Cytochrome P450 Monooxygenases Catalyse Steroid Nucleus Hydroxylation with Regio‐ and Stereo‐Selectivity

Zhu, Rui; Liu, Yang; Yang, Yueying; Qi, Min; Li, Hua; Chen, Lixia

doi:10.1002/adsc.202200210

Cited by 10 publications

(7 citation statements)

References 142 publications

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“…With the advancements in genomics and transcriptomics, an increasing number of steroid‐modifying enzymes have been discovered. These include the side chain degrading enzymes (P450 SCC ) found in plants and animals, aldoase (Atf1) from Mycobacteria , 3‐Ketosteroid‐Δ1‐dehydrogenases (KstD) found in Mycobacteria and Propionibacterium , and various steroidal hydroxylases, promoting the diversified production of important steroid molecules [9c,32] . It is worth mentioning that multiple steroid‐hydroxylase mutants with new functions were created based on enzyme engineering for the efficiently synthesis of target steroids [7,33] .…”

Section: Discussionmentioning

confidence: 99%

Chemoenzymatic Synthesis of Steroidal Products: Recent Advances

Zheng,

Lin,

Lin

et al. 2024

Eur J Org Chem

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The synthesis of steroidal products has garnered sustained interest due to their versatile bioactivities and physicochemical properties in pharmaceutics. However, the complicated structure of steroids, especially their highly oxygenated skeleton, has presented significant challenges. Benefitted from recent advancements in bioinformatics, genetics, and enzyme engineering, chemoenzymatic strategy combines the flexibility of chemical synthesis with the high regio‐ and stereo‐selectivity of biocatalysis, being an effective approach for the concise synthesis of natural products. In this concept, we review and discuss the recent advances in chemoenzymatic approaches for efficient synthesis of steroids and their analogs, as well as future research opportunities and challenges.

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Section: Discussionmentioning

confidence: 99%

Chemoenzymatic Synthesis of Steroidal Products: Recent Advances

Zheng,

Lin,

Lin

et al. 2024

Eur J Org Chem

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“…Given the attractive features of P450 BM3, the enzyme has garnered significant attention and has been the subject of numerous reviews highlighting its exceptional properties and characteristics. Reviews have been conducted on various aspects of P450 BM3, including structural and mechanistic details, − hydroxylation, ,,− pharmaceutical compound hydroxylation, ,− epoxidation, ,,, and carbene/nitrene transfer. ,,,,,,− Additionally, studies have explored the use of decoy molecules to improve enzymatic activity, ,,,,,,− as well as P450 BM3-inorganic complexes. − Reviews of P450 BM3 frequently place it within a broader context of other P450 enzymes, resulting in a lack of focus. Though some reviews do describe reactions catalyzed by P450 BM3 variants, they are typically limited to discussion of the “best” variants for a given reaction and do not offer a comprehensive review of reported variants.…”

Section: P450 Bm3: Properties and Limitationsmentioning

confidence: 99%

Choose Your Own Adventure: A Comprehensive Database of Reactions Catalyzed by Cytochrome P450 BM3 Variants

Fansher,

Besna,

Fendri

et al. 2024

ACS Catal.

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Cytochrome P450 BM3 monooxygenase is the topic of extensive research as many researchers have evolved this enzyme to generate a variety of products. However, the abundance of information on increasingly diversified variants of P450 BM3 that catalyze a broad array of chemistry is not in a format that enables easy extraction and interpretation. We present a database that categorizes variants by their catalyzed reactions and includes details about substrates to provide reaction context. This database of >1500 P450 BM3 variants is downloadable and machine-readable and includes instructions to maximize ease of gathering information. The database allows rapid identification of commonly reported substitutions, aiding researchers who are unfamiliar with the enzyme in identifying starting points for enzyme engineering. For those actively engaged in engineering P450 BM3, the database, along with this review, provides a powerful and user-friendly platform to understand, predict, and identify the attributes of P450 BM3 variants, encouraging the further engineering of this enzyme.

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“…Hydroxylation of steroids stands as one of the most pivotal reactions in modifications of the steroid scaffold. [15][16][17] The addition of hydroxy groups not only influences physiological functions, polarity, solubility, and toxicity but also serves as a synthetic starting point for the preparation of valuable steroid drugs. 18,19 In this section, we discuss recent advances in the discovery and engineering of cytochrome P450 oxygenases (P450s), non-heme iron-and α-ketoglutarate-dependent oxygenases (αKG OXs), Rieske oxygenases, and other enzymes for site-specific hydroxylations.…”

Section: Hydroxylationmentioning

confidence: 99%

“…18,19 In this section, we discuss recent advances in the discovery and engineering of cytochrome P450 oxygenases (P450s), non-heme iron- and α-ketoglutarate-dependent oxygenases (αKG OXs), Rieske oxygenases, and other enzymes for site-specific hydroxylations. For a comparative summary elucidating the preference sites for enzymatic hydroxylation of steroids, readers are directed to the 2020 review by Zhang et al , the 2022 review by Zhu et al and the 2023 review by Abas et al 15–17…”

Section: Hydroxylationmentioning

confidence: 99%