Table 2.
Protein engineering of P450s.
| P450 | Gene ID | Source | Substrates | Products | Key Residues and Mutants | Mechanism of action | Results | References |
|---|---|---|---|---|---|---|---|---|
| CYP72A63 | 11410378 | Medicago truncatula | 11-oxo-β-amyrin | glycyrrhetol | L509I | Increases the hydrophobicity of the active pocket ends | Yield is 90.6% | [9] |
| CYP72A63 | 11410378 | Medicago truncatula | glycyrrhetol | glycyrrhetinic acid (GA) | T338S | Improve the hydrophilicity of the binding pocket | GA increased by 7.1-fold | [9] |
| CYP72A63 | 11410378 | Medicago truncatula | 11-oxo-β-amyrin | 29-OH-11-oxo-β-amyrin | L398I | Rotate the substrate 180° to reverse the relative positions of C-30 and C-29 | 100% regional selectivity | [9] |
| CYP72A63 | 11410378 | Medicago truncatula | 11-oxo-β-amyrin | GA | T338S/W205A | Eliminate limitations on proton transfer | 36.4 ± 3.0 mg/L | [9] |
| CYP72A154 | 371940465 | Glycyrrhiza uralensis | β-amyrin | 30-OH-β-amyrin | L149/L398 | L149 and L398 determined the substrate orientation, which controlled its product regioselectivity | Further enhance the production of high-value triterpenoid compounds | [4] |
| CYP72A62v2 | 11409246 | Medicago truncatula | β-amyrin | 30-OH-β-amyrin | V398L | L398 determined the substrate orientation, which controlled its product regioselectivity | Changed from being regioselective at C-29 to producing only C-30 oxidation products | [4] |
| CYP87D20 | 101213710 | cucumber | cucurbitadienol | 11-H- cucurbitadienol | E286A | E286A plays a role in shuttling protons into the active site | Decreases the production of 11C-Cuol and 11C-20H-Cuol | [45] |
| TwCYP712K1 | 2081630515 | Tripterygium wilfordii | friedelin | polpunonic acid | S110F | Maked the substrate closer to the reaction centre | S110F increased the production of polpunonic acid | [46] |