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Journal Abstract Search

311 related items for PubMed ID: 31238923

  • 1. Genome-wide response on phytosterol in 9-hydroxyandrostenedione-producing strain of Mycobacterium sp. VKM Ac-1817D.
    Bragin EY, Shtratnikova VY, Schelkunov MI, Dovbnya DV, Donova MV.
    BMC Biotechnol; 2019 Jun 25; 19(1):39. PubMed ID: 31238923
    [Abstract] [Full Text] [Related]

  • 2. Comparative analysis of genes encoding key steroid core oxidation enzymes in fast-growing Mycobacterium spp. strains.
    Bragin EY, Shtratnikova VY, Dovbnya DV, Schelkunov MI, Pekov YA, Malakho SG, Egorova OV, Ivashina TV, Sokolov SL, Ashapkin VV, Donova MV.
    J Steroid Biochem Mol Biol; 2013 Nov 25; 138():41-53. PubMed ID: 23474435
    [Abstract] [Full Text] [Related]

  • 3. Engineered 3-Ketosteroid 9α-Hydroxylases in Mycobacterium neoaurum: an Efficient Platform for Production of Steroid Drugs.
    Liu HH, Xu LQ, Yao K, Xiong LB, Tao XY, Liu M, Wang FQ, Wei DZ.
    Appl Environ Microbiol; 2018 Jul 15; 84(14):. PubMed ID: 29728384
    [Abstract] [Full Text] [Related]

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  • 5. Effect of methyl-β-cyclodextrin on gene expression in microbial conversion of phytosterol.
    Shtratnikova VY, Schelkunov MI, Dovbnya DV, Bragin EY, Donova MV.
    Appl Microbiol Biotechnol; 2017 Jun 15; 101(11):4659-4667. PubMed ID: 28421241
    [Abstract] [Full Text] [Related]

  • 6. [Accumulation of 9α-hydroxy-4-androstene-3,17-dione by co-expressing kshA and kshB encoding component of 3-ketosteroid-9α-hydroxylase in Mycobacterium sp. NRRL B-3805].
    Yuan J, Chen G, Cheng S, Ge F, Qiong W, Li W, Li J.
    Sheng Wu Gong Cheng Xue Bao; 2015 Apr 15; 31(4):523-33. PubMed ID: 26380409
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  • 7. Efficient conversion of phytosterols into 4-androstene-3,17-dione and its C1,2-dehydrogenized and 9α-hydroxylated derivatives by engineered Mycobacteria.
    Li X, Chen T, Peng F, Song S, Yu J, Sidoine DN, Cheng X, Huang Y, He Y, Su Z.
    Microb Cell Fact; 2021 Aug 16; 20(1):158. PubMed ID: 34399754
    [Abstract] [Full Text] [Related]

  • 8. Loop pathways are responsible for tuning the accumulation of C19- and C22-sterol intermediates in the mycobacterial phytosterol degradation pathway.
    Song S, He J, Gao M, Huang Y, Cheng X, Su Z.
    Microb Cell Fact; 2023 Jan 30; 22(1):19. PubMed ID: 36710325
    [Abstract] [Full Text] [Related]

  • 9. Mycobacterium sp. mutant strain producing 9alpha-hydroxyandrostenedione from sitosterol.
    Donova MV, Gulevskaya SA, Dovbnya DV, Puntus IF.
    Appl Microbiol Biotechnol; 2005 Jun 30; 67(5):671-8. PubMed ID: 15647937
    [Abstract] [Full Text] [Related]

  • 10. Complete Genome Sequence of Mycobacterium sp. Strain VKM Ac-1817D, Capable of Producing 9α-Hydroxy-androst-4-ene-3,17-dione from Phytosterol.
    Shtratnikova VY, Schelkunov MI, Dovbnya DV, Pekov YA, Bragin EY, Ashapkin VV, Donova MV.
    Genome Announc; 2015 Jan 29; 3(1):. PubMed ID: 25635031
    [Abstract] [Full Text] [Related]

  • 11. Influence of temperature on nucleus degradation of 4-androstene-3, 17-dione in phytosterol biotransformation by Mycobacterium sp.
    Xu XW, Gao XQ, Feng JX, Wang XD, Wei DZ.
    Lett Appl Microbiol; 2015 Jul 29; 61(1):63-8. PubMed ID: 25868395
    [Abstract] [Full Text] [Related]

  • 12. Improving the production of 9α-hydroxy-4-androstene-3,17-dione from phytosterols by 3-ketosteroid-Δ1-dehydrogenase deletions and multiple genetic modifications in Mycobacterium fortuitum.
    Liu X, Zhang J, Yuan C, Du G, Han S, Shi J, Sun J, Zhang B.
    Microb Cell Fact; 2023 Mar 16; 22(1):53. PubMed ID: 36922830
    [Abstract] [Full Text] [Related]

  • 13. Whole-genome and enzymatic analyses of an androstenedione-producing Mycobacterium strain with residual phytosterol-degrading pathways.
    Wang H, Song S, Peng F, Yang F, Chen T, Li X, Cheng X, He Y, Huang Y, Su Z.
    Microb Cell Fact; 2020 Oct 02; 19(1):187. PubMed ID: 33008397
    [Abstract] [Full Text] [Related]

  • 14. A Novel 3-Phytosterone-9α-Hydroxylase Oxygenation Component and Its Application in Bioconversion of 4-Androstene-3,17-Dione to 9α-Hydroxy-4-Androstene-3,17-Dione Coupling with A NADH Regeneration Formate Dehydrogenase.
    Zhang X, Zhu M, Han R, Zhao Y, Chen K, Qian K, Shao M, Yang T, Xu M, Xu J, Rao Z.
    Molecules; 2019 Jul 11; 24(14):. PubMed ID: 31336696
    [Abstract] [Full Text] [Related]

  • 15. Genome-wide bioinformatics analysis of steroid metabolism-associated genes in Nocardioides simplex VKM Ac-2033D.
    Shtratnikova VY, Schelkunov MI, Fokina VV, Pekov YA, Ivashina T, Donova MV.
    Curr Genet; 2016 Aug 11; 62(3):643-56. PubMed ID: 26832142
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  • 17. Characterization of a second Rhodococcus erythropolis SQ1 3-ketosteroid 9alpha-hydroxylase activity comprising a terminal oxygenase homologue, KshA2, active with oxygenase-reductase component KshB.
    van der Geize R, Hessels GI, Nienhuis-Kuiper M, Dijkhuizen L.
    Appl Environ Microbiol; 2008 Dec 11; 74(23):7197-203. PubMed ID: 18836008
    [Abstract] [Full Text] [Related]

  • 18. Enhancement of 9α-Hydroxy-4-androstene-3,17-dione Production from Soybean Phytosterols by Deficiency of a Regulated Intramembrane Proteolysis Metalloprotease in Mycobacterium neoaurum.
    Xiong LB, Sun WJ, Liu YJ, Wang FQ, Wei DZ.
    J Agric Food Chem; 2017 Dec 06; 65(48):10520-10525. PubMed ID: 29131627
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  • 20. Phytosterol conversion into C9 non-hydroxylated derivatives through gene regulation in Mycobacterium fortuitum.
    Liu X, He B, Zhang J, Yuan C, Han S, Du G, Shi J, Sun J, Zhang B.
    Appl Microbiol Biotechnol; 2023 Dec 06; 107(24):7635-7646. PubMed ID: 37831185
    [Abstract] [Full Text] [Related]

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