Chemical-Vapor-Assisted Electrospray Ionization for
Increasing Analyte Signals in Electrospray Ionization Mass Spectrometry
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Abstract
We report a chemical-vapor-assisted
electrospray ionization (ESI)
technique to improve the detection sensitivity of ESI mass spectrometry
(MS). This simple technique involves introducing a chemical vapor
into the sheath gas around the nano-ESI spray tip or through a tubing
with its outlet placed close to the spray tip. A variety of chemical
vapors were tested and found to have varying degrees of effects on
analyte signal intensities. The use of benzyl alcohol vapors in ESI
was found to increase signal intensities of standard peptides by up
to 4-fold. When this technique was combined with capillary liquid
chromatography tandem MS (LC-MS/MS), the number of unique peptides
identified in the acid hydrolysate of alpha casein increased by 45%
and the number of peptides and proteins identified in a tryptic digest
of <i>E. coli</i> cell lysate increased by 13% and 14%,
respectively, along with an increased average match score. This technique
could also increase the analyte signals for some small molecules,
such as phenylephrine, by up to 3-fold. The increased analyte signals
observed in the chemical-vapor-assisted ESI process is related to
the enhancement of the ionization efficiency in ESI. The method can
be readily implemented to an existing ESI mass spectrometer at minimum
cost for improving detection sensitivity