P.M. Tsarenko scite author profile

P.M. Tsarenko

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Intron length polymorphism of β-tubulin genes in microalgae

Pirko¹,

Rabokon²,

Postovoitovа³

et al. 2019

Dopov. Nac. akad. nauk Ukr.

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За допомогою аналізу поліморфізму довжини інтронів генів β-тубуліну здійснено генетичне профілювання восьми видів (десяти штамів) мікроводоростей з колекції IBASU-A Інституту ботаніки ім. М.Г. Холодного НАН України. Вперше встановлено закономірності відмінностей ДНК-профілів таксономічних одиниць мікроводоростей родового рівня, а саме: Acutodesmus, Desmodesmus, Dunaliella, Tribonema та Euglena. Показано можливість використання методу оцінки поліморфізму довжини інтронів генів β-тубуліну для міжвидової та внутрішньовидової диференціації мікроводоростей.

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Monoraphidium sp. IBASU-A 574 (Selenastraceae, Chlorophyta) - a promising producer of biomass for bioenergy

Tsarenko¹,

Borysova²,

Kharkhota³

et al. 2022

Algologia

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he present studies were carried out to evaluate a potential biofuel application of the native strain Monoraphidium sp. IBASU-A 574 (Selenastraceae, Chlorophyta) adapted to the temperate zone climatic conditions. This strain was isolated from a small freshwater lake situated in Kyiv-city (Ukraine) by the reached culture method for obtaining desired strains of different species with high growth rate. It was identified based on its morphological characterization under light microscopy and 18S rRNA sequence analysis. Its culture’s growth, kinetic characteristics (specific growth rate and productivity) and biological peculiarities of the investigated strain were studied in comparison with the well-known biomass producer Chlorella vulgaris Beijer. CALU 157 under the same autotrophic cultivating conditions with using the modified Tamiya medium. It was established an active growth of Monoraphidium sp. IBASU-A 574 which was practically equal to the well-known producer and characterized by following parameters: a maximum cell density of 248 ∙ 10-6 cells ∙ mL-1, the specific growth rate of 1.4 days-1 and productivity of 72.5 ∙ 10-6 cells ∙ mL-1 ∙ days-1. The results of gas-liquid chromatography analysis showed that a fatty acid profile of this microalga included a complex of palmitic (C16: 0), oleic (C18: 1), linoleic (C18: 2) and linolenic (C18: 3) major fatty acids with suitable proportion for developing biodiesel feedstocks. Moreover, there was considerable variation in formation of its fatty acid composition depending on the stage of growth, that confirmed the necessity for such studies to determine both optimal time for growing algae and gaing maximum yield of target products. Thus, Monoraphidium sp. IBASU-A 574 was found to be the promising producer of biomass for bioenergetic industry due to obtained data of its growth characteristics and suitable fatty acid profile of lipids.

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P.M. Tsarenko

Intron length polymorphism of β-tubulin genes in microalgae

Monoraphidium sp. IBASU-A 574 (Selenastraceae, Chlorophyta) - a promising producer of biomass for bioenergy

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