Purpose. To analyze peculiarities of Ukrainian cereals and oilseeds trade, the situation on the world market, and determine future prospects of its development. Methods. Analysis and synthesis, comparative evaluation, graphic procedure. Results. The role and place of Ukraine in a total grain supply to the world market was determined. Ukraine is a world’s top ten grain producer. Among domestic agricultural products, cereals, oilseeds and sunflower oil are in the highest demand in the world. In recent years, our state has reinforced its status as one of the leading exporters of cereals. The commodity pattern of cereals and oilseeds export was analyzed with specifying most in-demand positions and the main countries purchasing these pro­ducts. According to the results of 2015, Ukraine obtained the highest foreign currency revenue from export of corn, wheat and barley (in grain structure) including soybeans and rapeseed (among oil crops). Key domestic and multinational operators are the main exporters of cereals and oilseeds in Ukraine and still hold their leading position. It was found a significant excess of import price of seeds as compared with export price of crops grown in Ukraine. Assortment of maize and sunflower seeds offered by major companies-producers in Ukraine was studied. Main trends of the world grain market development are considered. Conclusions. It was established that Ukraine is one of the major exporters of cereals and oilseeds. However, volatility of their prices significantly affects the export revenue that was decreasing even with increasing export quantities in kind. The dependence of domestic grain industry development on high-quality imported seed of maize and sunflower hybrids was recorded. It is expected that in the years to come Ukraine will maintain its strong positions in the world’s grain market.

Purpose. To analyze peculiarities of Ukrainian cereals and oilseeds trade, the situation on the world market, and determine future prospects of its development. Methods. Analysis and synthesis, comparative evaluation, graphic procedure. Results. The role and place of Ukraine in a total grain supply to the world market was determined. Ukraine is a world’s top ten grain producer. Among domestic agricultural products, cereals, oilseeds and sunflower oil are in the highest demand in the world. In recent years, our state has reinforced its status as one of the leading exporters of cereals. The commodity pattern of cereals and oilseeds export was analyzed with specifying most in-demand positions and the main countries purchasing these pro­ducts. According to the results of 2015, Ukraine obtained the highest foreign currency revenue from export of corn, wheat and barley (in grain structure) including soybeans and rapeseed (among oil crops). Key domestic and multinational operators are the main exporters of cereals and oilseeds in Ukraine and still hold their leading position. It was found a significant excess of import price of seeds as compared with export price of crops grown in Ukraine. Assortment of maize and sunflower seeds offered by major companies-producers in Ukraine was studied. Main trends of the world grain market development are considered. Conclusions. It was established that Ukraine is one of the major exporters of cereals and oilseeds. However, volatility of their prices significantly affects the export revenue that was decreasing even with increasing export quantities in kind. The dependence of domestic grain industry development on high-quality imported seed of maize and sunflower hybrids was recorded. It is expected that in the years to come Ukraine will maintain its strong positions in the world’s grain market.

Purpose. To analyse the practice of transliteration of the Ukrainian cultivar names and rendering foreign names by means of the Ukrainian language, as well as special aspects of cultivar names spelling in special literature. Results. Cultivar names as a special category require preservation of primary graphics or sound type in the other language. This can be achieved by direct inclusion of the original name to the Ukrainian text or by practical transcribing, but not by transliteration or translation. Otherwise, Ukrainian names should be transliterated for inclusion to the texts in Latin characters. Transcription/transliteration in both directions is performed from the source language, though, as practice shows, in some Ukrainian publications the Russian is wrongly used as an intermediary language. Some national scientific publications ignore the recommendations of the International Code of Nomenclature for Cultivated Plants that is not conducive to the success of scientific communication in the globalized world. Conclusions. The foreign names of plant varieties should be entered into the Ukrainian text keeping the original spelling or by means of practical transcription. The loan of foreign names is performed by transcribing directly from the source language; if the language doesn’t have the Latin alphabet, Latinized name transcription is acceptable. Recommendations of the International Code of Nomenclature for Cultivated Plants that concern graphic highlighting of the cultivar names in the text enclosing them in single quotation marks and writing each word of a cultivar name with a capital letter should necessarily be applied in the foreign-language publications and extended to the Ukrainian special literature, at least, in terms of the use of single quotation marks. Ukrainian names should be transliterated only in accordance with the regulations.

