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Molecular Recognition: Multipoint Hydrogen Bonding‐Based Molecular Recognition of Amino Acids and Peptide Derivatives in a Porous Metal‐Macrocycle Framework: Residue‐Specificity, Diastereoselectivity, and Conformational Control (Small 22/2021). Issue 22 (2nd June 2021)
Record Type:
Journal Article
Title:
Molecular Recognition: Multipoint Hydrogen Bonding‐Based Molecular Recognition of Amino Acids and Peptide Derivatives in a Porous Metal‐Macrocycle Framework: Residue‐Specificity, Diastereoselectivity, and Conformational Control (Small 22/2021). Issue 22 (2nd June 2021)
Main Title:
Molecular Recognition: Multipoint Hydrogen Bonding‐Based Molecular Recognition of Amino Acids and Peptide Derivatives in a Porous Metal‐Macrocycle Framework: Residue‐Specificity, Diastereoselectivity, and Conformational Control (Small 22/2021)
Abstract : In article number 2005803, Shohei Tashiro, Mitsuhiko Shionoya, and co‐workers report residue‐specific recognition of amino acids and peptide derivatives in a porous metal‐macrocycle framework. Among several amino acid residues, serine moieties are site‐ and diastereo‐selectively adsorbed to a certain binding site on the pore surface through multipoint hydrogen bonding as clearly visualized by single‐crystal X‐ray diffraction analysis.