TY - JOUR
T1 - Quadrupole time-of-flight versus triple-quadrupole mass spectrometry for the determination of phosphopeptides by precursor ion scanning
AU - Steen, Hanno
AU - Küster, Bernhard
AU - Mann, Matthias
PY - 2001
Y1 - 2001
N2 - An API 3000 triple-quadrupole instrument and a QSTAR Pulsar quadrupole time-of-flight (TOF) mass spectrometer were compared for the determination of phosphopeptides by precursor ion scanning in both the positive and negative nanoelectrospray ionization modes. The limits of detection for synthetic phosphopeptides were similar (500 amol μl-1) for both types of instruments when monitoring precursors of -79 Da (PO3-). However, the quadrupole TOF system was approximately fivefold more sensitive (1 fmol μ1-1) than the triple-quadrupole instrument (5 fmol μ1-1) when monitoring precursors of 216 Da (immonium ion of phosphotyrosine). The recently introduced Q2-pulsing function, which enhances the transmission of fragment ions of a selected m/z window from the collision cell into the TOF part, improved the sensitivity of precursor ion scans on a quadrupole TOF instrument. The selectivity of precursor ion scans is much better on quadrupole TOF systems than on triple quadrupoles because the high resolving power of the reflectron-TOF mass analyzer permits high-accuracy fragment ion selection at no expense of sensitivity. This minimizes interferences from other peptide fragment ions (a-, b-, and y- type) of the same nominal mass but with sufficient differences in their exact masses. As a result, the characteristic immonium ion of phosphotyrosine at m/z 216.043 can be utilized for the selective detection of tyrosine phosphorylated peptides. Our data suggest that, in addition to their superior performance for peptide sequencing, quadrupole TOF instruments also offer a very viable alternative to triple quadrupoles for precursor ion scanning, thus combining high sensitivity and selectivity for both MS and MS/MS experiments in one instrument.
AB - An API 3000 triple-quadrupole instrument and a QSTAR Pulsar quadrupole time-of-flight (TOF) mass spectrometer were compared for the determination of phosphopeptides by precursor ion scanning in both the positive and negative nanoelectrospray ionization modes. The limits of detection for synthetic phosphopeptides were similar (500 amol μl-1) for both types of instruments when monitoring precursors of -79 Da (PO3-). However, the quadrupole TOF system was approximately fivefold more sensitive (1 fmol μ1-1) than the triple-quadrupole instrument (5 fmol μ1-1) when monitoring precursors of 216 Da (immonium ion of phosphotyrosine). The recently introduced Q2-pulsing function, which enhances the transmission of fragment ions of a selected m/z window from the collision cell into the TOF part, improved the sensitivity of precursor ion scans on a quadrupole TOF instrument. The selectivity of precursor ion scans is much better on quadrupole TOF systems than on triple quadrupoles because the high resolving power of the reflectron-TOF mass analyzer permits high-accuracy fragment ion selection at no expense of sensitivity. This minimizes interferences from other peptide fragment ions (a-, b-, and y- type) of the same nominal mass but with sufficient differences in their exact masses. As a result, the characteristic immonium ion of phosphotyrosine at m/z 216.043 can be utilized for the selective detection of tyrosine phosphorylated peptides. Our data suggest that, in addition to their superior performance for peptide sequencing, quadrupole TOF instruments also offer a very viable alternative to triple quadrupoles for precursor ion scanning, thus combining high sensitivity and selectivity for both MS and MS/MS experiments in one instrument.
KW - Nanoelectrospray mass spectrometry
KW - Phosphotyrosine immonium ion
KW - Precursor ion scanning
KW - Q-pulsing
UR - http://www.scopus.com/inward/record.url?scp=0034909215&partnerID=8YFLogxK
U2 - 10.1002/jms.174
DO - 10.1002/jms.174
M3 - Article
C2 - 11473401
AN - SCOPUS:0034909215
SN - 1076-5174
VL - 36
SP - 782
EP - 790
JO - Journal of Mass Spectrometry
JF - Journal of Mass Spectrometry
IS - 7
ER -