Purpose. To analyse the practice of transliteration of the Ukrainian cultivar names and rendering foreign names by means of the Ukrainian language, as well as special aspects of cultivar names spelling in special literature. Results. Cultivar names as a special category require preservation of primary graphics or sound type in the other language. This can be achieved by direct inclusion of the original name to the Ukrainian text or by practical transcribing, but not by transliteration or translation. Otherwise, Ukrainian names should be transliterated for inclusion to the texts in Latin characters. Transcription/transliteration in both directions is performed from the source language, though, as practice shows, in some Ukrainian publications the Russian is wrongly used as an intermediary language. Some national scientific publications ignore the recommendations of the International Code of Nomenclature for Cultivated Plants that is not conducive to the success of scientific communication in the globalized world. Conclusions. The foreign names of plant varieties should be entered into the Ukrainian text keeping the original spelling or by means of practical transcription. The loan of foreign names is performed by transcribing directly from the source language; if the language doesn’t have the Latin alphabet, Latinized name transcription is acceptable. Recommendations of the International Code of Nomenclature for Cultivated Plants that concern graphic highlighting of the cultivar names in the text enclosing them in single quotation marks and writing each word of a cultivar name with a capital letter should necessarily be applied in the foreign-language publications and extended to the Ukrainian special literature, at least, in terms of the use of single quotation marks. Ukrainian names should be transliterated only in accordance with the regulations.

Purpose. To establish adaptive capacity and reproduction time of the registered potato varieties elite bred at the Potato Research Institute of NAAS of Ukraine in various edaphic and climatic zones of Ukraine. Methods. Field and laboratory tests, statistical evaluation. Results. Potato varieties were tested in the Forest-Seppe, Polissia and Steppe zones of Ukraine. Over the years of testing (2012–2014), the highest yield of potatoes in the south-western part of the Forest-Steppe zone was produced by the early varieties: ‘Kimmeria’ – 46.9 t/ha, ‘Vedruska’ – 38.6 t/ha; middle-early varieties: ‘Partner’ – 33.2 t/ha, ‘Fantazia – 27.7 t/ha; mid-season varie­ties: ‘Okolytsia’ – 35.4 t/ha, ‘Mandrivnytsia’ – 25.1 t/ha. In the Central Polissia, ‘Kimmeria’ (31 t/ha) was the most productive early variety, the yield at the level of 27.6–29.2 t/ha was formed by such varieties as ‘Skarbnytsia’, ‘Serpanok’, ‘Radynka’, ‘Tyras’. Among the middle-early varieties, the yield of 33.1 t/ha was obtained from the variety ‘Partner’. In the conditions of Steppe zone, such early potato varieties as ‘Vymir’, ‘Glazurna’, ‘Strumok’, ‘Kimmeria’, ‘Svitoch’ and the middle-early variety ‘Ariya’ had the highest productivity in case of gro­wing as bivoltine crop under irrigated conditions. It was found that in the Forest-Steppe and Polissia zones such varieties as ‘Kimmeria’, ‘Vedruska, ‘Serpanok’, ‘Skarbnytsia, ‘Tyras’, ‘Radynka’, ‘Partner’, ‘Slovianka’, ‘Vernisazh’, ‘Mandrivnytsia’, ‘Poliske dzherelo’ and ‘Chervona ruta’ were characterized by high resistance to degeneration (viral diseases and loss of productivity of potato elite in the process of reproduction). According to the results of evaluation of the impact of elite potato reproduction time on affection by viral diseases, optimal time for elite renovation for investigated varieties was determined. Conclusions. In the process of testing in various edaphic and climatic zones of Ukraine, stable yield with a high seed tubers number, regardless of weather conditions during the growing season in the Forest-Steppe and Polissia zones, was formed by some early potato varieties (‘Kimmeria’, ‘Vedruska’, ‘Radynka) and middle-early one (‘Partner’). Among mid-season varieties ‘Vernisazh’, ‘Okolytsia’, ‘Mandrivnytsia’ were identified for high productivity, and among middle-late – ‘Poliske dzherelo’ and ‘Chervona ruta’. The most common viral diseases of potatoes were rugose mosaic and mosaic leaf curling. High efficiency of the use of bivoltine crop method for potato growing to obtain seed material in the Southern Steppe zone of Ukraine has been proved.

