Search

Your search keyword '"Dubovik, Vsevolod"' showing total 11 results
Start Over Author "Dubovik, Vsevolod"
11 results on '"Dubovik, Vsevolod"'

1. Structure–Activity Relationships of Natural C-9-Methyl-Substituted 10-Membered Lactones and Their Semisynthetic Derivatives

Author

Fedorov, Anatoly, Dubovik, Vsevolod, Smirnov, Sergey, Chisty, Leonid, Khrustalev, Victor, Slukin, Anton, Alekseeva, Alena, Stepanycheva, Elena, Sendersky, Igor, Berestetskiy, Alexander, and Dalinova, Anna

Abstract

Fungal 10-membered lactones (TMLs), such as stagonolide A, herbarumin I, pinolidoxin, and putaminoxin, are promising candidates for the development of nature-derived herbicides. The aim of this study was to analyze the structure–activity relationships (SAR) of C-9-methyl-substituted TMLs with a multitarget bioassay approach to reveal compounds with useful (phytotoxic, entomotoxic, antimicrobial) or undesirable (cytotoxic) bioactivities. A new TML, stagonolide L (1), along with five known compounds (stagonolides D (2) and E (3), curvulides A (4) and B1/B2(5a,b), and pyrenolide C (6)), were purified from cultures of the phytopathogenic fungus Stagonospora cirsii, and five semisynthetic derivatives of 3and 4(7–11) were obtained. The absolute configuration of 4was revised to 2Z, 4S, 5S, 6R, and 9R.The identity of 5a,band stagonolide H is discussed. The phytotoxicity of compound 4, the entomotoxicity of 5a,b, and nonselective toxicity of compound 6are demonstrated. The latter confirms the hypothesis that the a,ß-unsaturated carbonyl group is associated with the high general toxicity of TML, regardless of its position in the ring and other substituents. The epoxide in compound 4is important for phytotoxicity. The revealed SAR patterns will be useful for further rational design of TML-based herbicides including curvulide A analogs with a 4,5-epoxy group.

Published
2024
Full Text
View/download PDF

2. Natural ten-membered lactones: sources, structural diversity, biological activity, and intriguing future.

Author

Dubovik, Vsevolod, Dalinova, Anna, and Berestetskiy, Alexander

Subjects
*POLYKETIDES, *LACTONES, *SCIENTIFIC discoveries, *NATURAL products, *MARINE organisms
Abstract

Covering: 2012 to 2022 Ten-membered lactones (TMLs) are an interesting and diverse group of natural polyketides that are abundant in fungi and, to a lesser extent, in bacteria, marine organisms, and insects. TMLs are known for their ability to exhibit a wide spectrum of biological activity, including phytotoxic, cytotoxic, antifungal, antibacterial, and others. However, the random discovery of these compounds by scientific groups with various interests worldwide has resulted in patchy information about their distribution among different organisms and their biological activity. Therefore, despite more than 60 years of research history, there is still no common understanding of the natural sources of TMLs, their structural type classification, and most characteristic biological activities. The controversial nomenclature, incorrect or erroneous structure elucidation, poor identification of producing organisms, and scattered information on the biological activity of compounds – all these factors have led to the problems with dereplication and the directed search for TMLs. This review consists of two parts: the first part (Section 2) covers 104 natural TMLs, published between 2012 and 2022 (after the publishing of the previous review), and the second part (Section 3) summarizes information about 214 TMLs described during 1964–2022 and as a result highlights the main problems and trends in the study of these intriguing natural products. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

3. Effects of Phytotoxic Nonenolides, Stagonolide A and Herbarumin I, on Physiological and Biochemical Processes in Leaves and Roots of Sensitive Plants

Author

Tyutereva, Elena V., primary, Dalinova, Anna A., additional, Demchenko, Kirill N., additional, Dmitrieva, Valeriya A., additional, Dubovik, Vsevolod R., additional, Lukinskiy, Yuriy V., additional, Mitina, Galina V., additional, Voitsekhovskaja, Olga V., additional, and Berestetskiy, Alexander, additional

Published
2023
Full Text
View/download PDF

8. Isolation and Bioactivity of Secondary Metabolites from Solid Culture of the Fungus, Alternaria sonchi

Author

Dalinova, Anna, primary, Chisty, Leonid, additional, Kochura, Dmitry, additional, Garnyuk, Varvara, additional, Petrova, Maria, additional, Prokofieva, Darya, additional, Yurchenko, Anton, additional, Dubovik, Vsevolod, additional, Ivanov, Alexander, additional, Smirnov, Sergey, additional, Zolotarev, Andrey, additional, and Berestetskiy, Alexander, additional

