发明名称 |
Use of mass spectral difference networks for determining charge state, adduction, neutral loss and polymerization |
摘要 |
A mass spectrometric analysis method comprises: (1) processing a mass spectrum to reduce the signals to monoisotopic values; (2) creating a list of differences between the monoisotopic values; (3) creating one or more lists of theoretical mass-to-charge differences among known adducts, charge states and polymerization states whose formation may be expected from various analyte molecules; (4) comparing the theoretical differences (line or edge in the network) to the list of differences from the mass spectrum and, where applicable, make and tabulate tentative species assignments; and (5) assigning the mass spectral peaks to respective ion species in accordance with the redundancy of each assignment based on multiple independent calculated mass-to-charge differences pertaining to each peak. |
申请公布号 |
US9159538(B1) |
申请公布日期 |
2015.10.13 |
申请号 |
US201414302304 |
申请日期 |
2014.06.11 |
申请人 |
Thermo Finnigan LLC |
发明人 |
McClure Thomas;Athanas Michael J.;Kump Matthew |
分类号 |
H01J49/00;H01J49/26;H01J49/02 |
主分类号 |
H01J49/00 |
代理机构 |
|
代理人 |
Cooney Thomas F. |
主权项 |
1. A mass spectrometric analysis method comprising:
(a) identifying isotopic clusters in experimentally observed mass spectral data; (b) determining a respective experimental monoisotopic mass-to-charge (m/z) value for each identified isotopic cluster; (c) calculating theoretical monoisotopic m/z values of a plurality of ion species theoretically predicted to be generated by mass spectral ionization of analyte molecules, each ion species corresponding to a respective combination of analyte-molecule composition, adduction, ionic charge state, and analyte-molecule polymerization state; (d) calculating an m/z-value difference, Δ(m/z)exp, corresponding to the difference between the m/z values of each respective pair of determined experimental monoisotopic m/z values; (e) calculating an m/z-value difference, Δ(m/z)theor, corresponding to the difference between the m/z values of each respective pair of calculated theoretical monoisotopic m/z values; (f) assigning, to the respective pair of ion species corresponding to each pair of experimental monoisotopic m/z values for which Δ(m/z)exp is equal to a matching Δ(m/z)theor within a predetermined tolerance, the combinations of adduction, ionic charge state, and analyte-molecule polymerization state corresponding to the pair of theoretically-predicted ion species corresponding to the matching Δ(m/z)theor; and (g) storing or reporting to a user the results of the assigning. |
地址 |
San Jose CA US |