Purpose. To establish adaptive capacity and reproduction time of the registered potato varieties elite bred at the Potato Research Institute of NAAS of Ukraine in various edaphic and climatic zones of Ukraine. Methods. Field and laboratory tests, statistical evaluation. Results. Potato varieties were tested in the Forest-Seppe, Polissia and Steppe zones of Ukraine. Over the years of testing (2012–2014), the highest yield of potatoes in the south-western part of the Forest-Steppe zone was produced by the early varieties: ‘Kimmeria’ – 46.9 t/ha, ‘Vedruska’ – 38.6 t/ha; middle-early varieties: ‘Partner’ – 33.2 t/ha, ‘Fantazia – 27.7 t/ha; mid-season varie­ties: ‘Okolytsia’ – 35.4 t/ha, ‘Mandrivnytsia’ – 25.1 t/ha. In the Central Polissia, ‘Kimmeria’ (31 t/ha) was the most productive early variety, the yield at the level of 27.6–29.2 t/ha was formed by such varieties as ‘Skarbnytsia’, ‘Serpanok’, ‘Radynka’, ‘Tyras’. Among the middle-early varieties, the yield of 33.1 t/ha was obtained from the variety ‘Partner’. In the conditions of Steppe zone, such early potato varieties as ‘Vymir’, ‘Glazurna’, ‘Strumok’, ‘Kimmeria’, ‘Svitoch’ and the middle-early variety ‘Ariya’ had the highest productivity in case of gro­wing as bivoltine crop under irrigated conditions. It was found that in the Forest-Steppe and Polissia zones such varieties as ‘Kimmeria’, ‘Vedruska, ‘Serpanok’, ‘Skarbnytsia, ‘Tyras’, ‘Radynka’, ‘Partner’, ‘Slovianka’, ‘Vernisazh’, ‘Mandrivnytsia’, ‘Poliske dzherelo’ and ‘Chervona ruta’ were characterized by high resistance to degeneration (viral diseases and loss of productivity of potato elite in the process of reproduction). According to the results of evaluation of the impact of elite potato reproduction time on affection by viral diseases, optimal time for elite renovation for investigated varieties was determined. Conclusions. In the process of testing in various edaphic and climatic zones of Ukraine, stable yield with a high seed tubers number, regardless of weather conditions during the growing season in the Forest-Steppe and Polissia zones, was formed by some early potato varieties (‘Kimmeria’, ‘Vedruska’, ‘Radynka) and middle-early one (‘Partner’). Among mid-season varieties ‘Vernisazh’, ‘Okolytsia’, ‘Mandrivnytsia’ were identified for high productivity, and among middle-late – ‘Poliske dzherelo’ and ‘Chervona ruta’. The most common viral diseases of potatoes were rugose mosaic and mosaic leaf curling. High efficiency of the use of bivoltine crop method for potato growing to obtain seed material in the Southern Steppe zone of Ukraine has been proved.

Purpose. To create new competitive spring wheat varieties. Methods. Field study, laboratory test. Results. Based on the competitive variety trial, bread spring wheat line ‘Lutescens 07-26’ has been selected due to high values of such traits as resistance to fungal diseases, grain qua­lity(protein content accounted for 15.0%), 1000 kernel weight (44.6 g) productivity (3.92 t/ha) and lodging resistance (9 points). In 2011, it was submitted to the State variety testing as ‘Panianka’ variety. Durum spring wheat line ‘Leukurum 08-11’ was characterized by a number of positive traits: quite a high productivity (3.05 t/ha), short stem (79 cm), resistance to fungal diseases and lodging(9 points), and in 2011 it was submitted to the State variety testing as ‘Diana’ variety. According to the results of the State variety testing in 2012–2014, spring wheat varieties ‘Panianka’ and ‘Diana’ in 2015 were put on the State Register of plant varieties suitable for dissemination in Ukraine. Conclusions. For farms in Forest-Steppe and Polissia zones of Ukraine, bread and durum spring wheat varieties were bred by V. M.Remeslo Myronivka Institute of Wheat of NAAS of Ukraine that demonstrated rather high potential of productivity and adaptability to stress conditions. This goes to prove that cultivation of domestic spring wheat varieties will promote formation of high and quality grain yields.

Purpose. To create new competitive spring wheat varieties. Methods. Field study, laboratory test. Results. Based on the competitive variety trial, bread spring wheat line ‘Lutescens 07-26’ has been selected due to high values of such traits as resistance to fungal diseases, grain qua­lity(protein content accounted for 15.0%), 1000 kernel weight (44.6 g) productivity (3.92 t/ha) and lodging resistance (9 points). In 2011, it was submitted to the State variety testing as ‘Panianka’ variety. Durum spring wheat line ‘Leukurum 08-11’ was characterized by a number of positive traits: quite a high productivity (3.05 t/ha), short stem (79 cm), resistance to fungal diseases and lodging(9 points), and in 2011 it was submitted to the State variety testing as ‘Diana’ variety. According to the results of the State variety testing in 2012–2014, spring wheat varieties ‘Panianka’ and ‘Diana’ in 2015 were put on the State Register of plant varieties suitable for dissemination in Ukraine. Conclusions. For farms in Forest-Steppe and Polissia zones of Ukraine, bread and durum spring wheat varieties were bred by V. M.Remeslo Myronivka Institute of Wheat of NAAS of Ukraine that demonstrated rather high potential of productivity and adaptability to stress conditions. This goes to prove that cultivation of domestic spring wheat varieties will promote formation of high and quality grain yields.

