Your search keyword '"Bragin EY"' showing total 16 results

1. Draft genome sequence of soil isolate Mycolicibacterium fortuitum DVD-1301.

Author

Bragin EY, Dovbnya DV, Ivashina TV, and Donova MV

Abstract

Some strains of Mycolicibacterium possess high sterol-oxidizing activity and are used in the pharmaceutical industry for the production of steroid precursors. Herein, we report a draft genome sequence of the soil-dwelling Mycolicibacterium fortuitum DVD-1301 isolated in the floodplain of the river Oka. The genome contains a full set of steroid catabolic genes., Competing Interests: The authors declare no conflict of interest.

Published

2023

2. Draft Genome Sequence of Mycolicibacterium smegmatis VKM Ac-1171 Contains Full Set of Sterol Catabolic Genes.

Author

Dovbnya DV, Bragin EY, Ivashina TV, and Donova MV

Abstract

Mycolicibacterium smegmatis VKM Ac-1171 is a saprotrophic bacterium that was isolated several decades ago and is deposited in microbial collections around the world. We report here a draft genome sequence of the strain. Annotation of the genome revealed the presence of a complete set of genes related to the sterol catabolic pathway.

Published

2022

3. Recombinant Extracellular Cholesterol Oxidase from Nocardioides simplex.

Author

Fokina VV, Karpov MV, Kollerov VV, Bragin EY, Epiktetov DO, Sviridov AV, Kazantsev AV, Shutov AA, and Donova MV

Subjects

Actinobacteria, Cholestanols, Dehydroepiandrosterone chemistry, Hydrogen Peroxide, Pregnenolone, Steroids chemistry, Cholesterol Oxidase chemistry, Phytosterols

Abstract

Cholesterol oxidase is a highly demanded enzyme used in medicine, pharmacy, agriculture, chemistry, and biotechnology. It catalyzes oxidation of 3β-hydroxy-5-ene- to 3-keto-4-ene- steroids with the formation of hydrogen peroxide. Here, we expressed 6xHis-tagged mature form of the extracellular cholesterol oxidase (ChO) from the actinobacterium Nocardioides simplex VKM Ac-2033D (55.6 kDa) in Escherichia coli cells. The recombinant enzyme (ChO Ns ) was purified using affinity chromatography. ChO Ns proved to be functional towards cholesterol, cholestanol, phytosterol, pregnenolone, and dehydroepiandrosterone. Its activity depended on the structure and length of the aliphatic side chain at C17 atom of the steroid nucleus and was lower with pregnenolone and dehydroepiandrosterone. The enzyme was active in a pH range of 5.25÷6.5 with the pH optimum at 6.0. Kinetic assays and storage stability tests demonstrated that the characteristics of ChO Ns were generally comparable with or superior to those of commercial ChO from Streptomyces hygroscopicus (ChO Sh ). The results contribute to the knowledge on microbial ChOs and evidence that ChO from N. simplex VKM Ac-2033D is a promising agent for further applications.

Published

2022

4. Different genome-wide transcriptome responses of Nocardioides simplex VKM Ac-2033D to phytosterol and cortisone 21-acetate.

Author

Shtratnikova VY, Sсhelkunov MI, Fokina VV, Bragin EY, Shutov AA, and Donova MV

Subjects

Actinobacteria genetics, Actinobacteria metabolism, Bacterial Proteins genetics, Bacterial Proteins metabolism, Gene Expression Profiling, Gene Expression Regulation, Bacterial, Metabolic Engineering, Metabolism genetics, Mycobacterium genetics, Mycobacterium metabolism, Oxidoreductases, Phytosterols chemistry, Progesterone chemistry, Progesterone genetics, Progesterone metabolism, Rhodococcus genetics, Rhodococcus metabolism, Steroids chemistry, Steroids metabolism, Transcription Factors, Cortisone genetics, Cortisone metabolism, Nocardioides genetics, Nocardioides metabolism, Phytosterols genetics, Phytosterols metabolism, Transcriptome

