2022
DOI: 10.1021/acscatal.2c03974
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Computation-Aided Engineering of Cytochrome P450 for the Production of Pravastatin

Abstract: CYP105AS1 is a cytochrome P450 from Amycolatopsis orientalis that catalyzes monooxygenation of compactin to 6-epipravastatin. For fermentative production of the cholesterol-lowering drug pravastatin, the stereoselectivity of the enzyme needs to be inverted, which has been partially achieved by error-prone PCR mutagenesis and screening. In the current study, we report further optimization of the stereoselectivity by a computationally aided approach. Using the CoupledMoves protocol of Rosetta, a virtual library … Show more

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Cited by 11 publications
(11 citation statements)
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“…These advances are not only driven by biology, but are heavily reliant on computational biology. [103][104][105][106][107][108][109] The marriage of computational modeling and biological understanding empowers researchers to predict, manipulate, and optimize enzyme behavior at a molecular level. Furthermore, the integration of nanoarchitectonics into enzyme biocatalysis brings novel strategies for enzyme immobilization, encapsulation, and deployment within custom-designed nanomaterials.…”
Section: Multidisciplinary Approaches For Advanced Enzyme Biocatalysismentioning
confidence: 99%
See 1 more Smart Citation
“…These advances are not only driven by biology, but are heavily reliant on computational biology. [103][104][105][106][107][108][109] The marriage of computational modeling and biological understanding empowers researchers to predict, manipulate, and optimize enzyme behavior at a molecular level. Furthermore, the integration of nanoarchitectonics into enzyme biocatalysis brings novel strategies for enzyme immobilization, encapsulation, and deployment within custom-designed nanomaterials.…”
Section: Multidisciplinary Approaches For Advanced Enzyme Biocatalysismentioning
confidence: 99%
“…Further exemplification of enzyme engineering can be found in Table 3, where additional instances are provided. 52,103,[165][166][167][168][169][170][171][172][173][174][175][176][177][178][179][180] As the pharmaceutical industry seeks sustainable, efficient, and precise solutions, computational biology emerges as a transformative tool, bridging the gap between theory and experiment and propelling innovation in drug development and production.…”
Section: Computational Biology For Advanced Enzyme Biocatalysismentioning
confidence: 99%
“…It turns out that 28 of 33 active variants showed the enantioselectivity that they were designed for ( Wijma et al, 2015 ). Recently, a similar approach was applied to improve stereoselectivity of CYP105AS1, a cytochrome P450 from Amycolatopsis orientalis ( Ashworth et al, 2022 ) . Previous directed evolution has generated mutants of CYP105AS1 that can catalyze the hydroxylation of substrate compactin to yield pravastatin, an LDL cholesterol-lowering drug, but with modest selectivity of an ee value lower than 90%.…”
Section: Computational Protein Designmentioning
confidence: 99%
“…Finally, based on Rosetta calculation, docking results and the visual inspection, mutations at positions F76, P80, T95, V180, and T286 were selected for introduction at the template. The best double mutant T95F/V180M gave perfect production of the desired epimer with selectivity >99% ( Ashworth et al, 2022 ). Computational design based on calculation of binding energy was also applied to design enzyme variants with improved diastereoselectivity.…”
Section: Computational Protein Designmentioning
confidence: 99%
“…For each of the 13 poses, five independently seeded MD simulations of 20 ns were run giving a total of 100 ns of simulation time per pose. The last 10 ns of each trajectory was analyzed for the frequency of occurrence of strict NACs, following published procedures [35,39]. Because NAC frequencies were analyzed on the fly, every 100 fs, the reported fractions are the average of 500 000 observations (= 5 9 10 000 000/100).…”
Section: Simulations and Nac Analysismentioning
confidence: 99%