Purpose. Review of the main achievements of the Wheat Breeding and Seed ProductionDepartment in the Plant Breeding and Genetic Institute – National Centre of Seed and Cultivar Investigation in the developing theoretical principles of breeding and creation of winter wheat varieties of different types during 100-year (1916–2016) period of breeding programs realization. Results. The main theoretical, methodical developments and breeding achievements of Wheat Breeding and Seed Production Department during 100-year (1916–2016) history have been considered. In the course of the Department activity, the research and metho­dology grounds of bread winter wheat breeding and seed production have been laid, 9 stages of breeding programs development have been accomplished. As a result, more than 130 varieties of different types have been created, 87 of them have been released in some periods or registered in the State registers of plants varieties of Ukraine and other countries and grown in the total sowing area about 220 million hectares.

Мета. Визначення генетичних ефектів ПЖТ 1AL.1RS і 1ВL.1RS на врожайність, елементи продуктивності рослин та показники якості рекомбінантних ліній, установлення ефективності використання кожної з ПЖТ для створення досконаліших за цими ознаками сортів пшениці м’якої озимої в умовах ґрунтово-повітряних посух у степовій зоні України та розроблення селекційних заходівів зменшення негативних ефектів транслокацій для отримання генотипів з високими показниками якості зерна цінної і сильної пшениці. Методи. Польові експерименти, внутрішньовидова гібридизація, оцінювання селекційного матеріалу в польових умовах, методи лабораторного визначення показників хлібопекарських якостей зерна, електрофорез запасних білків, статистичні. Результати. У посушливих умовах Півдня України на великому експериментальному матеріалі селекційного процесу виявлено позитивний вплив ПЖТ 1AL.1RS на врожайність рекомбінантних ліній та основні елементи продуктивності рослин, що проявляється на фоні одночасного позитивного ефекту цієї транслокації на посухо- й жаростійкість. Використання в селекції пшениці ПЖТ 1ВL.1RS у цьому регіоні є менш перспективним заходом. Установлено, що введення шляхом гібридизації в місцевий генофонд пшениці м’якої озимої пшенично-житніх транслокацій 1АL.1RS та 1ВL.1RS змінює показники якості зерна. Зокрема, вміст білка, зазвичай, має тенденцію до підвищення, при цьому він суттєвіше зростає завдяки транслокації 1ВL.1RS. Показано, що частота отримання рекомбінантних ліній, які поєднують високу врожайність та мають добрі хлібопекарські властивості не нижче цінних і сильних пшениць, досить низька (1,7–6,1%). Однак, переваги за цим показником мають інтрогресивні лінії з ПЖТ 1АL.1RS. Використовуючи комбінування в процесі гібридизації ПЖТ з алелями з високим позитивним впливом на хлібопекарські властивості, а також створюючи гетерогенність у складі генотипів з ПЖТ і без них, можна спрямовано зменшувати негативний вплив ПЖТ на якість зерна пшениці м’якої озимої і створювати сорти з параметрами якості цінних і сильних пшениць. Висновки. Отримані результати дають підстави стверджувати, що використання ПЖТ 1AL.1RS є перспективним напрямом подальшого селекційного нарощування генетичного потенціалу врожайності сортів пшениці м’якої озимої в посушливих умовах Півдня України. У результаті повного циклу селекційного процесу на матеріалі з ПЖТ 1АL.1RS, створена серія сортів пшениці м’якої озимої – ‘Житниця одеська’, ‘Октава одеська’, ‘Ліга одеська’, ‘Дума одеська’, ‘Версія одеська’, які забезпечують підвищення врожайності на 10–15% порівняно зі стандартами та занесені до Державних реєстрів сортів рослин України та Молдови. | Purpose. To determine the genetic effects of WRT 1AL.1RS and 1BL.1RS on the yield, plant productivity elements and quality indices of recombinant lines, to determine the effectiveness of using each of the WRT for creating more perfect varieties of soft winter wheat in these traits under soil-air drought in the steppe zone of Ukraine and development of breeding techniques to reduce the negative effects of translocation to produce genotypes with high quality indices of valuable and strong wheat grain. Methods. Field experiments, intraspecific hybridization, evaluation of breeding material in the field, methods of laboratory determination of baking quality indices of grain, electrophoresis of spare proteins, statistical. Results. Under arid conditions of the South of Ukraine on the large experimental material of breeding process, a positive effect of 1AL.1RS on the yield of recombinant lines and the main elements of plant productivity were determined, which was manifested against the background of simultaneous positive effect of this transposition on the drought and heat tolerance. The use of 1BL.1RS in wheat breeding in this region is less promising technique. It has been determined that introduction of 1AL.1RS, 1BL.1RS translocations into local gene pool of soft winter wheat by hybridization changes the grain quality indices. In particular, the protein content tends to increase more significantly under the influence of 1BL.1RS translocation. It has been shown that the frequency of obtaining recombinant lines which combine high yield and sufficient level of baking properties (not lower than valuable and strong wheat) is quite low (1,7–6,1%), but introgressive lines with 1AL.1RS have the advantages in this parameter. Using such genetic factors as hybridization combining WRT with alleles with high positive effect on baking properties, and also creating heterogeneity in the composition of genotypes with and without WRT, one can purposefully reduce the negative impact of WRT on the quality of soft winter wheat grain and create varieties with quality parameters of valuable and strong wheat. Conclusions. In general, the results achieved give reason to assert that the use of WRT 1AL.1RS is a promising direction for further breeding increase of genetic capacity of soft winter wheat varieties in the arid conditions of the South of Ukraine. As a result of full cycle of breeding process on the material with 1AL.1RS WRT a series of varieties of soft winter wheat ‘Zhytnytsia odeska’, ‘Oktava odeska’, ‘Liha odeska’, ‘Duma odeska’, ‘Versiia odeska’, providing 10 – 15% increase in yield to standards was created and included in the State Register of Ukraine and Moldova.

