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The More the Slower: Self-Inhibition in Supramolecular Chirality Induction, Memory, Erasure, and Reversion

Self-inhibition has been observed widely in hierarchical biochemical processes but has yet to be demonstrated in pure molecular physical rather than chemical or biological processes. Herein, we report an unprecedented example of self-inhibition during the supramolecular chirality induction, memory,...

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Bibliographic Details
Published in:Journal of the American Chemical Society 2022-01, Vol.144 (3), p.1455-1463
Main Authors: Ji, Jiecheng, Wei, Xueqin, Wu, Wanhua, Fan, Chunying, Zhou, Dayang, Kanagaraj, Kuppusamy, Cheng, Guo, Luo, Kui, Meng, Xiang-Guang, Yang, Cheng
Format: Article
Language:English
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Summary:Self-inhibition has been observed widely in hierarchical biochemical processes but has yet to be demonstrated in pure molecular physical rather than chemical or biological processes. Herein, we report an unprecedented example of self-inhibition during the supramolecular chirality induction, memory, erasure, and inversion processes of pillar[5]­arene (P[5]) derivatives. The addition of chiral alanine ethyl ester to bulky substituent-modified P[5]­s led to time-dependent chirality induction due to the shift in the equilibrium of the S P and R P conformers P[5]. Intriguingly, more chiral inducers led to more intensive final chiroptical properties but lower chiral induction rates. Thus, the chiral inducer plays the role of both activator and inhibitor. Such self-inhibition essentially arises from kinetics manipulation of three tandem equilibria. Moreover, the chiroptical properties could be memorized by replacing the chiral inducer with an achiral competitive binder, and the chiroptical signal could be erased and reversed by an antipodal chiral inducer, which also showed the self-inhibition property.
ISSN:0002-7863
1520-5126
DOI:10.1021/jacs.1c13210