarnaya (LLC “Sativa” in Belgorod, Russia), IR named after V. Ya. Yuriev (Kharkov, Ukraine)), Zhivitsa (Russia, Prikumskaya OSS), Pandur (Romania) and Elidur (Romania). There have been recommended using the identified samples of winter durum wheat with the Septoria leaf blotch resistance gene Stb2 in breeding programs.
In order to obtain high yields of winter durum wheat, it is necessary not only to use advanced agricultural technologies, but also to sow varieties resistant to major diseases. One of these diseases that cause great harm to grain crops is Septoria leaf blotch. The current paper has presented the study results of collection material of Russian and foreign winter durum wheat according to the efficiency of the Septoria leaf blotch resistance gene Stb2 in the North Caucasus region. The purpose of the current study was to identify the Septoria leaf blotch resistance gene Stb2 in the collection material of winter durum wheat. The study was carried out in 2017–2018 in the laboratory of marker breeding of the FSBSI “ARC “Donskoy” in Zernograd. In the course of the study there have been applied such methods as the isolation of genomic DNA by the CTAB-method, PCR-analysis with the molecular SSR marker WMS533, electrophoresis on 2% agarose gel, analysis of electrophoresis gels in the Bio-Rad Image Lab 6.0 software, general data analysis by Microsoft Excel. The study has shown that 29 samples out of 185 analyzed ones had the Septoria leaf blotch resistance gene Stb2, they are the lines L3557 h42, L3182 h7, L3335 h29, L3336 h43, L3408 h218 (Russia, FSBSI “Research Center of Plants named after P. P. Lukyanenko”), K-61620 (Russia), K-54455, DF 917 (Romania), K-61924, K-59179, K-51863, K-61869 (Moldova), K-63871 (Turkey), Kharkovskaya 909 (Ukraine), MVTD-15-99 (Hungary), 2196-1/04, 922/93, 589/13, 655/13, 683/13, 145/14, 322/14, 484/14, Gordeiform 1424/82 (Russia, FSBSI “ARC “Donskoy”), Beliy Parus (Ukraine), Belgorodskaya Yantarnaya (LLC “Sativa” in Belgorod, Russia), IR named after V. Ya. Yuriev (Kharkov, Ukraine)), Zhivitsa (Russia, Prikumskaya OSS), Pandur (Romania) and Elidur (Romania). There have been recommended using the identified samples of winter durum wheat with the Septoria leaf blotch resistance gene Stb2 in breeding programs.
Parastagonospora nodorum causes glume and leaf blotch of wheat, a harmful disease resulting in serious losses in grain yield. In many countries including Russia, fungicidal formulations based on triazoles and on triazoles combined with strobilurins are used to control this fungus. However, their prolonged application may promote the selection of fungicide-resistant strains of P. nodorum leading to significant attenuation or even loss of fungicidal effect. Chemosensitization of plant pathogenic fungi with natural compounds represents a promising strategy for mitigating fungicide resistance and other negative impacts of fungicides. In this work, we applied a chemosensitization approach towards P. nodorum strains non-resistant or resistant to tebuconazole or azoxystrobin using 6-demethylmevinolin (6-DMM), a metabolite of Penicillium citrinum. The resistant strains were obtained by the mutagenesis and subsequent culturing on agar media incorporated with increasing doses of Folicur® EC 250 (i.e., tebuconazole) or Quadris® SC 250 (i.e., azoxystrobin). Test strains m8-4 and kd-18, most resistant to tebuconazole and azoxystrobin, respectively, were selected for sensitization experiments. These experiments demonstrated that combining 6-DMM with Folicur® enhanced fungicidal effectiveness in vitro and in vivo in addition to attenuating the resistance of P. nodorum to tebuconazole in vitro. 6-DMM was also found to augment Quadris® efficacy towards kd-18 when applied on detached wheat leaves inoculated with this strain. Experiments on P. nodorum sensitization under greenhouse conditions included preventive (applying test compounds simultaneously with inoculation) or post-inoculation spraying of wheat seedlings with 6-DMM together with Folicur® at dose rates (DR) amounting to 10% and 20% of DR recommended for field application (RDR). Combined treatments were run in parallel with using the same DR of the fungicide and sensitizer, alone. A synergistic effect was observed in both preventive and post-inoculation treatments, when the sensitizer was co-applied with the fungicide at 10% of the RDR. In this case, disease reduction significantly exceeded the protective effect of Folicur® at 10% or 20% of the RDR, alone, and also a calculated additive effect. Collectively, our findings suggest that 6-DMM is promising as a putative component for formulations with triazole and strobilurin fungicides. Such new formulations would improve fungicide efficacy and, potentially, lower rates of fungicides needed for plant pathogen control.
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