Enantioselective [2+2]-cycloadditions with triplet photoenzymes

Ningning Sun^#¹, Jianjian Huang^#¹, Junyi Qian², Tai-Ping Zhou¹, Juan Guo¹, Langyu Tang¹, Wentao Zhang¹, Yaming Deng¹, Weining Zhao³, Guojiao Wu¹, Rong-Zhen Liao¹, Xi Chen⁴, Fangrui Zhong⁵, Yuzhou Wu⁶

Affiliations

¹ Hubei Engineering Research Center for Biomaterials and Medical Protective Materials, Hubei Key Laboratory of Bioinorganic Chemistry & Materia Medica, Key Laboratory of Material Chemistry for Energy Conversion and Storage, Ministry of Education, School of Chemistry and Chemical Engineering, Huazhong University of Science and Technology (HUST), Wuhan, China.
² Key Laboratory of Synthetic and Natural Functional Molecule of the Ministry of Education, College of Chemistry and Materials Science, Northwest University, Xi'an, China.
³ College of Pharmacy, Shenzhen Technology University, Shenzhen, China.
⁴ Key Laboratory of Synthetic and Natural Functional Molecule of the Ministry of Education, College of Chemistry and Materials Science, Northwest University, Xi'an, China. xchen@nwu.edu.cn.
⁵ Hubei Engineering Research Center for Biomaterials and Medical Protective Materials, Hubei Key Laboratory of Bioinorganic Chemistry & Materia Medica, Key Laboratory of Material Chemistry for Energy Conversion and Storage, Ministry of Education, School of Chemistry and Chemical Engineering, Huazhong University of Science and Technology (HUST), Wuhan, China. chemzfr@hust.edu.cn.
⁶ Hubei Engineering Research Center for Biomaterials and Medical Protective Materials, Hubei Key Laboratory of Bioinorganic Chemistry & Materia Medica, Key Laboratory of Material Chemistry for Energy Conversion and Storage, Ministry of Education, School of Chemistry and Chemical Engineering, Huazhong University of Science and Technology (HUST), Wuhan, China. wuyuzhou@hust.edu.cn.

^# Contributed equally.

PMID: 36130726
DOI: 10.1038/s41586-022-05342-4

Enantioselective [2+2]-cycloadditions with triplet photoenzymes

Ningning Sun et al. Nature. 2022 Nov.

. 2022 Nov;611(7937):715-720.

doi: 10.1038/s41586-022-05342-4. Epub 2022 Sep 21.

Authors

Affiliations

¹ Hubei Engineering Research Center for Biomaterials and Medical Protective Materials, Hubei Key Laboratory of Bioinorganic Chemistry & Materia Medica, Key Laboratory of Material Chemistry for Energy Conversion and Storage, Ministry of Education, School of Chemistry and Chemical Engineering, Huazhong University of Science and Technology (HUST), Wuhan, China.
² Key Laboratory of Synthetic and Natural Functional Molecule of the Ministry of Education, College of Chemistry and Materials Science, Northwest University, Xi'an, China.
³ College of Pharmacy, Shenzhen Technology University, Shenzhen, China.
⁴ Key Laboratory of Synthetic and Natural Functional Molecule of the Ministry of Education, College of Chemistry and Materials Science, Northwest University, Xi'an, China. xchen@nwu.edu.cn.
⁵ Hubei Engineering Research Center for Biomaterials and Medical Protective Materials, Hubei Key Laboratory of Bioinorganic Chemistry & Materia Medica, Key Laboratory of Material Chemistry for Energy Conversion and Storage, Ministry of Education, School of Chemistry and Chemical Engineering, Huazhong University of Science and Technology (HUST), Wuhan, China. chemzfr@hust.edu.cn.
⁶ Hubei Engineering Research Center for Biomaterials and Medical Protective Materials, Hubei Key Laboratory of Bioinorganic Chemistry & Materia Medica, Key Laboratory of Material Chemistry for Energy Conversion and Storage, Ministry of Education, School of Chemistry and Chemical Engineering, Huazhong University of Science and Technology (HUST), Wuhan, China. wuyuzhou@hust.edu.cn.

^# Contributed equally.

PMID: 36130726
DOI: 10.1038/s41586-022-05342-4

Abstract

Naturally evolved enzymes, despite their astonishingly large variety and functional diversity, operate predominantly through thermochemical activation. Integrating prominent photocatalysis modes into proteins, such as triplet energy transfer, could create artificial photoenzymes that expand the scope of natural biocatalysis^1-3. Here, we exploit genetically reprogrammed, chemically evolved photoenzymes embedded with a synthetic triplet photosensitizer that are capable of excited-state enantio-induction^4-6. Structural optimization through four rounds of directed evolution afforded proficient variants for the enantioselective intramolecular [2+2]-photocycloaddition of indole derivatives with good substrate generality and excellent enantioselectivities (up to 99% enantiomeric excess). A crystal structure of the photoenzyme-substrate complex elucidated the non-covalent interactions that mediate the reaction stereochemistry. This study expands the energy transfer reactivity^7-10 of artificial triplet photoenzymes in a supramolecular protein cavity and unlocks an integrated approach to valuable enantioselective photochemical synthesis that is not accessible with either the synthetic or the biological world alone.

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References

1. Arnold, F. H. Innovation by evolution: bringing new chemistry to life (Nobel Lecture). Angew. Chem. Int. Ed. 58, 14420–14426 (2019).
1. Lovelock, S. L. et al. The road to fully programmable protein catalysis. Nature 606, 49–58 (2022). - PubMed
1. Chen, K. & Arnold, F. H. Engineering new catalytic activities in enzymes. Nat. Catal. 3, 203–213 (2020).
1. Silvi, M. & Melchiorre, P. Enhancing the potential of enantioselective organocatalysis with light. Nature 554, 41–49 (2018). - PubMed
1. Brimioulle, R., Lenhart, D., Maturi, M. M. & Bach, T. Enantioselective catalysis of photochemical reactions. Angew. Chem. Int. Ed. 54, 3872–3890 (2015).

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Enantioselective [2+2]-cycloadditions with triplet photoenzymes

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Enantioselective [2+2]-cycloadditions with triplet photoenzymes

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Abstract

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