AI Article Synopsis
- A new technique is introduced for obtaining electronic spectra of biomolecular ions produced by electrospray and cooled to about 10 K in a 22-pole ion trap.
- This method reveals clear electronic and vibrational characteristics in the spectrum of protonated tyrosine, while protonated tryptophan shows broad features likely due to a fast nonradiative process.
- The technique has potential applications for a diverse range of biological molecules.
Article Abstract
We report here a new method to obtain electronic spectra of biomolecular ions that are produced in the gas phase by electrospray and cooled to approximately 10 K in a 22-pole ion trap, and we demonstrate this technique by applying it to protonated tryptophan and tyrosine. Cooling in the trap greatly simplifies the spectrum of protonated tyrosine, which exhibits a well-defined band origin and clearly resolved low frequency vibrational bands. In contrast, the spectrum of protonated tryptophan exhibits only broad features, even at low temperatures, suggesting that a fast nonradiative process broadens the individual vibronic features, even upon excitation at the electronic band origin. The method demonstrated here should be applicable to a wide variety of biological molecules.
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| http://dx.doi.org/10.1021/ja058383u | DOI Listing |
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