Abstract

Background: Bacterial degradation/transformation of steroids is widely investigated to create biotechnologically relevant strains for industrial application. The strain of Nocardioides simplex VKM Ac-2033D is well known mainly for its superior 3-ketosteroid Δ 1 -dehydrogenase activity towards various 3-oxosteroids and other important reactions of sterol degradation. However, its biocatalytic capacities and the molecular fundamentals of its activity towards natural sterols and synthetic steroids were not fully understood. In this study, a comparative investigation of the genome-wide transcriptome profiling of the N. simplex VKM Ac-2033D grown on phytosterol, or in the presence of cortisone 21-acetate was performed with RNA-seq., Results: Although the gene patterns induced by phytosterol generally resemble the gene sets involved in phytosterol degradation pathways in mycolic acid rich actinobacteria such as Mycolicibacterium, Mycobacterium and Rhodococcus species, the differences in gene organization and previously unreported genes with high expression level were revealed. Transcription of the genes related to KstR- and KstR2-regulons was mainly enhanced in response to phytosterol, and the role in steroid catabolism is predicted for some dozens of the genes in N. simplex. New transcription factors binding motifs and new candidate transcription regulators of steroid catabolism were predicted in N. simplex. Unlike phytosterol, cortisone 21-acetate does not provide induction of the genes with predicted KstR and KstR2 sites. Superior 3-ketosteroid-Δ 1 -dehydrogenase activity of N. simplex VKM Ac-2033D is due to the kstDs redundancy in the genome, with the highest expression level of the gene KR76_27125 orthologous to kstD2, in response to cortisone 21-acetate. The substrate spectrum of N. simplex 3-ketosteroid-Δ 1 -dehydrogenase was expanded in this study with progesterone and its 17α-hydroxylated and 11α,17α-dihydroxylated derivatives, that effectively were 1(2)-dehydrogenated in vivo by the whole cells of the N. simplex VKM Ac-2033D., Conclusion: The results contribute to the knowledge of biocatalytic features and diversity of steroid modification capabilities of actinobacteria, defining targets for further bioengineering manipulations with the purpose of expansion of their biotechnological applications.

Published

2021

5. Genome-Wide Transcriptome Profiling Provides Insight on Cholesterol and Lithocholate Degradation Mechanisms in Nocardioides simplex VKM Ac-2033D.

Author

Shtratnikova VY, Schelkunov MI, Fokina VV, Bragin EY, Lobastova TG, Shutov AA, Kazantsev AV, and Donova MV

Subjects

Actinobacteria genetics, Actinobacteria growth & development, Bacterial Proteins genetics, Computational Biology, Gene Expression Profiling, Genome-Wide Association Study, Actinobacteria metabolism, Bacterial Proteins metabolism, Cholesterol metabolism, Gene Expression Regulation, Bacterial, Genome, Bacterial, Lithocholic Acid metabolism, Transcriptome

Abstract

Steroid microbial degradation plays a significant ecological role for biomass decomposition and removal/detoxification of steroid pollutants. In this study, the initial steps of cholesterol degradation and lithocholate bioconversion by a strain with enhanced 3-ketosteroid dehydrogenase (3-KSD) activity, Nocardioides simplex VKM Ac-2033D, were studied. Biochemical, transcriptomic, and bioinformatic approaches were used. Among the intermediates of sterol sidechain oxidation cholest-5-en-26-oic acid and 3-oxo-cholesta-1,4-dien-26-oic acid were identified as those that have not been earlier reported for N. simplex and related species. The transcriptomic approach revealed candidate genes of cholesterol and lithocholic acid (LCA) catabolism by the strain. A separate set of genes combined in cluster and additional 3-ketosteroid Δ 1 -dehydrogenase and 3-ketosteroid 9α-hydroxylases that might be involved in LCA catabolism were predicted. Bioinformatic calculations based on transcriptomic data showed the existence of a previously unknown transcription factor, which regulates cholate catabolism gene orthologs. The results contribute to the knowledge on diversity of steroid catabolism regulation in actinobacteria and might be used at the engineering of microbial catalysts for ecological and industrial biotechnology.

Published

2020

6. Corrigendum to "Comparative analysis of genes encoding key steroid core oxidation enzymes in fast-growing Mycobacterium spp. strains" [J. Steroid Biochem. Mol. Biol. 138 (2013) 41-53].

Author

Bragin EY, Shtratnikova VY, Dovbnya DV, Schelkunov MI, Pekov YA, Malakho SG, Egorova OV, Ivashina TV, Sokolov SL, Ashapkin VV, and Donova MV

Published

2020

7. Draft Genome Sequence of the Moderately Thermophilic Actinobacterial Steroid-Transforming Saccharopolyspora hirsuta subsp. hirsuta Strain VKM Ac-666 T .

Author

Lobastova TG, Fokina VV, Bragin EY, Shtratnikova VY, Starodumova IP, Tarlachkov SV, and Donova MV

Abstract

The draft genome sequence of the type strain Saccharopolyspora hirsuta subsp. hirsuta VKM Ac-666 was sequenced. This moderately thermophilic actinobacterial strain of sugarcane bagasse origin is able to transform different steroid substrates., (Copyright © 2020 Lobastova et al.)

