Ways of auxin biosynthesis in microorganisms
| dc.contributor.author | Pirog, Tatiana | |
| dc.contributor.author | Piatetska, Daria | |
| dc.contributor.author | Klymenko, Natalia | |
| dc.contributor.author | Iutynska, Galyna | |
| dc.date.accessioned | 2023-09-19T08:44:42Z | |
| dc.date.available | 2023-09-19T08:44:42Z | |
| dc.date.issued | 2022 | |
| dc.description.abstract | Among plant hormones, auxins, in particular indole-3-acetic acid (IAA), are the most studied and researched. Almost all groups of soil microorganisms, both plant-associated and non-plant-associated bacteria, fungi, and phytopathogenic microorganisms are capable of producing auxins. Th e development of preparations for crop production is directly related to the production of bacterial strains with high auxin-synthesizing potential, which is possible only with a full understanding of the ways of regulation and synthesis of auxins in bacteria. Th e synthesis of auxins in microorganisms can take place in two ways: by the gradual conversion of tryptophan to IAA (tryptophan-dependent pathway) or by the use of other intermediates (tryptophan-independent pathway). Th e latter is poorly clarifi ed, and in the literature available today, there is only a small amount of information on the functioning of this pathway in microorganisms. Th e review presents literature data on the ways of auxin biosynthesis in diff erent groups of microorganisms, as well as approaches to the intensifi cation of indole-3-acetic acid synthesis. Th e formation of IAA from tryptophan can be carried out in the following ways: through indole-3-pyruvate, through indole-3-acetamide, and through indole-3-acetonitrile. Th e vast majority of available publications are related to the assimilation of tryptophan through the formation of indole-3-pyruvate as this pathway is the most common among microorganisms. Th us, it functions in rhizospheric, symbiotic, endophytic, and free-living bacteria. Th e concentration of synthesized IAA among natural strains is in the range from 260 to 1130 μg/mL. Microorganisms in which the indole-3-acetamide pathway functions are characterized by lower auxin-synthesizing ability compared to those that assimilate tryptophan through indole-3-pyruvate. Th ese include bacteria of the genera Streptomyces, Pseudomonas, and Bradyrhizobium and fungi of the genus Fusarium. The level of synthesis of IAA in such microorganisms is from 1.17•10−4 to 255.6 μg/mL. To date, only two strains that assimilate tryptophan via the indole-3-acetonitrile pathway and form up to 31.5 μg/mL IAA have been described in the available literature. To intensify the synthesis of indole-3-acetic acid, researchers use two main approaches: the fi rst consists in introducing into the culture medium of exogenous precursors of biosynthesis (usually tryptophan, less oft en indole-3-pyruvate, indole-3-acetamide, and indole-3-acetonitrile); the second — in increasing the expression of the corresponding genes and creating recombinant strains-supersynthetics of IAA. Th e largest number of publications is devoted to increasing the synthesis of IAA in the presence of biosynthesis precursors. Depending on the type of bacteria, the composition of the nutrient medium, and the amount of exogenously introduced precursor, the synthesis of the fi nal product was increased by 1.2—27 times compared to that before the intensifi cation. Th us, in the presence of 11 g/L tryptophan, Enterobacter sp. DMKU-RP206 synthesized 5.56 g/L, while in a medium without the precursor, it yielded only 0.45 g/L IAA. Recombinant strains Corynebacterium glutamicum ATCC 13032 and Escherichia coli MG165 formed 7.1 and 7.3 g/L IAA, respectively, when tryptophan (10 g/L) was added to the culture medium. Th e level of auxin synthesis in microorganisms may be increased under stress conditions (temperature, pH, biotic and abiotic stress factors), but in this case, the IAA concentration does not exceed 100 mg/L, and therefore this method of intensifi cation cannot compete with the others above. | uk_UA |
| dc.identifier.citation | Ways of auxin biosynthesis in microorganisms / T. P. Pirog, D. V. Piatetska, N. O. Klymenko, G. O. Iutynska // Microbiological Journal. − 2022. − Vol. 84, N 2. − Рp. 57−72. | uk_UA |
| dc.identifier.uri | https://dspace.nuft.edu.ua/handle/123456789/41098 | |
| dc.language.iso | en | uk_UA |
| dc.subject | риптофан | uk_UA |
| dc.subject | індол-3-піруват | uk_UA |
| dc.subject | індол-3-ацетамід | uk_UA |
| dc.subject | індол-3-ацетонітрил | uk_UA |
| dc.subject | індол-3-оцтова кислота | uk_UA |
| dc.subject | інтенсифікація синтезу фітогормонів | uk_UA |
| dc.subject | кафедра біотехнології і мікробіології | uk_UA |
| dc.subject | tryptophan | uk_UA |
| dc.subject | indole-3-pyruvate | uk_UA |
| dc.subject | indole-3-acetamide | uk_UA |
| dc.subject | indole-3-acetonitrile | uk_UA |
| dc.subject | indole-3-acetic acid | uk_UA |
| dc.subject | intensification of phytohormone synthesis | uk_UA |
| dc.title | Ways of auxin biosynthesis in microorganisms | uk_UA |
| dc.type | Article | uk_UA |
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