Published
2020
Full Text
View/download PDF

9. Stagonolides J and K and Stagochromene A, Two New Natural Substituted Nonenolides and a New Disubstituted Chromene-4,5-dione Isolated from Stagonospora cirsii S-47 Proposed for the Biocontrol of Sonchus arvensis

Author

Dalinova, Anna, primary, Dubovik, Vsevolod, additional, Chisty, Leonid, additional, Kochura, Dmitriy, additional, Ivanov, Alexander, additional, Smirnov, Sergey, additional, Petrova, Maria, additional, Zolotarev, Andrey, additional, Evidente, Antonio, additional, and Berestetskiy, Alexander, additional

Published
2019
Full Text
View/download PDF

10. Stagonolides J and K and Stagochromene A, Two New Natural Substituted Nonenolides and a New Disubstituted Chromene-4,5-dione Isolated from Stagonospora cirsiiS-47 Proposed for the Biocontrol of Sonchus arvensis

Author

Dalinova, Anna, Dubovik, Vsevolod, Chisty, Leonid, Kochura, Dmitriy, Ivanov, Alexander, Smirnov, Sergey, Petrova, Maria, Zolotarev, Andrey, Evidente, Antonio, and Berestetskiy, Alexander

Abstract

Two new natural 10-membered macrolides (1, 2) and one chromene-4,5-dione derivative (3), named stagonolides J and K and stagochromene A, respectively, were isolated from the phytopathogenic fungus Stagonospora cirsiiS-47, together with two known compounds, stagonolide A (4) and herbarumin I (5). Stagonolides J and K and stagochromene A were characterized as (5E,7R*,8S*,9R*)-7,8-dihydroxy-9-propyl-5-nonen-9-olide, (5E,7R,9S)-7-hydroxy-9-propyl-5-nonen-9-olide, and (2R*,3R*)-3-hydroxy-2-propyltetrahydro-2H-chromene-4,5(3H,4aH)-dione, respectively, by spectroscopic (mostly by NMR and ESIMS) data. Compounds 1–5showed different rates of phytotoxic activity on punctured leaf discs of Sonchus arvensis. The antimicrobial, cytotoxic, and antiprotozoal activity of isolated compounds was also evaluated. Based on our data, stagonolide K and herbarumin I can be proposed as a potential scaffold for the development of a new natural herbicide and estimated as possible selection/quality markers of a bioherbicide based on S. cirsii, while stagonolide A can be considered as a mycotoxin.

Published
2019
Full Text
View/download PDF

11. Reappraisal of <italic>Didymella macrostoma</italic> causing white tip disease of Canada thistle as a new species, <italic>Didymella baileyae</italic>, sp. nov., and bioactivity of its major metabolites.

Author

Lukina, Elizaveta, Gomzhina, Maria, Dalinova, Anna, Dubovik, Vsevolod, Gordina, Ekaterina, Bozhkova, Svetlana, Smirnov, Sergey, and Berestetskiy, Alexander

Subjects
*RNA polymerase II, *INTEGRATED pest control, *BIOLOGICAL weed control, *HOST plants, *WEED control
Abstract

Bioherbicides are expected to be a supplement to integrated pest management, assisting in the control of problematic weed species. For instance, bioherbicides (Phoma and BioPhoma) were recently registered in Canada and the USA for the control of some perennial dicotyledonous weeds in lawns. These products are based on strains of the fungus Didymella macrostoma (syn. Phoma macrostoma) that causes white tip disease (WTD) in Canada thistle (Cirsium arvense). In this study, WTD was reported for the first time in the Russian Federation. Analysis of the internal transcribed spacer (ITS) region of nuc rDNA and secondary metabolite profiling confirmed the identity of Russian WTD isolates to Canadian biocontrol strains identified as D. macrostoma. Multilocus phylogenetic analysis based on sequencing of the ITS region, partial large subunit nuc rDNA region (28S), RNA polymerase II second largest subunit gene (rpb2), and partial β-tubulin gene (tub2) has differentiated the WTD isolates from C. arvense and D. macrostoma isolates from other plant hosts. Based on phylogenetic, morphological, and chemotaxonomic features, these WTD isolates were described as a new species named Didymella baileyae, sp. nov. This study also demonstrated the low pathogenicity of the ex-type D. baileyae isolate VIZR 1.53 to C. arvense seedlings and its asymptomatic development in the leaves of aboveground shoots. The organic extracts from mycelium and culture filtrate of D. baileyae, as well as macrocidin A and macrocidin Z, displayed phytotoxicity both to C. arvense leaves and seedlings. Macrocidin A was only detected in the naturally infected leaf tissues of C. arvense showing WTD symptoms. Macrocidins A and Z demonstrated low antimicrobial and cytotoxic activities, exhibiting no entomotoxic properties. The data obtained within this study on the pathogenicity and metabolites of D. baileyae may be important for the rational evaluation of its prospects as a biocontrol agent. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results