Published

2020

8. Genome-wide response on phytosterol in 9-hydroxyandrostenedione-producing strain of Mycobacterium sp. VKM Ac-1817D.

Author

Bragin EY, Shtratnikova VY, Schelkunov MI, Dovbnya DV, and Donova MV

Subjects

Androstenedione chemistry, Bacterial Proteins metabolism, Base Sequence, Genome, Bacterial genetics, Metabolic Networks and Pathways genetics, Models, Chemical, Molecular Structure, Mycobacterium metabolism, Oxygenases genetics, Oxygenases metabolism, Sequence Homology, Nucleic Acid, Steroids chemistry, Steroids metabolism, Transcriptome genetics, Androstenedione metabolism, Bacterial Proteins genetics, Gene Expression Profiling methods, Mycobacterium genetics, Phytosterols pharmacology, Transcriptome drug effects

Abstract

Background: Aerobic side chain degradation of phytosterols by actinobacteria is the basis for the industrial production of androstane steroids which are the starting materials for the synthesis of steroid hormones. A native strain of Mycobacterium sp. VKM Ac-1817D effectively produces 9α-hydroxyandrost-4-ene-3,17-dione (9-OH-AD) from phytosterol, but also is capable of slow steroid core degradation. However, the set of the genes with products that are involved in phytosterol oxidation, their organisation and regulation remain poorly understood., Results: High-throughput sequencing of the global transcriptomes of the Mycobacterium sp. VKM Ac-1817D cultures grown with or without phytosterol was carried out. In the presence of phytosterol, the expression of 260 genes including those related to steroid catabolism pathways significantly increased. Two of the five genes encoding the oxygenase unit of 3-ketosteroid-9α-hydroxylase (kshA) were highly up-regulated in response to phytosterol (55- and 25-fold, respectively) as well as one of the two genes encoding its reductase subunit (kshB) (40-fold). Only one of the five putative genes encoding 3-ketosteroid-∆ 1 -dehydrogenase (KstD_1) was up-regulated in the presence of phytosterol (61-fold), but several substitutions in the conservative positions of its product were revealed. Among the genes over-expressed in the presence of phytosterol, several dozen genes did not possess binding sites for the known regulatory factors of steroid catabolism. In the promoter regions of these genes, a regularly occurring palindromic motif was revealed. The orthologue of TetR-family transcription regulator gene Rv0767c of M. tuberculosis was identified in Mycobacterium sp. VKM Ac-1817D as G155_05115., Conclusions: High expression levels of the genes related to the sterol side chain degradation and steroid 9α-hydroxylation in combination with possible defects in KstD_1 may contribute to effective 9α-hydroxyandrost-4-ene-3,17-dione accumulation from phytosterol provided by this biotechnologically relevant strain. The TetR-family transcription regulator gene G155_05115 presumably associated with the regulation of steroid catabolism. The results are of significance for the improvement of biocatalytic features of the microbial strains for the steroid industry.

Published

2019

9. Draft Genome Sequence of FK506-Producing Streptomyces tsukubensis Strain VKM Ac-2618D.

Author

Poshekhontseva VY, Bragin EY, Fokina VV, Shtratnikova VY, Starodumova IP, Tarlachkov SV, and Donova MV

Abstract

The 23-membered macrolide tacrolimus (FK506) is an important immunosuppressant that is widely used in the prevention of graft rejection and in the treatment of inflammatory skin diseases and immune diseases. We report here the draft genome sequence of the FK506 producer Streptomyces tsukubensis VKM Ac-2618D., (Copyright © 2019 Poshekhontseva et al.)

Published

2019

10. Effect of methyl-β-cyclodextrin on gene expression in microbial conversion of phytosterol.

Author

Shtratnikova VY, Schelkunov MI, Dovbnya DV, Bragin EY, and Donova MV

Subjects

Bacterial Proteins genetics, Bacterial Proteins metabolism, Cell Wall metabolism, Gene Expression, Gene Expression Profiling, Mycobacterium metabolism, Real-Time Polymerase Chain Reaction, Regulon, Sequence Analysis, RNA, Mycobacterium drug effects, Mycobacterium genetics, Phytosterols metabolism, beta-Cyclodextrins pharmacology

