Chiral Recognition of Dansyl Derivatives with an Amino Acid-Based Molecular Micelle: A Molecular Dynamics Investigation

Mauro Garcia; Nathan Black; Eugene Billiot; Fereshteh Billiot; Kevin F. Morris; Yayin Fang

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Chiral Recognition of Dansyl Derivatives with an Amino Acid-Based Molecular Micelle: A Molecular Dynamics Investigation

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In this study, the chiral separation mechanisms of Dansyl amino acids, including Dansyl-Leucine (Dans-Leu), Dansyl-Norleucine (Dans-Nor), Dansyl-Tryptophan (Dans-Trp) and Dansyl-Phenylalanine (Dans-Phe) binding to poly-sodium N-undecanoyl-(L)-Leucylvalinate, poly (SULV), were investigated using molecular dynamics simulations. Micellar electrokinetic chromatography (MEKC) has previously shown that when separating the enantiomers of these aforementioned Dansyl amino acids, the L-enantiomers bind stronger to poly (SULV) than the D-enantiomers. This study aims to investigate the molecular interactions that govern chiral recognition in these systems using computational methods. This study reveals that the computationally-calculated binding free energy values for Dansyl enantiomers binding to poly (SULV) are in agreement with the enantiomeric order produced in experimental MEKC studies. The L-enantiomers of Dans-Leu, Dans-Nor, Dans-Trp, and Dans-Phe binding to their preferred binding pockets in poly (SULV) yielded binding free energy values of -21.8938, -22.1763, -21.3329 and -13.3349 kJ·mol-1, respectively. The D-enantiomers of Dans-Leu, Dans-Nor, Dans-Trp, and Dans-Phe binding to their preferred binding pockets in poly (SULV) yielded binding free energy values of -14.5811, -15.9457, -13.6408, and -12.0959 kJ·mol-1, respectively. Furthermore, hydrogen bonding analyses were used to investigate and elucidate the molecular interactions that govern chiral recognition in these molecular systems.

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《物理化学期刊（英文）》 |2021年第2期|P.64-86|共23页
作者
Mauro Garcia; Nathan Black; Eugene Billiot; Fereshteh Billiot; Kevin F. Morris; Yayin Fang;
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作者单位

Department of Physical and Environmental Sciences Texas A&M University-Corpus Christi Corpus Christi TX USA;

Department of Physical and Environmental Sciences Texas A&M University-Corpus Christi Corpus Christi TX USA;

Department of Physical and Environmental Sciences Texas A&M University-Corpus Christi Corpus Christi TX USA;

Department of Physical and Environmental Sciences Texas A&M University-Corpus Christi Corpus Christi TX USA;

Department of Chemistry Carthage College Kenosha WI USA;

Department of Biochemistry and Molecular Biology Howard University Washington DC USA;

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正文语种 chi
中图分类有机化学;
关键词
Amino Acid Based Molecular Micelles; Molecular Modeling; Computational Chemistry; Chiral Recognition;

机译：基于氨基酸的分子胶束;分子建模;计算化学;手性识别;

Chiral Recognition of Dansyl Derivatives with an Amino Acid-Based Molecular Micelle: A Molecular Dynamics Investigation

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