Distinguishing Small Molecular Mass Differences of Proteins by Mass Spectrometry

Abstract

Electrospray ionization–Fourier transform ion cyclotron resonance (ESI–FTICR) mass spectrometryallows for high-resolution, accurate mass analysisof multiply charged ions of proteins. In the workdescribed here, the ability of ESI–FTICR to distinguish small differences in molecular mass is evaluated. Ubiquitin was used as an internal mass calibration standard to measure the molecular mass of cytochromec, myoglobin, and several carbonic anhydrase isoforms. Mass calibration was based onthe tallest isotopic peak of each ubiquitin chargestate. Ubiquitin performed well as an internal standard because its charge states covered the appropriate mass range, interference was minimal, and thetallest peak was easily identified. The peak massesof cytochrome c (12.5 kDa) and myoglobin (17 kDa) were measured to an accuracy of about 0.02 Da (<2ppm). However, errors of 1.0 Da were observedfor some individual determinations because of the difficulty in identifying the tallest peak. When the technique was applied to bovine carbonic anhydrase II, even combining data from several charge statesdid not yield an unequivocal assignment of thetallest peak, resulting in a mass assignment of 29,023.7 or 29,024.7. Similarly, measurements of two isoforms with a mass difference of 1 Da, human carbonic anhydrase I, pI6.0 and 6.6, yielded overlapping values for the mass of the tallest peak. However, these two isoforms were clearly distinguished by (a) identification of the tallest peak using a measurement of average mass as a guide and (b) comparison of the isotopic peak intensity patterns.