Abstract

Modified β-cyclodextrins are widely used for the enhancement of microbial conversions of lipophilic compounds such as steroids. Multiple mechanisms of cyclodextrin-mediated enhancement of phytosterol bioconversion by mycobacteria had previously been shown to include steroid solubilization, alterations in the cell wall permeability for both steroids and nutrients, facilitation of protein leaking, and activity suppression of some steroid-transforming enzymes.In this work, we studied whether cyclodextrins might affect expression of the genes involved in the steroid catabolic pathway. Phytosterol bioconversion with 9α-hydroxy-androst-4-ene-3,17-dione accumulation by Mycobacterium sp. VKM Ac-1817D in the presence of methylated β-cyclodextrin (MCD) was investigated. RNA sequencing of the whole transcriptomes in different combinations of phytosterol and MCD showed a similar expression level of the steroid catabolism genes related to the KstR-regulon and was responsible for side chain and initial steps of steroid core oxidation; whereas, induction levels of the genes related to the KstR2-regulon were attenuated in the presence of MCD in this strain. The data were attenuated with quantitative real-time PCR.The results contribute to the understanding of cyclodextrin effects on microbial steroid conversion and provide a basis for the use of cyclodextrins as expression enhancers for studies of sterol catabolism in actinobacteria.

Published

2017

11. Complete Genome Sequence of Mycobacterium sp. Strain VKM Ac-1817D, Capable of Producing 9α-Hydroxy-androst-4-ene-3,17-dione from Phytosterol.

Author

Shtratnikova VY, Schelkunov MI, Dovbnya DV, Pekov YA, Bragin EY, Ashapkin VV, and Donova MV

Abstract

Mycobacterium sp. strain VKM Ac-1817D is capable of converting phytosterol into 9α-hydroxy androst-4-ene-3,17-dione (9-OH-AD), which is a valuable intermediate for the steroid pharmaceutical industry. Here, a complete genome sequence of the strain is reported. The genome consists of a single circular 6,324,222-bp chromosome with a G+C content of 66.2% and encodes approximately 6,000 CDSs, 54 tRNAs, and 6 rRNAs., (Copyright © 2015 Shtratnikova et al.)

Published

2015

12. Complete Genome Sequence of Steroid-Transforming Nocardioides simplex VKM Ac-2033D.

Author

Shtratnikova VY, Schelkunov MI, Pekov YA, Fokina VV, Logacheva MD, Sokolov SL, Bragin EY, Ashapkin VV, and Donova MV

Abstract

Nocardioides simplex VKM Ac-2033D is an effective microbial catalyst for 3-ketosteroid 1(2)-dehydrogenation, and it is capable of effective reduction of carbonyl groups at C-17 and C-20, hydrolysis of acetylated steroids, and utilization of natural sterols. Here, the complete genome sequence is reported. An array of genes related to steroid metabolic pathways have been identified., (Copyright © 2015 Shtratnikova et al.)

Published

2015

13. Comparative analysis reveals similarities between cultured submandibular salivary gland cells and liver progenitor cells.

Author

Petrakova OS, Terskikh VV, Chernioglo ES, Ashapkin VV, Bragin EY, Shtratnikova VY, Gvazava IG, Sukhanov YV, and Vasiliev AV

Abstract

Mouse submandibular salivary gland cells and liver progenitor cells from long-term in vitro cultures with a high proliferation potential were side-by-side compared by methods of immunocytochemistry, quantitative real-time PCR, flow cytometry, and transcriptome analysis. The two cell types were found to be similar in expressing cell markers such as EpCAM, CD29, c-Kit, Sca-1, and c-Met. In addition, both cell types expressed cytokeratins 8, 18, and 19, alpha-fetoprotein, and (weakly) albumin. Unlike the liver cells, however, the salivary gland cells in culture showed high-level expression of cytokeratin 14 and CD49f, which was indicative of their origin from salivary gland ducts. Quantitative real-time PCR and deep-sequencing transcriptome analysis revealed similarities in the expression pattern of transcription factors between the two cell types. In this respect, however, the cultured salivary gland cells proved to be closer to exocrine cells of the pancreas than to the liver progenitor cells. Thus, ductal cells of postnatal submandibular salivary glands in culture show phenotypic convergence with progenitor cells of endodermal origin, suggesting that these glands may serve as a potential cell source for cellular therapy of hepatic and pancreatic disorders. The results of this study provide a deeper insight into the molecular features of salivary gland cells and may help optimize procedures for stimulating their differentiation in a specified direction.