The morphological and agrobiological characteristics and qualities, the potential of the new registered winter wheat varieties, which are suitable for intensive technologies have been learned.

Мета. Визначення генетичних ефектів ПЖТ 1AL.1RS і 1ВL.1RS на врожайність, елементи продуктивності рослин та показники якості рекомбінантних ліній, установлення ефективності використання кожної з ПЖТ для створення досконаліших за цими ознаками сортів пшениці м’якої озимої в умовах ґрунтово-повітряних посух у степовій зоні України та розроблення селекційних заходівів зменшення негативних ефектів транслокацій для отримання генотипів з високими показниками якості зерна цінної і сильної пшениці. Методи. Польові експерименти, внутрішньовидова гібридизація, оцінювання селекційного матеріалу в польових умовах, методи лабораторного визначення показників хлібопекарських якостей зерна, електрофорез запасних білків, статистичні. Результати. У посушливих умовах Півдня України на великому експериментальному матеріалі селекційного процесу виявлено позитивний вплив ПЖТ 1AL.1RS на врожайність рекомбінантних ліній та основні елементи продуктивності рослин, що проявляється на фоні одночасного позитивного ефекту цієї транслокації на посухо- й жаростійкість. Використання в селекції пшениці ПЖТ 1ВL.1RS у цьому регіоні є менш перспективним заходом. Установлено, що введення шляхом гібридизації в місцевий генофонд пшениці м’якої озимої пшенично-житніх транслокацій 1АL.1RS та 1ВL.1RS змінює показники якості зерна. Зокрема, вміст білка, зазвичай, має тенденцію до підвищення, при цьому він суттєвіше зростає завдяки транслокації 1ВL.1RS. Показано, що частота отримання рекомбінантних ліній, які поєднують високу врожайність та мають добрі хлібопекарські властивості не нижче цінних і сильних пшениць, досить низька (1,7–6,1%). Однак, переваги за цим показником мають інтрогресивні лінії з ПЖТ 1АL.1RS. Використовуючи комбінування в процесі гібридизації ПЖТ з алелями з високим позитивним впливом на хлібопекарські властивості, а також створюючи гетерогенність у складі генотипів з ПЖТ і без них, можна спрямовано зменшувати негативний вплив ПЖТ на якість зерна пшениці м’якої озимої і створювати сорти з параметрами якості цінних і сильних пшениць. Висновки. Отримані результати дають підстави стверджувати, що використання ПЖТ 1AL.1RS є перспективним напрямом подальшого селекційного нарощування генетичного потенціалу врожайності сортів пшениці м’якої озимої в посушливих умовах Півдня України. У результаті повного циклу селекційного процесу на матеріалі з ПЖТ 1АL.1RS, створена серія сортів пшениці м’якої озимої – ‘Житниця одеська’, ‘Октава одеська’, ‘Ліга одеська’, ‘Дума одеська’, ‘Версія одеська’, які забезпечують підвищення врожайності на 10–15% порівняно зі стандартами та занесені до Державних реєстрів сортів рослин України та Молдови.

The new rules formulated in Article 59 of the International Code of Nomenclature for algae, fungi, and plants (ICN) will cause numerous, often undesirable, name changes, when only phylogenetically defined clades are named. Our task is to name fungal taxa and not just clades. Two suggestions are made here that may help to alleviate some disadvantages of the new system. (1) Officially an epithet coined in a list-demoted genus that is older than the oldest one available in the list-accepted genus would have to be recombined in the accepted genus. We recommend that individual authors and committees establishing lists of protected names should generally not recombine older epithets from a demoted genus into the accepted genus, when another one from pre-2013 is available in that genus. (2) Because the concepts of correlated teleomorph and anamorph genera are often incongruent, enforced congruence leads to a loss of information. Retaining the most suitable generic name is imperative, even when this is subordinated to another, list-accepted, generic name. Some kind of cryptic dual generic nomenclature is bound to persist. We therefore strongly recommend the retention of binomials in genera where they are most informative. With these recommendations, the upheaval of fungal nomenclature ensuing from the loss of the former Art. 59 can be reduced to an unavoidable minimum.

