Enantioselective Hydrodifluoroalkylation of Alkenes with Conformationally Tuned Peptidyl Hydrogen Atom Transfer Catalysts

Marcus Vinicius Pinto Pereira Junior; Eric P. Geunes; Huiling Shao; Yiran Zhang; Jinkai Cheng; Samantha V. Magpantay; Brandon Q. Mercado; James M. Mayer; Kendall N. Houk; Robert R. Knowles; Scott J. Miller

doi:10.1021/jacs.5c01166

Enantioselective Hydrodifluoroalkylation of Alkenes with Conformationally Tuned Peptidyl Hydrogen Atom Transfer Catalysts

Marcus Vinicius Pinto Pereira Junior, Eric P. Geunes, Huiling Shao, Yiran Zhang, Jinkai Cheng, Samantha V. Magpantay, Brandon Q. Mercado, James M. Mayer, Kendall N. Houk, Robert R. Knowles, Scott J. Miller

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Abstract

We report the enantioselective hydrodifluoroalkylation of alkenes proceeding via an asymmetric hydrogen atom transfer (HAT) event catalyzed by thiol-containing tetrapeptides. Photocatalytic generation of a difluoroacetyl radical followed by carbon-carbon bond formation results in a prochiral carbon-centered radical that engages with the chiral catalyst. A trialkylamine reductant is proposed to turn over the catalyst in this net-reductive transformation. Notably, incorporating an (S)-β-methyl-substituted cysteine as the N-terminal residue improved selectivity relative to that of the native N-terminal cysteine (Cys) residue, and X-ray crystallographic analysis supports the conformational underpinning of this effect. A range of enantioenriched γ-substituted amides were synthesized in up to a 96:4 enantiomeric ratio, demonstrating the broad functional group tolerance of this method. Models accounting for asymmetric induction are proposed with supporting DFT calculations.

Original language	English (US)
Pages (from-to)	11412-11424
Number of pages	13
Journal	Journal of the American Chemical Society
Volume	147
Issue number	13
DOIs	https://doi.org/10.1021/jacs.5c01166
State	Published - Apr 2 2025

All Science Journal Classification (ASJC) codes

Catalysis
General Chemistry
Biochemistry
Colloid and Surface Chemistry

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10.1021/jacs.5c01166

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Pinto Pereira Junior, M. V., Geunes, E. P., Shao, H., Zhang, Y., Cheng, J., Magpantay, S. V., Mercado, B. Q., Mayer, J. M., Houk, K. N., Knowles, R. R., & Miller, S. J. (2025). Enantioselective Hydrodifluoroalkylation of Alkenes with Conformationally Tuned Peptidyl Hydrogen Atom Transfer Catalysts. Journal of the American Chemical Society, 147(13), 11412-11424. https://doi.org/10.1021/jacs.5c01166

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title = "Enantioselective Hydrodifluoroalkylation of Alkenes with Conformationally Tuned Peptidyl Hydrogen Atom Transfer Catalysts",

abstract = "We report the enantioselective hydrodifluoroalkylation of alkenes proceeding via an asymmetric hydrogen atom transfer (HAT) event catalyzed by thiol-containing tetrapeptides. Photocatalytic generation of a difluoroacetyl radical followed by carbon-carbon bond formation results in a prochiral carbon-centered radical that engages with the chiral catalyst. A trialkylamine reductant is proposed to turn over the catalyst in this net-reductive transformation. Notably, incorporating an (S)-β-methyl-substituted cysteine as the N-terminal residue improved selectivity relative to that of the native N-terminal cysteine (Cys) residue, and X-ray crystallographic analysis supports the conformational underpinning of this effect. A range of enantioenriched γ-substituted amides were synthesized in up to a 96:4 enantiomeric ratio, demonstrating the broad functional group tolerance of this method. Models accounting for asymmetric induction are proposed with supporting DFT calculations.",

author = "{Pinto Pereira Junior}, {Marcus Vinicius} and Geunes, {Eric P.} and Huiling Shao and Yiran Zhang and Jinkai Cheng and Magpantay, {Samantha V.} and Mercado, {Brandon Q.} and Mayer, {James M.} and Houk, {Kendall N.} and Knowles, {Robert R.} and Miller, {Scott J.}",

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doi = "10.1021/jacs.5c01166",

language = "English (US)",

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Pinto Pereira Junior, MV, Geunes, EP, Shao, H, Zhang, Y, Cheng, J, Magpantay, SV, Mercado, BQ, Mayer, JM, Houk, KN, Knowles, RR & Miller, SJ 2025, 'Enantioselective Hydrodifluoroalkylation of Alkenes with Conformationally Tuned Peptidyl Hydrogen Atom Transfer Catalysts', Journal of the American Chemical Society, vol. 147, no. 13, pp. 11412-11424. https://doi.org/10.1021/jacs.5c01166

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T1 - Enantioselective Hydrodifluoroalkylation of Alkenes with Conformationally Tuned Peptidyl Hydrogen Atom Transfer Catalysts

AU - Pinto Pereira Junior, Marcus Vinicius

AU - Geunes, Eric P.

AU - Shao, Huiling

AU - Zhang, Yiran

AU - Cheng, Jinkai

AU - Magpantay, Samantha V.

AU - Mercado, Brandon Q.

AU - Mayer, James M.

AU - Houk, Kendall N.

AU - Knowles, Robert R.

AU - Miller, Scott J.

PY - 2025/4/2

Y1 - 2025/4/2

N2 - We report the enantioselective hydrodifluoroalkylation of alkenes proceeding via an asymmetric hydrogen atom transfer (HAT) event catalyzed by thiol-containing tetrapeptides. Photocatalytic generation of a difluoroacetyl radical followed by carbon-carbon bond formation results in a prochiral carbon-centered radical that engages with the chiral catalyst. A trialkylamine reductant is proposed to turn over the catalyst in this net-reductive transformation. Notably, incorporating an (S)-β-methyl-substituted cysteine as the N-terminal residue improved selectivity relative to that of the native N-terminal cysteine (Cys) residue, and X-ray crystallographic analysis supports the conformational underpinning of this effect. A range of enantioenriched γ-substituted amides were synthesized in up to a 96:4 enantiomeric ratio, demonstrating the broad functional group tolerance of this method. Models accounting for asymmetric induction are proposed with supporting DFT calculations.

AB - We report the enantioselective hydrodifluoroalkylation of alkenes proceeding via an asymmetric hydrogen atom transfer (HAT) event catalyzed by thiol-containing tetrapeptides. Photocatalytic generation of a difluoroacetyl radical followed by carbon-carbon bond formation results in a prochiral carbon-centered radical that engages with the chiral catalyst. A trialkylamine reductant is proposed to turn over the catalyst in this net-reductive transformation. Notably, incorporating an (S)-β-methyl-substituted cysteine as the N-terminal residue improved selectivity relative to that of the native N-terminal cysteine (Cys) residue, and X-ray crystallographic analysis supports the conformational underpinning of this effect. A range of enantioenriched γ-substituted amides were synthesized in up to a 96:4 enantiomeric ratio, demonstrating the broad functional group tolerance of this method. Models accounting for asymmetric induction are proposed with supporting DFT calculations.

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Enantioselective Hydrodifluoroalkylation of Alkenes with Conformationally Tuned Peptidyl Hydrogen Atom Transfer Catalysts

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