Action and Ion Mobility Spectroscopy of a Shortened Retinal Derivative.

Lihi MusbatShirrel AssisJonathan M DilgerTarick J El-BabaDaniel R FullerJeppe Langeland KnudsenHjalte V KieferAmiram HirshfeldNoga FriedmanLars H AndersenMordechai ShevesDavid E ClemmerYoni Toker

Published in: Journal of the American Society for Mass Spectrometry (2018)

The development of tandem ion mobility spectroscopy (IMS) known as IMS-IMS has led to extensive research into isomerizations of isolated molecules. Many recent works have focused on the retinal chromophore which is the optical switch used in animal vision. Here, we study a shortened derivative of the chromophore, which exhibits a rich IM spectrum allowing for a detailed analysis of its isomerization pathways, and show that the longer the chromophore is, the lower the barrier energies for isomerization are. Graphical Abstract.

Keyphrases

high resolution
optical coherence tomography
diabetic retinopathy
single molecule
optic nerve
solid state
mass spectrometry
molecular dynamics