POTATO FARMING: SCIENCE AND TECHNOLOGIES Khlestkin V.K., Peltek S.E., Kolchanov N.A. Target genes for development of potato (Solanum tuberosum L.) cultivars with desired starch properties (review) . . . <...> Strygina K.V., Khlestkina E.K. Anthocyanins synthesis in potato (Solanum tuberosum L.): genetic markers for smart breeding (review) . . . . . . . . . . . . <...> Yermishin A.P., Voronkova E.V. Development of initial material for marker assisted potato (Solanum tuberosum L.) parental line breeding at the diploid level (review) . <...> Development of methods for automatic extraction of knowledge from texts of scientific publications for the creation of a knowledge base SOLANUM TUBEROSUM . . . . <...> Anticipatory breeding: molecular markers as a tool in developing donors of potato (Solanum tuberosum L.) late blight resistance from complex interspecific hybrids . . . <...> Eradication of viruses in microplants of three cultivated potato species (Solanum tuberosum L., S. phureja Juz. & Buk., S. stenotomum Juz. & Buk.) using combined thermo-chemotherapy method Burygin G.L., Popova I.A., Kargapolova K.Yu. et al. <...> A bacterial isolate from the rhizosphere of potato (Solanum tuberosum L.) identified as Ochrobactrum lupini IPA7.2 Shcherbakov A.V., Shcherbakova E.N., Mulina S.A. et al. <...> New generation hybrids of white cabbage (Brassica oleracea L. convar. capitata var. alba DC) based on doubled haploids . . . . <...> Carbohydrate composition of flax mucilage and its relation to morphological characters . . . <...> Kiseleva N.S. Method of determination of pear leaf area on linear measurements by calculation of correction factors and variation statistics approach . . . . . . . . . . . <...> This group consists of several groups of peptides, including defensins, which are one of the most common classes of antimicrobial peptides and are detectable in all living organisms. <...> Defensins are small (45-54 amino acids), cysteine-rich peptides involved in a different protective responses (B.P. Thomma et al., 2002). <...> Genes which are coding plant defensins are expressed in different organs of plants, where their products are necessary for biotic and abiotic stresses. <...> Most of the plant defensins are characterized by the antifungal activity. <...> Expression of this gene in A. thaliana and S. cerevisiae leads to an increase in resistance to zinc, but not to cadmium, cobalt, iron <...>