References
- Bragin EY, Shtratnikova VY, Dovbnya DV, Schelkunov MI, Pekov YA, Malakho SG, Egorova OV, Ivashina TV, Sokolov SL, Ashapkin VV, Donova MV. 2013. Comparative analysis of genes encoding key steroid core oxidation enzymes in fast-growing Mycobacterium spp. Strains J Steroid Biochem Mol Biol 138:41–53.
- Donova MV, Egorova OV. 2012. Microbial steroid transformations: current state and prospects. Appl Microbiol Biotechnol 94:1423–1447.
- Donova MV, Gulevskaya SA, Dovbnya DV, Puntus IF. 2005. Mycobacterium sp. mutant strain producing 9α-hydroxyandrostenedione from sitosterol. Appl Microbiol Biotechnol 67:671–678.
- EI Refai HA, Abd-elslam IS. 2010. Enhancement of β-sitosterol bioconversion by Fusarium solani using aqueous-organic solvent system. Aust J Basic Appl Sci 4:4107–4112.
- Khomutov SM, Sukhodolskaya GV, Donova MV. 2007. The inhibitory effect of cyclodextrin on the degradation of 9a-hydroxyandrost-4-ene-3, 17-dione by Mycobacterium sp. VKM Ac-1817D. Biocatal Biotransfor 25: 386–392.
- Shen Y, Wang M, Zhang L, Ma Y, Ma B, Zheng Y, Liu H, Luo J. 2011. Effects of hydroxypropyl-β-cyclodextrin on cell growth, activity, and integrity of steroid-transforming Arthrobacter simplex and Mycobacterium sp. Appl. Microbiol Biotechnol 90:1995–2003.
- Szentirrnai A. 1990. Microbial physiology of sidechain degradation of sterols. J Ind Microbiol 6:101–116.
- Wang Z, Zhao F, Chen D, Li D. 2006. Biotransformation of phytosterol to produce androstadienedione by resting cells Mycobacterium in cloud point system. Process Biochem 41:557–561.
- Yao K, Wang FQ, Zhang HC, Wei DZ. 2013. Identification and engineering of cholesterol oxidases involved in the initial step of sterols catabolism in Mycobacterium neoaurum. Metab Eng 15:75–87.
- Zhang X, Peng Y, Su Z, Chen Q, Ruan H, He G. 2012. Optimization of biotransformation from phytosterol to androstenedione by a mutant Mycobacterium neoaurum ZJUVN-08. J Zhejiang Univ-Sci B (Biomed Biotechnol) 14:132–143