[Published online Journal of Computer Chemistry, Japan Vol.15, 51-52, by J-STAGE]
<Title:> ペプトイド類のフラグメント分子軌道計算
<Author(s):> 川田 修太郎, 坂口 正貴, 米倉 伊吹, 奥脇 弘次, 望月 祐志, 福澤 薫
<Corresponding author E-Mill:> kawada(at)rikkyo.ac.jp
<Abstract:> Peptoids are a class of peptide mimetics whose side chains contain nitrogen atoms rather than α-carbon atoms. This structural feature restricts the intrinsic capacity to form hydrogen bond networks of α-helix, therefore peptoid oligomers are attracting attention due to the ability to design chemical properties such as self-assembling by selecting proper side chains. This paper shows some illustrative peptoid calculations, based on the fragment molecular orbital (FMO) method.
<Keywords:> Peptoid, Fragment Molecular Orbital Method, Nanobiotechnology, Self-assembling, Crystallization
<URL:> https://www.jstage.jst.go.jp/article/jccj/15/3/15_2016-0032/_article/-char/ja/
<Title:> ペプトイド類のフラグメント分子軌道計算
<Author(s):> 川田 修太郎, 坂口 正貴, 米倉 伊吹, 奥脇 弘次, 望月 祐志, 福澤 薫
<Corresponding author E-Mill:> kawada(at)rikkyo.ac.jp
<Abstract:> Peptoids are a class of peptide mimetics whose side chains contain nitrogen atoms rather than α-carbon atoms. This structural feature restricts the intrinsic capacity to form hydrogen bond networks of α-helix, therefore peptoid oligomers are attracting attention due to the ability to design chemical properties such as self-assembling by selecting proper side chains. This paper shows some illustrative peptoid calculations, based on the fragment molecular orbital (FMO) method.
<Keywords:> Peptoid, Fragment Molecular Orbital Method, Nanobiotechnology, Self-assembling, Crystallization
<URL:> https://www.jstage.jst.go.jp/article/jccj/15/3/15_2016-0032/_article/-char/ja/
