Chiral and Regenerable NAD(P)H Models Enabled Biomimetic Asymmetric Reduction: Design, Synthesis, Scope, and Mechanistic Studies
Jie Wang
1
,
Zi Biao Zhao
1
,
Yanan Zhao
2
,
Gen Luo
2
,
Zhou Hao Zhu
1
,
Yi Luo
2
,
Yonggui Zhou
1, 2
Publication type: Journal Article
Publication date: 2019-12-30
scimago Q2
wos Q1
SJR: 0.737
CiteScore: 6.1
Impact factor: 3.6
ISSN: 00223263, 15206904
PubMed ID:
31886670
Organic Chemistry
Abstract
The coenzyme NAD(P)H plays an important role in electron as well as proton transmission in the cell. Thus, a variety of NAD(P)H models have been involved in biomimetic reduction, such as stoichiometric Hantzsch esters and achiral regenerable dihydrophenantheridine. However, the development of a general and new-generation biomimetic asymmetric reduction is still a long-term challenge. Herein, a series of chiral and regenerable NAD(P)H models with central, axial, and planar chiralities have been designed and applied in biomimetic asymmetric reduction using hydrogen gas as a terminal reductant. Combining chiral NAD(P)H models with achiral transfer catalysts such as Bronsted acids and Lewis acids, the substrate scope could be also expanded to imines, heteroaromatics, and electron-deficient tetrasubstituted alkenes with up to 99% yield and 99% enantiomeric excess (ee). The mechanism of chiral regenerable NAD(P)H models was investigated as well. Isotope-labeling reactions indicated that chiral NAD(P)H models were regenerated by the ruthenium complex under hydrogen gas first, and then the hydride of NAD(P)H models was transferred to unsaturated bonds in the presence of transfer catalysts. In addition, density functional theory calculations were also carried out to give further insight into the transition states for the corresponding transfer catalysts.
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38
Total citations:
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Citations from 2024:
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(18.42%)
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GOST
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Wang J. et al. Chiral and Regenerable NAD(P)H Models Enabled Biomimetic Asymmetric Reduction: Design, Synthesis, Scope, and Mechanistic Studies // Journal of Organic Chemistry. 2019. Vol. 85. No. 4. pp. 2355-2368.
GOST all authors (up to 50)
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Wang J., Zhao Z. B., Zhao Y., Luo G., Zhu Z. H., Luo Y., Zhou Y. Chiral and Regenerable NAD(P)H Models Enabled Biomimetic Asymmetric Reduction: Design, Synthesis, Scope, and Mechanistic Studies // Journal of Organic Chemistry. 2019. Vol. 85. No. 4. pp. 2355-2368.
Cite this
RIS
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TY - JOUR
DO - 10.1021/acs.joc.9b03054
UR - https://doi.org/10.1021/acs.joc.9b03054
TI - Chiral and Regenerable NAD(P)H Models Enabled Biomimetic Asymmetric Reduction: Design, Synthesis, Scope, and Mechanistic Studies
T2 - Journal of Organic Chemistry
AU - Wang, Jie
AU - Zhao, Zi Biao
AU - Zhao, Yanan
AU - Luo, Gen
AU - Zhu, Zhou Hao
AU - Luo, Yi
AU - Zhou, Yonggui
PY - 2019
DA - 2019/12/30
PB - American Chemical Society (ACS)
SP - 2355-2368
IS - 4
VL - 85
PMID - 31886670
SN - 0022-3263
SN - 1520-6904
ER -
Cite this
BibTex (up to 50 authors)
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@article{2019_Wang,
author = {Jie Wang and Zi Biao Zhao and Yanan Zhao and Gen Luo and Zhou Hao Zhu and Yi Luo and Yonggui Zhou},
title = {Chiral and Regenerable NAD(P)H Models Enabled Biomimetic Asymmetric Reduction: Design, Synthesis, Scope, and Mechanistic Studies},
journal = {Journal of Organic Chemistry},
year = {2019},
volume = {85},
publisher = {American Chemical Society (ACS)},
month = {dec},
url = {https://doi.org/10.1021/acs.joc.9b03054},
number = {4},
pages = {2355--2368},
doi = {10.1021/acs.joc.9b03054}
}
Cite this
MLA
Copy
Wang, Jie, et al. “Chiral and Regenerable NAD(P)H Models Enabled Biomimetic Asymmetric Reduction: Design, Synthesis, Scope, and Mechanistic Studies.” Journal of Organic Chemistry, vol. 85, no. 4, Dec. 2019, pp. 2355-2368. https://doi.org/10.1021/acs.joc.9b03054.