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ALBERTO LESARRI, Departamento de Química Física y Química Inorgánica, Universidad de Valla- dolid, 47011 Valladolid, Spain; EMILIO J. COCINERO, Departamento de Química Física, Universidad del País Vasco, 48080 Bilbao, Spain; LUCA EVANGELISTI, Dipartimento di Chimica "G. Ciamiciam", Università di Bologna, 40126 Bologna, Italy; RICHARD D. SUENRAM, Department of Chemistry, University of Virginia, Charlottesville, VA 22904, USA; WALTHER CAMINATI, Dipartimento di Chimica "G. Ciamiciam", Università di Bologna, 40126 Bologna, Italy; JENS-UWE GRABOW, Institut für Physikalische Chemie und Elektrochemie, Gottfried-Wilhelm-Leibniz-Universität Hannover, Callinstraß e 3A, 30167 Hannover, Germany.
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The conformational landscape of the alkaloid anabasine (neonicotine) has been investigated using rotational spectroscopy and ab initio calculations. The results allow a detailed comparison of the structural properties of the prototype piperidinic and pyrrolidinic nicotinoids (anabasine vs. nicotine\footnote R.~J.~Lavrich, R.~D.~Suenram, D.~F.~Plusquellic and S.~Davis, 58^th ~OSU~Int.~ Symp.~on~Mol.~Spectrosc., Columbus, OH, 2003, Comm. RH13). Anabasine adopts two most stable conformations in isolation conditions, for which we determined accurate rotational and nuclear quadrupole coupling parameters. The preferred conformations are characterized by an equatorial pyridine moiety and additional N-H equatorial stereochemistry at the piperidine ring ( Eq-Eq ). The two rings of anabasine are close to a bisecting arrangement, with the observed conformations differing in a ca. 180\circ rotation of the pyridine subunit, denoted either Syn or Anti . The preference of anabasine for the Eq-Eq-Syn conformation has been established by relative intensity measurements ( Syn / Anti
5(2)). The conformational preferences of free anabasine are directed by a N
H-C weak hydrogen bond interaction between the nitrogen lone pair at piperidine and the closest hydrogen bond in pyridine, with N
N distances ranging from 4.750 Å ( Syn ) to 4.233 Å ( Anti ).