Purpose. Review of the main achievements of the Wheat Breeding and Seed ProductionDepartment in the Plant Breeding and Genetic Institute – National Centre of Seed and Cultivar Investigation in the developing theoretical principles of breeding and creation of winter wheat varieties of different types during 100-year (1916–2016) period of breeding programs realization. Results. The main theoretical, methodical developments and breeding achievements of Wheat Breeding and Seed Production Department during 100-year (1916–2016) history have been considered. In the course of the Department activity, the research and metho­dology grounds of bread winter wheat breeding and seed production have been laid, 9 stages of breeding programs development have been accomplished. As a result, more than 130 varieties of different types have been created, 87 of them have been released in some periods or registered in the State registers of plants varieties of Ukraine and other countries and grown in the total sowing area about 220 million hectares.

Purpose. Investigation of maize ae1 gene polymorphism by bioinformatic methods. Methods. Global and local alignment of the nucleotide and amino acid sequences, in silico translation and transcription, translates modeling, pri­mers design, phylogenetic analysis. Results. 255 nucleotide sequences of maize аe1 gene, 500 amino acid sequences of homology translates of maize ae1 gene (SBEIIb enzyme homologs) and 100 mRNA expressed from the maize ae1 gene were analyzed to establish phylogenetic relationships. Polymorphism of maize ae1 gene different regions was investigated by bioinformatic methods. Modeling of the maize enzyme SBEIIb was performed. Conclusions. According to the results of amino acid sequences of SBEIIb enzyme homologs alignment, it was found that ae1 gene orthologs are pre­sent only in monocots, paralogs – in monocots, dicots, and other taxa, including algae and animals. Based on the results of alignment of plants mRNA from which enzyme SBEIIb is translated, maize ae1 gene orthologs and the nearest paralogs encoding starch branching enzymes with chloroplast localization were defined; this suggests a possible origin of ae1 gene due to duplication of the gene encoding the 1,4-alpha-glucan-branching enzyme 2 with chloroplast or amyloplast localization. In the maize ae1 gene structure, regions were found that include polymorphic sites not defined previously. For the polymorphic sites design primers were developed that allowed to differentiate the maize lines. It was determined that the detection of polymorphism in theory can influence the enzyme function and, as a result, change the concentration of amylopectin in maize grain.

Purpose. Investigation of maize ae1 gene polymorphism by bioinformatic methods. Methods. Global and local alignment of the nucleotide and amino acid sequences, in silico translation and transcription, translates modeling, pri­mers design, phylogenetic analysis. Results. 255 nucleotide sequences of maize аe1 gene, 500 amino acid sequences of homology translates of maize ae1 gene (SBEIIb enzyme homologs) and 100 mRNA expressed from the maize ae1 gene were analyzed to establish phylogenetic relationships. Polymorphism of maize ae1 gene different regions was investigated by bioinformatic methods. Modeling of the maize enzyme SBEIIb was performed. Conclusions. According to the results of amino acid sequences of SBEIIb enzyme homologs alignment, it was found that ae1 gene orthologs are pre­sent only in monocots, paralogs – in monocots, dicots, and other taxa, including algae and animals. Based on the results of alignment of plants mRNA from which enzyme SBEIIb is translated, maize ae1 gene orthologs and the nearest paralogs encoding starch branching enzymes with chloroplast localization were defined; this suggests a possible origin of ae1 gene due to duplication of the gene encoding the 1,4-alpha-glucan-branching enzyme 2 with chloroplast or amyloplast localization. In the maize ae1 gene structure, regions were found that include polymorphic sites not defined previously. For the polymorphic sites design primers were developed that allowed to differentiate the maize lines. It was determined that the detection of polymorphism in theory can influence the enzyme function and, as a result, change the concentration of amylopectin in maize grain.

Purpose. To develop and improve adaptive technologies of winter wheat cultivation which provide high productivity and quality of grain. Methods. Field and laboratory stu­dies, mathematical and statistical analysis. Results. During 2011–2015, the impact of cultivation technologies on the formation of grain quality and yield of winter wheat varie­ty ‘Stolychna’ (with pea as predecessor) was studied. When using alternative technologies with only predecessor by-products application, the yield of winter wheat with integ­rated crop protection system was 4,56 t/ha, with minimal protection – 4.25 t/ha with grain quality of the 5th class of B group. Resource saving cultivation technologies with limi­ted application of fertilizers (Р45К45N30(II)+30(IV)) provided productivity at the level of 4,87–5,50 t/ha with grain qua­lity of the 2nd–3rd class of A group. Grain yield of 6.01 t/ha with indicators of the 2nd–3rd class of quality was obtained with the use of intensive cultivation technology with application of mineral fertilizers (Р90К90N30(II)+60(IV)+30(VIII)) on the background of applying predecessor’s by-products and integra­ted crop protection. The highest yield of grain (6.22 t/ha) with indicators of the 2nd class of A group quality on average for the research period was provided by energy-intensive technology, that requires the application of mineral fertilize­rs (P135K135N60(II)+75(IV)+45(VIII)) and incorporation of predecessor’s by-products in the soil, and integrated plant protection. Conclusion. It was found that in the northern part of the Right-Bank Forest-Steppe zone of Ukraine, the highest productivity of winter wheat was obtained in dark grey podzolic soils when using the energy-intensive technology with application of P135K135N60(II)+75(IV)+45(VIII) on the background of predecessor’s by-products and integrated crop protection. This technology ensured the grain yield of 6.22 t/ha of the 2nd class of A group quality.

