Issue 8, 2021

Dissociation of large gaseous serine clusters produces abundant protonated serine octamer

Abstract

Protonated serine octamer is especially abundant in spray ionization mass spectra of serine solutions under a wide range of conditions. Although serine octamer exists in low abundance in solution, abundant clusters, including octamer, can be formed by aggregation inside evaporating electrospray droplets. A minimum cluster size of 8 and 21 serine molecules was observed for doubly protonated and triply protonated clusters, respectively, formed by electrospray ionization of a 10 mM serine solution. Dissociation of these clusters results in charge separation to produce predominantly protonated serine dimer and some trimer and the complimentary charged ion. Dissociation of clusters significantly larger than the minimum cluster size occurs by sequential loss of serine molecules. Dissociation of all large clusters investigated leads to protonated octamer as the second most abundant cluster (protonated dimer is most abundant) at optimized collision energies. All larger clusters dissociate through a combination of charge separation and neutral serine loss to form small doubly protonated clusters, and the vast majority of protonated octamer is produced by dissociation of the doubly protonated decamer by charge separation. Protonated octamer abundance is optimized at a uniform energy per degrees of freedom for all clusters indicating that simultaneous dissociation of all large clusters will lead to abundant protonated octamer at an optimum ion temperature. These results provide evidence for another route to formation of abundant protonated octamer in spray ionization or other methods that promote formation and subsequent dissociation of large clusters.

Graphical abstract: Dissociation of large gaseous serine clusters produces abundant protonated serine octamer

Article information

Article type
Paper
Submitted
13 feb 2021
Accepted
03 mar 2021
First published
04 mar 2021

Analyst, 2021,146, 2617-2625

Author version available

Dissociation of large gaseous serine clusters produces abundant protonated serine octamer

J. S. Jordan and E. R. Williams, Analyst, 2021, 146, 2617 DOI: 10.1039/D1AN00273B

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