Competing Dispersive Interactions: From Small Energy Differences to Large Structural Effects in Methyl Jasmonate and Zingerone | Zendy

Iciar Uriarte | Zendy; Aran Insausti | Zendy; Emilio J. Cocinero | Zendy; A. Jabri | Zendy; Isabelle Kleiner | Zendy; Halima Mouhib | Zendy; Ibón Alkorta | Zendy

Open Access

Competing Dispersive Interactions: From Small Energy Differences to Large Structural Effects in Methyl Jasmonate and Zingerone

Author(s) -

Iciar Uriarte,

Aran Insausti,

Emilio J. Cocinero,

A. Jabri,

Isabelle Kleiner,

Halima Mouhib,

Ibón Alkorta

Publication year - 2018

Publication title -

the journal of physical chemistry letters

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 2.563

H-Index - 203

ISSN - 1948-7185

DOI - 10.1021/acs.jpclett.8b02339

Subject(s) - methyl jasmonate , biomolecule , spectroscopy , benchmark (surveying) , biological system , computational chemistry , chemistry , chemical physics , nanotechnology , materials science , physics , biology , quantum mechanics , biochemistry , gene , geodesy , geography

Modern structural studies of biologically relevant molecules require an exhaustive interplay between experiment and theory. In this work, we present two examples where a poor choice of the theoretical method led to a misinterpretation of experimental results. We do that by performing a rotational spectroscopy study on two large and flexible biomolecules: methyl jasmonate and zingerone. The results show the enormous potential of rotational spectroscopy as a benchmark to evaluate the performance of theoretical methods.

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