Vibrational Characterization of Simple Peptides Using Cryogenic Infrared Photodissociation of H₂-Tagged, Mass-Selected Ions

Citations Over TimeTop 10% of 2011 papers

Abstract

We present infrared photodissociation spectra of two protonated peptides that are cooled in a ~10 K quadrupole ion trap and "tagged" with weakly bound H(2) molecules. Spectra are recorded over the range of 600-4300 cm(-1) using a table-top laser source, and are shown to result from one-photon absorption events. This arrangement is demonstrated to recover sharp (Δν ~6 cm(-1)) transitions throughout the fingerprint region, despite the very high density of vibrational states in this energy range. The fundamentals associated with all of the signature N-H and C=O stretching bands are completely resolved. To address the site-specificity of the C=O stretches near 1800 cm(-1), we incorporated one (13)C into the tripeptide. The labeling affects only one line in the complex spectrum, indicating that each C=O oscillator contributes a single distinct band, effectively "reporting" its local chemical environment. For both peptides, analysis of the resulting band patterns indicates that only one isomeric form is generated upon cooling the ions initially at room temperature into the H(2) tagging regime.

Related Papers

• → Characterization of Z-DNA by Infrared Spectroscopy(2023)4 cited
• → The study of some normal and abnormal montmorillonites by thermal analysis and infrared spectroscopy(1987)8 cited
• → Chapter 3 Theory of infrared spectroscopy(2001)4 cited
• → The infrared spectrum of gaseous Sb4O6(1993)9 cited
• STUDIES IN MOLECULAR SPECTROSCOPY. MOLECULAR CONSTANTS FROM INFRARED BANDSHAPES. THE ATOMIC DISPLACEMENTS AND INTRAMOLECULAR FORCES IN TETRAFLUOROMETHANE AND THE INFRARED BAND SHAPES AND THE INTENSITIES OF THE INFRARED ACTIVE BANDS OF TETRAFLUOROMETHANE. THE C-F BOND DIPOLAR PROPERTIES(1957)