Structure of saligenin: microwave, UV and IR spectroscopy studies in a supersonic jet combined with quantum chemistry calculations.

@article{Kumar2014StructureOS,
  title={Structure of saligenin: microwave, UV and IR spectroscopy studies in a supersonic jet combined with quantum chemistry calculations.},
  author={Sumit Kumar and Santosh K. Singh and Camilla Calabrese and Assimo Maris and Sonia Melandri and Aloke Kumar Das},
  journal={Physical chemistry chemical physics : PCCP},
  year={2014},
  volume={16 32},
  pages={
          17163-71
        }
}
In this study, we have determined the structure of a medicinally important molecule saligenin (2-hydroxybenzyl alcohol) using UV, IR and microwave absorption spectroscopy in a supersonic jet combined with ab initio calculations. The structure of the only observed conformer of saligenin corresponds to the global minimum on the conformational surface. The observed structure is stabilized by an intramolecular strong O-H···O hydrogen bonding as well as a very weak O-H···π interaction. The hydrogen… 
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Fingerprints of inter- and intramolecular hydrogen bonding in saligenin-water clusters revealed by mid- and far-infrared spectroscopy.
TLDR
Infrared (IR) ultraviolet (UV) ion-dip spectroscopy was used to study isolated saligenin-(H2O)n clusters in the far- and mid-IR regions of the spectrum, and harmonic and anharmonic quantum chemical calculations were applied to assign cluster geometries to the measured spectra, and to assign vibrational modes to all spectral features measured for each cluster.
Far-Infrared Signatures of Hydrogen Bonding in Phenol Derivatives.
TLDR
Far-IR/UV ion-dip spectroscopy using the free electron laser FELIX was applied to directly probe the intramolecular hydrogen-bond interaction in a family of phenol derivatives and shows that the hydrogen bond stretching frequency is diagnostic for the size of the ring that is closed by the hydrogen Bond.
Interplay between hydrogen bonding and n→π* interaction in an analgesic drug salicin.
TLDR
Natural bond orbital analyses show that the analgesic salicin analogs found in willow bark are characterized by a subtle interplay between weak n→π* interaction and conventional strong hydrogen bond, with additional insights into this interaction provided by analysis of quantum theory of atoms in molecules and symmetry-adapted perturbation theory calculations.
Intrinsic folding of the cysteine residue: competition between folded and extended forms mediated by the -SH group.
TLDR
These structural and spectroscopic results, complemented by a theoretical Natural Bond Orbital analysis, enabled us to document the capacity of the weakly polar -CH2-SH side chain of Cys to adapt itself to the intrinsic local preferences of the peptide backbone.
Anharmonic, dynamic and functional level effects in far-infrared spectroscopy: Phenol derivatives
Steric as well as n-π* interaction controls the conformational preferences of phenyl acetate: Gas phase spectroscopy and quantum chemistry calculations.
TLDR
The present result demonstrates that the introduction of a bulkier substituent can induce steric as well as electronic control to reduce conformational heterogeneity of a molecular system.
Competing Intramolecular vs. Intermolecular Hydrogen Bonds in Solution
  • P. Nagy
  • Chemistry
    International journal of molecular sciences
  • 2014
TLDR
The present review surveys the in-solution competition of the conformations with intramolecular vs. intermolecular hydrogen bonds for different types of small organic molecules and considers the solvent effects on the stability of simple dimeric systems as revealed from molecular dynamics simulations or on the basis of the calculated potential of mean force curves.
Observation of a weak intra-residue C5 hydrogen-bond in a dipeptide containing Gly-Pro sequence.
TLDR
Structures and conformational preferences of a dipeptide Z-Gly-Pro-OH (Z = benzyloxycarbonyl) are studied using mass-selected vibrationally resolved electronic spectroscopy and IR-UV double resonance Spectroscopy coupled with quantum chemistry calculations.
Isolation, structural elucidation and bioherbicidal activity of an eco-friendly bioactive 2-(hydroxymethyl) phenol, from Pseudomonas aeruginosa (C1501) and its ecotoxicological evaluation on soil

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