Takaaki Sumiyoshi scite author profile

A series of 10 didodecanoylamides of alpha,omega-alkylidenediamines bridged by a straight carbon chain varying in length from 0 to 9 carbons was examined as possible gelator molecules of organic liquids to gain information on the relationships between the spacial arrangement of two amide groups in a molecule and their effects on the microscopic structures of the gel. The structural characteristics of these amides are parallel and antiparallel arrangements of two amide carbonyl groups, which depend on the even and odd numbers of a bridging zigzag carbon chain. The linear alkyl chain moieties and a center carbon chain of diamides intermolecularly interact with each other within the van der Waals contact. Two amide moieties of an even number carbon chain diamide intermolecularly interact with each other by using two pairs of hydrogen bonds with two other molecules in a plane, which formed ribbonlike self-complementarily assembled aggregates. On the other hand, a diamide of an odd number carbon chain forms four independent hydrogen bonds with four other molecules not in a plane, which assembled into woven aggregates. Asymmetric introduction of a methyl group at the alpha-position of the amide groups successfully twists the two side chain van der Waals cores of the chiral diamides in the fixed direction, giving helically twisted ribbon and coiled coil aggregates. The helically twisted ribbon and coiled coil aggregates of these chiral diamides were directly observed by CD, SEM, and TEM, providing a basis for the design of a sophisticated small molecular gelator of a tailor-made shape.

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Molecular Assembly and Gelating Behavior of Didodecanoylamides of α,ω-Alkylidenediamines

Tomioka

Sumiyoshi

Narui

et al. 2001

J. Am. Chem. Soc.

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Total Synthesis of (−)-Lycorine and (−)-2-epi-Lycorine by Asymmetric Conjugate Addition Cascade

et al. 2009

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Design, Synthesis, and Blood–Brain Barrier Transport Study of Pyrilamine Derivatives as Histone Deacetylase Inhibitors

Hiranaka

Tega

Higuchi

et al. 2018

ACS Med. Chem. Lett.

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We designed and synthesized a pyrilamine derivative as a selective class I HDAC inhibitor that targets pyrilamine-sensitive proton-coupled organic cation antiporter (PYSOCA) at the blood-brain barrier (BBB). Introduction of pyrilamine moiety to benzamide type HDAC inhibitors kept selective class I HDAC inhibitory activity and increased BBB permeability. Our BBB transport study showed that compound is a substrate of PYSOCA. Thus, our findings suggest that the hybrid method of HDAC inhibitor and substrate of PYSOCA such as pyrilamine is useful for development of HDAC inhibitors with increased BBB permeability.

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Discovery of new low-molecular-weight p53–Mdmx disruptors and their anti-cancer activities

Uesato

Matsuura

Matsue

et al. 2016

Bioorganic & Medicinal Chemistry

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