Purpose. To develop and improve adaptive technologies of winter wheat cultivation which provide high productivity and quality of grain. Methods. Field and laboratory stu­dies, mathematical and statistical analysis. Results. During 2011–2015, the impact of cultivation technologies on the formation of grain quality and yield of winter wheat varie­ty ‘Stolychna’ (with pea as predecessor) was studied. When using alternative technologies with only predecessor by-products application, the yield of winter wheat with integ­rated crop protection system was 4,56 t/ha, with minimal protection – 4.25 t/ha with grain quality of the 5th class of B group. Resource saving cultivation technologies with limi­ted application of fertilizers (Р45К45N30(II)+30(IV)) provided productivity at the level of 4,87–5,50 t/ha with grain qua­lity of the 2nd–3rd class of A group. Grain yield of 6.01 t/ha with indicators of the 2nd–3rd class of quality was obtained with the use of intensive cultivation technology with application of mineral fertilizers (Р90К90N30(II)+60(IV)+30(VIII)) on the background of applying predecessor’s by-products and integra­ted crop protection. The highest yield of grain (6.22 t/ha) with indicators of the 2nd class of A group quality on average for the research period was provided by energy-intensive technology, that requires the application of mineral fertilize­rs (P135K135N60(II)+75(IV)+45(VIII)) and incorporation of predecessor’s by-products in the soil, and integrated plant protection. Conclusion. It was found that in the northern part of the Right-Bank Forest-Steppe zone of Ukraine, the highest productivity of winter wheat was obtained in dark grey podzolic soils when using the energy-intensive technology with application of P135K135N60(II)+75(IV)+45(VIII) on the background of predecessor’s by-products and integrated crop protection. This technology ensured the grain yield of 6.22 t/ha of the 2nd class of A group quality.

Purpose. To develop a conceptually new method for determination of varietal purity (typicality), hybridity, steri­lity of seed lots. Methods of molecular biology (genomic DNA extraction, PCR with SSR markers application, capillary electrophoresis), genetic, statistical, mathematical analysis. Results. New method for determining the varietal qualities of seed lot was developed that consists of the following steps: simultaneous DNA extraction from a representative sample of aggregated seeds; PCR and further analysis of the amplification products by determination of the qualitative and quantitative composition of SSR-markers’ alleles; calculation of values of varietal seed lot quality using experimentally derived allele ratios. Conclusions. The developed method for determining varietal qualities of seed lots allows to reduce significantly the consumption of materials, time and labor during the analysis. Consistent qualification and quantification of alleles in the total sample of a seed lot is a conceptually new approach to establish varietal purity (typicality), hybridity, sterility.

ß-tubulin, calmodulin, internal transcribed spacer and partial Isu-rDNA, RNA polymerase 2, DNA replication licensing factor Mcm7, and pre-rRNA processing protein Tsr1 were amplified and sequenced from numerous isolates belonging to Aspergillus sect, versicolor. The isolates were analyzed phylogenetically using the concordance model to establish species boundaries. Aspergillus austroafricanus, A. creber, A. cvjetkovicii, A. fructus, A. jensenii, A. puulaauensis, A. subversicolor, A. tennesseensis and A. venenatus are described as new species and A. amoenus, A. protuberus, A. sydowii, A. tabacinus and A. versicolor are accepted as distinct species on the basis of molecular and phenotypic differences. PCR primer pairs used to detect A. versicolor in sick building syndrome studies have a positive reaction for all of the newly described species except A. subversicolor.

