Biomics

The influence of 24-epibrassinolide on the efficiency of regenerants obtained from embryonic calli formation was studied in wheat cultivars contrast for drought resistance. The possibility of using the experimental model system «immature embryo – embryonic callus – regenerant» in the rapid assessment of the effect of antistress plant growth regulators is shown.

potato, late blight, endophytes, peroxidase, jasmonic acid

1. Loginov O.N. Bakterii Pseudomonas i Azotobacter kak ob’ekty sel'skohozjajstvennoj biotehnologii. Pod red. Shakirovoj F.M., M.: Nauka. 2005. 166 s. [Pseudomonas and Azotobacter Bacteria as objects of agricultural biotechnology] (In Russian)
2. Melent'ev A.I. Ajerobnye sporoobrazujushhie bakterii Bacillus Cohn v agrojekosistemah. M.: Nauka. 2007. 147 s. [Aerobic spore-forming bacteria Bacillus Cohn in agroecosystems] (In Russian)
3. Efetova M., Zeier J., Riederer M., Lee C.W., Stingl N., Mueller M., Hartung W., Hedrich R., Deeken R. 2007. A central role of abscisic acid in drought stress protection of Agrobacterium-induced tumors on Arabidopsis // Plant Physiol. 145(3), 853-862. https://doi.org/10.1104/pp.107.104851
4. Sorokan A.V., Burhanova G.F., Maksimov I.V. Anionic peroxidase-mediated oxidative burst is required for jasmonic acid-dependent Solanum tuberosum L. defense against Phytophthora infestans (Mont) de Bary // Plant Pathology. 2018. V 67, pp 349-357; doi:10.1111/ppa.12743
5. Sorokan' A.V., Burhanova G.F., Kuluev B.R., Maksimov I.V. Sajlensing gena anionnoj peroksidazy kartofelja izmenjaet reguljaciju aktivnosti zashhitnyh genov pri patogeneze // Tezisy dokladov VIII S’ezda OFR. Petrozavodsk 2015. S. 503. [Silencing of the potato anionic peroxidase gene changes the regulation of the activity of protective genes in pathogenesis] (In Russian)
6. Partida-Martinez L. P., Heil M. The microbe-free plant: fact or artifact? // Frontier in plant science. 2011. V.2. Article 100. P. 1-16
7. Hallman J., Berg G. Spectrum and population dynamics of bacterial root endophytes // Soil Biology. V. 9. Microbial root endophytes. Berlin: Springer-Verlag. 2006. P. 15-31.
8. Ownley B. et al. Beauveria bassiana: Endophytic colonization and plant disease control // Journal of Invertebrate Pathology. 2008. N. 98. P. 267–270
9. Maksimov I.V., Abizgil'dina R.R., Pusenkova L.I. Vlijanie biopreparatov na osnove jendofitnoj bakterii Bacillus subtilis 26D na postvegetacionnoe sohranenie zashhitnogo potenciala klubnej kartofelja protiv patogenov // Prikl. biohimija i mikrobiologija. 2011. T. 47, № 4, s. 373–385. [Influence of biologics based on the endophytic bacterium Bacillus subtilis 26D on postvegetative preservation of the protective potential of potato tubers against pathogens] (In Russian)
10. Arumugam K., Ramalingam P., Appu M. Isolation of Trichoderma viride and Pseudomonas fluorescens organism from soil and their treatment against rice pathogens // J. Microbiol. Biotech. Res. 2013. 3 (6):77-81.