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Literature DB >> 17766339

Sum frequency vibrational spectroscopy: the molecular origins of the optical second-order nonlinearity of collagen.

Israel Rocha-Mendoza¹, Diego R Yankelevich, Mingshi Wang, Karen M Reiser, Curt W Frank, André Knoesen.

Abstract

The molecular origins of second-order nonlinear effects in type I collagen fibrils have been identified with sum-frequency generation vibrational spectroscopy. The dominant contributing molecular groups are: 1), the methylene groups associated with a Fermi resonance between the fundamental symmetric stretch and the bending overtone of methylene; and 2), the carbonyl and peptide groups associated with the amide I band. The noncentrosymmetrically aligned methylene groups are characterized by a distinctive tilt relative to the axis perpendicular to the main axis of the collagen fiber, a conformation producing a strong achiral contribution to the second-order nonlinear effect. In contrast, the stretching vibration of the carbonyl groups associated with the amide I band results in a strong chiral contribution to the optical second-order nonlinear effect. The length scale of these chiral effects ranges from the molecular to the supramolecular.

Entities: Chemical Disease

Mesh：

Substances：
Collagen

Year: 2007 PMID： 17766339 PMCID： PMC2098726 DOI： 10.1529/biophysj.107.111047

Source DB: PubMed Journal: Biophys J ISSN： 0006-3495 Impact factor: 4.033

33 in total

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