Purpose. Theoretical and experimental substantiation of introduction of “Romantica” roses originated by Meilland company under the conditions of the Right-Bank Forest-Steppe Zone of Ukraine. Methods. Biometrical, comparative-morphological, statistic ones. Results. Viability, growth and development indices as well as ornamental qualities (tolerance for winter conditions, frost hardiness, drought resistance, complex disease and pest resistance, habit maintenance, shoot formation, flowering, coloration, shape of flowers, petal number etc.) were analyzed for 12 rose cultivars of “Romantica” series planted on the collection and exhibition plots of the National Dendrological Park «Sofiivka» NAS of Ukraine. The investigations were conducted within 2012–2015. The most of the cultivars got the mark of introduction success 41–45 points of 50; so, the cultivars are totally promising for introduction into the conditions of the Right-Bank Forest-Steppe Zone of Ukraine. ‘Leonardo da Vinci’ and ‘Yves Piaget’ cultivars got point number 35–38 and they can be considered promising ones. The acclimatization number for the most of the investigated cultivars was 85–90 points of 100 that means good adaptation of the plants in the conditions of the Right-Bank Forest-Steppe Zone of Ukraine. The adaptation of cv. ‘Leonardo da Vinci’ and cv. ‘Yves Piaget’ roses (point number 75) can be considered satisfactory. The total evaluation of “Romantica” roses ornamental qualities made 76–87 points of 100; so, all the cultivars display high ornamental qualities and deserve to be introduced to the production. Conclusions. The garden roses of “Romantica” series originated by Meilland company being introduced into the conditions of the Right-Bank Forest-Steppe Zone of Ukraine are adapted well in the introduction region and they are promising for the subsequent introduction.

The study of impact of complex application of biological compositions based on fixing nitrogen by microorganisms and plant lectin and nitric fertilizers on productivity and quality of grain of winter wheat on the dark-grey soil in the field terms was conducted. It is shown, that presowing treatment of seed by biological compositions stimulated forming of greater productivity with the best quality.

Purpose. To create a multiplex system for identification glyphosate-tolerant sugar beet by using PCR. Methods. Molecular genetic analysis. Results. The article presents the results of studies to determine the parameters of the polymerase chain reaction (PCR) in order to develop a multiplex system for identification of the structural elements of the design of transgenic gene cp 4 epsps, which provides tole­rance to glyphosate. For amplicon target DNA sequences, the following values of temperature conditions of PCR were determined: step 1 (initial denaturation) 95 °C – 3 min; step 2 (specific reaction products accumulation): denaturation 95 °C – 45 s; hybridization of primers 55 °C – 50 s; elongation 72 °C – 1 min; number of cycles – 40; step 3 (final elongation) 72 °C – 6 min. A series of PCR were carried out for the purpose of selecting the optimal amount of DNA matrix for efficient estimate of transgenic sugar beet plants for the presence of specific sequences. Conclusions. To identify transgenic glyphosate-tolerant sugar beet, it is advisable to determine 35S promoter and gene cp 4 epsps in individual genotypes. It was found that during the selection of temperature parameters of multiplex reaction a 5 °C rise in primer hybridization temperature did not affect the identification of gene als that allowed to include specific primers for determination of this sequence as an internal control. Based on the results of test multiplex reactions, concentrations of dNTPs and Mg2+ ions were determined that allowed to exclude the possibility of non-specific fragments and false-negative results. The optimum amount of matrix DNA (100–150 ng) for an efficient estimate of transgenic sugar beet plants for the presence of specific sequences was determined. Obtained results allowed to develop a multiplex test system for identification of transgenic glyphosate-to­lerant sugar beet which can be used for simultaneous determination of the 35S promoter, cp 4 epsps gene and als gene as an internal reaction control.

Purpose. To create a multiplex system for identification glyphosate-tolerant sugar beet by using PCR. Methods. Molecular genetic analysis. Results. The article presents the results of studies to determine the parameters of the polymerase chain reaction (PCR) in order to develop a multiplex system for identification of the structural elements of the design of transgenic gene cp 4 epsps, which provides tole­rance to glyphosate. For amplicon target DNA sequences, the following values of temperature conditions of PCR were determined: step 1 (initial denaturation) 95 °C – 3 min; step 2 (specific reaction products accumulation): denaturation 95 °C – 45 s; hybridization of primers 55 °C – 50 s; elongation 72 °C – 1 min; number of cycles – 40; step 3 (final elongation) 72 °C – 6 min. A series of PCR were carried out for the purpose of selecting the optimal amount of DNA matrix for efficient estimate of transgenic sugar beet plants for the presence of specific sequences. Conclusions. To identify transgenic glyphosate-tolerant sugar beet, it is advisable to determine 35S promoter and gene cp 4 epsps in individual genotypes. It was found that during the selection of temperature parameters of multiplex reaction a 5 °C rise in primer hybridization temperature did not affect the identification of gene als that allowed to include specific primers for determination of this sequence as an internal control. Based on the results of test multiplex reactions, concentrations of dNTPs and Mg2+ ions were determined that allowed to exclude the possibility of non-specific fragments and false-negative results. The optimum amount of matrix DNA (100–150 ng) for an efficient estimate of transgenic sugar beet plants for the presence of specific sequences was determined. Obtained results allowed to develop a multiplex test system for identification of transgenic glyphosate-to­lerant sugar beet which can be used for simultaneous determination of the 35S promoter, cp 4 epsps gene and als gene as an internal reaction control.