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Crystal structure and biochemical analysis of a cytochrome P450 steroid hydroxylase (BaCYP106A6) from Bacillus species

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Title
Crystal structure and biochemical analysis of a cytochrome P450 steroid hydroxylase (BaCYP106A6) from Bacillus species
Other Titles
바실러스균으로부터 분리한 cytochrome P450 steroid hydroxylase (BaCYP106A6) 효소의 삼차구조 분석 및 생화학적 특성연구
Authors
Ki-Hwa Kim
Do, Hackwon
Lee, Chang Woo
Pradeep Subedi
Mi Young Choi
남예원
Lee, Jun Hyuck
Tae-Jin Oh
Keywords
X-ray crystallographycrystal structurecytochrome P450steroid hydroxylase
Issue Date
2023
Citation
Ki-Hwa Kim, et al. 2023. "Crystal structure and biochemical analysis of a cytochrome P450 steroid hydroxylase (BaCYP106A6) from Bacillus species". JOURNAL OF MICROBIOLOGY AND BIOTECHNOLOGY, 33(3): 387-397.
Abstract
Cytochrome P450 (CYP) is a heme-containing enzyme that catalyzes hydroxylation reactions with various substrate molecules. Steroid hydroxylases are particularly useful for effectively introducing hydroxyl groups into a wide range of steroids in the pharmaceutical industry. This study reports a newly identified CYP steroid hydroxylase (BaCYP106A6) from the bacterium Bacillus sp. and characterizes it using an in vitro enzyme assay and structural investigation. Bioconversion assays indicated that BaCYP106A1 catalyzes the hydroxylation of progesterone and androstenedione, whereas no or low conversion was observed with 11β-hydroxysteroids such as cortisol, corticosterone, dexamethasone, and prednisolone. In addition, the crystal structure of BaCYP106A6 was determined at a resolution of 2.8 A to investigate the configuration of the substrate-binding site and understand substrate preference. This structural characterization and comparison with other bacterial steroid hydroxylase CYPs allowed us to identify a unique Arg295 residue that serves as the key residue for substrate specificity and regioselectivity in BaCYP106A6. This observation provides valuable background for further protein engineering to design commercially useful CYP steroid hydroxylases with different substrate specificities.
URI
https://repository.kopri.re.kr/handle/201206/14383
DOI
http://dx.doi.org/10.4014/jmb.2211.11031
Type
Article
Station
King Sejong Station
Indexed
SCIE
Appears in Collections  
2022-2022, Development of potential antibiotic compounds using polar organism resources (22-22) / Lee, Jun Hyuck (PM22030)
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