Published

2014

14. Complete Genome Sequence of Sterol-Transforming Mycobacterium neoaurum Strain VKM Ac-1815D.

Author

Shtratnikova VY, Bragin EY, Dovbnya DV, Pekov YA, Schelkunov MI, Strizhov N, Ivashina TV, Ashapkin VV, and Donova MV

Abstract

Mycobacterium neoaurum strain VKM Ac-1815D produces 4-androstene-3,17-dione as a major compound from phytosterols. Here, we report the complete genome sequence of the strain. The genome consists of a single circular 5,438,190-bp chromosome, with a G+C content of 66.88%, containing 5,318 putative open reading frames (ORFs), 46 tRNAs, and 6 rRNAs. Arrays of cholesterol metabolism genes are randomly clustered throughout the chromosome.

Published

2014

15. Comparative analysis of genes encoding key steroid core oxidation enzymes in fast-growing Mycobacterium spp. strains.

Author

Bragin EY, Shtratnikova VY, Dovbnya DV, Schelkunov MI, Pekov YA, Malakho SG, Egorova OV, Ivashina TV, Sokolov SL, Ashapkin VV, and Donova MV

Subjects

Androstadienes metabolism, Androstenedione analogs & derivatives, Androstenedione metabolism, Bacterial Proteins genetics, Mixed Function Oxygenases genetics, Mixed Function Oxygenases metabolism, Mycobacterium genetics, Oxidoreductases genetics, Oxidoreductases metabolism, Phytosterols metabolism, Bacterial Proteins metabolism, Mycobacterium enzymology, Mycobacterium metabolism

Abstract

A comparative genome analysis of Mycobacterium spp. VKM Ac-1815D, 1816D and 1817D strains used for efficient production of key steroid intermediates (androst-4-ene-3,17-dione, AD, androsta-1,4-diene-3,17-dione, ADD, 9α-hydroxy androst-4-ene-3,17-dione, 9-OH-AD) from phytosterol has been carried out by deep sequencing. The assembled contig sequences were analyzed for the presence putative genes of steroid catabolism pathways. Since 3-ketosteroid-9α-hydroxylases (KSH) and 3-ketosteroid-Δ(1)-dehydrogenase (Δ(1) KSTD) play key role in steroid core oxidation, special attention was paid to the genes encoding these enzymes. At least three genes of Δ(1) KSTD (kstD), five genes of KSH subunit A (kshA), and one gene of KSH subunit B of 3-ketosteroid-9α-hydroxylases (kshB) have been found in Mycobacterium sp. VKM Ac-1817D. Strains of Mycobacterium spp. VKM Ac-1815D and 1816D were found to possess at least one kstD, one kshB and two kshA genes. The assembled genome sequence of Mycobacterium sp. VKM Ac-1817D differs from those of 1815D and 1816D strains, whereas these last two are nearly identical, differing by 13 single nucleotide substitutions (SNPs). One of these SNPs is located in the coding region of a kstD gene and corresponds to an amino acid substitution Lys (135) in 1816D for Ser (135) in 1815D. The findings may be useful for targeted genetic engineering of the biocatalysts for biotechnological application., (Copyright © 2013. Published by Elsevier Ltd.)

Published

2013

16. Effect of 3D Cultivation Conditions on the Differentiation of Endodermal Cells.

Author

Petrakova OS, Ashapkin VV, Voroteliak EA, Bragin EY, Shtratnikova VY, Chernioglo ES, Sukhanov YV, Terskikh VV, and Vasiliev AV

Abstract

Cellular therapy of endodermal organs is one of the most important issues in modern cellular biology and biotechnology. One of the most promising directions in this field is the study of the transdifferentiation abilities of cells within the same germ layer. A method for anin vitroinvestigation of the cell differentiation potential (the cell culture in a three-dimensional matrix) is described in this article. Cell cultures of postnatal salivary gland cells and postnatal liver progenitor cells were obtained; their comparative analysis under 2D and 3D cultivation conditions was carried out. Both cell types have high proliferative abilities and can be cultivated for more than 20 passages. Under 2D cultivation conditions, the cells remain in an undifferentiated state. Under 3D conditions, they undergo differentiation, which was confirmed by a lower cell proliferation and by an increase in the differentiation marker expression. Salivary gland cells can undergo hepatic and pancreatic differentiation under 3D cultivation conditions. Liver progenitor cells also acquire a pancreatic differentiation capability under conditions of 3D cultivation. Thus, postnatal salivary gland cells exhibit a considerable differentiation potential within the endodermal germ layer and can be used as a promising source of endodermal cells for the cellular therapy of liver pathologies. Cultivation of cells under 3D conditions is a useful model for thein vitroanalysis of the cell differentiation potential.

Published

2012