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Journal Abstract Search

211 related items for PubMed ID: 33441120

  • 21. 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
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  • 24. 21-Acetoxy-pregna-4(5),9(11),16(17)-triene-21-ol-3,20-dione conversion by Nocardioides simplex VKM Ac-2033D.
    Fokina VV, Donova MV.
    J Steroid Biochem Mol Biol; 2003 Dec 30; 87(4-5):319-25. PubMed ID: 14698213
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  • 25. Obtaining of 11α-Hydroxyandrost-4-ene-3,17-dione from Natural Sterols.
    Dovbnya D, Khomutov S, Kollerov V, Donova MV.
    Methods Mol Biol; 2017 Dec 30; 1645():259-269. PubMed ID: 28710634
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  • 26. Characterization of new recombinant 3-ketosteroid-Δ1-dehydrogenases for the biotransformation of steroids.
    Wang X, Feng J, Zhang D, Wu Q, Zhu D, Ma Y.
    Appl Microbiol Biotechnol; 2017 Aug 30; 101(15):6049-6060. PubMed ID: 28634849
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  • 27. Two-Step Bioprocess for Reducing Nucleus Degradation in Phytosterol Bioconversion by Mycobacterium neoaurum NwIB-R10hsd4A.
    Wang X, Hua C, Xu X, Wei D.
    Appl Biochem Biotechnol; 2019 May 30; 188(1):138-146. PubMed ID: 30370444
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  • 28. [Conversion of soybean sterols into 3,17-diketosteroids using actinobacteria Mycobacterium neoaurum, Pimelobacter simplex, and Rhodococcus erythropolis].
    Andriushina VA, Rodina NV, Stytsenko TC, Luu DH, Druzhinina AV, Iaderets VV, Voîshvillo NE.
    Prikl Biokhim Mikrobiol; 2011 May 30; 47(3):297-301. PubMed ID: 21790029
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  • 29. Construction of engineered Arthrobacter simplex with improved performance for cortisone acetate biotransformation.
    Zhang H, Tian Y, Wang J, Li Y, Wang H, Mao S, Liu X, Wang C, Bie S, Lu F.
    Appl Microbiol Biotechnol; 2013 Nov 30; 97(21):9503-14. PubMed ID: 24037307
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  • 30. Accumulation of androstadiene-dione by overexpression of heterologous 3-ketosteroid Δ1-dehydrogenase in Mycobacterium neoaurum NwIB-01.
    Wei W, Fan SY, Wang FQ, Wei DZ.
    World J Microbiol Biotechnol; 2014 Jul 30; 30(7):1947-54. PubMed ID: 24510385
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  • 31. Production of 9,21-dihydroxy-20-methyl-pregna-4-en-3-one from phytosterols in Mycobacterium neoaurum by modifying multiple genes and improving the intracellular environment.
    Yuan CY, Ma ZG, Zhang JX, Liu XC, Du GL, Sun JS, Shi JP, Zhang BG.
    Microb Cell Fact; 2021 Dec 23; 20(1):229. PubMed ID: 34949197
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  • 32. Role Identification and Application of SigD in the Transformation of Soybean Phytosterol to 9α-Hydroxy-4-androstene-3,17-dione in Mycobacterium neoaurum.
    Xiong LB, Liu HH, Xu LQ, Wei DZ, Wang FQ.
    J Agric Food Chem; 2017 Jan 25; 65(3):626-631. PubMed ID: 28035826
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  • 33. Targeted disruption of the kstD gene encoding a 3-ketosteroid delta(1)-dehydrogenase isoenzyme of Rhodococcus erythropolis strain SQ1.
    van Der Geize R, Hessels GI, van Gerwen R, Vrijbloed JW, van Der Meijden P, Dijkhuizen L.
    Appl Environ Microbiol; 2000 May 25; 66(5):2029-36. PubMed ID: 10788377
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  • 34. 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 25; 61(1):63-8. PubMed ID: 25868395
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  • 35. Molecular characterization of three 3-ketosteroid-Δ(1)-dehydrogenase isoenzymes of Rhodococcus ruber strain Chol-4.
    Fernández de las Heras L, van der Geize R, Drzyzga O, Perera J, María Navarro Llorens J.
    J Steroid Biochem Mol Biol; 2012 Nov 25; 132(3-5):271-81. PubMed ID: 22771584
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  • 36. Genetic Techniques for Manipulation of the Phytosterol Biotransformation Strain Mycobacterium neoaurum NRRL B-3805.
    Loraine JK, Smith MCM.
    Methods Mol Biol; 2017 Nov 25; 1645():93-108. PubMed ID: 28710623
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