Microsolvation of the histamine monocation in aqueous solution : the effect on structure, hydrogen bonding ability and vibrational spectrum (CROSBI ID 182859)
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Vianello, Robert ; Mavri, Janez
engleski
Microsolvation of the histamine monocation in aqueous solution : the effect on structure, hydrogen bonding ability and vibrational spectrum
Computational methods were employed to investigate the nature of the microsolvation of histamine monocation that corresponds to the aminoethyl protonated state of histamine at physiological conditions. The calculations were carried out at the M06-2X/6-311+G(d, p) and M06-2X/6-311++G(3df, 3pd)//M06-2X/6-311+G(d, p) levels of theory in conjunction with PCM solvent reaction field of Tomasi and co-workers. The results revealed that at least five explicit water molecules are required for the trans N–H conformer to overcome the larger intrinsic stability of the gauche N–H counterpart, the former being experimentally determined as the most dominant structure of histamine in water. The calculated N-H stretching frequencies, corresponding to the protonated aminoethyl group and to the ring amino moiety, together with the quantitative analysis of the strength of the solute-solvent hydrogen bonds, provide evidence that the -NH3+ fragment forms stronger hydrogen bonds with the neighboring solvent molecules than the ring NH group. This distinction could not be obtained by experiments alone. In this way computational results offer new insight and complement experiments on features highly relevant for the function of this biologically important molecule.
histamine monocation; vibrational spectrum; microhydration; hydrogen bonding; acid/base properties
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