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1 eactions, Collision-induced dissociation and infrared multiphoton dissociation.
2                                       Tandem infrared multiphoton dissociation and collisionally acti
3 ques of electron capture dissociation (ECD), infrared multiphoton dissociation, and collision-induced
4 radiation collision-induced dissociation and infrared multiphoton dissociation are investigated for t
5            Tandem mass spectrometry based on infrared multiphoton dissociation identified labile frag
6 (ESI-FTICR-MS) in the negative ion mode with infrared multiphoton dissociation (IRMPD) accompanied by
7 e high pressure cell of the QLT with a short infrared multiphoton dissociation (IRMPD) activation in
8 greater sequence coverage than either CID or infrared multiphoton dissociation (IRMPD) alone.
9 luding collision induced dissociation (CID), infrared multiphoton dissociation (IRMPD) and electron c
10 le MS/MS fragmentation strategies, including infrared multiphoton dissociation (IRMPD) and electron-i
11 OS mixtures were further characterized using infrared multiphoton dissociation (IRMPD) and nano-liqui
12 Collisional activated dissociation (CAD) and infrared multiphoton dissociation (IRMPD) experiments we
13 ork we present a novel scheme for performing infrared multiphoton dissociation (IRMPD) external to th
14 violet photodissociation (UVPD) and 10.6-mum infrared multiphoton dissociation (IRMPD) for the charac
15                   On alternate scans, LC ESI infrared multiphoton dissociation (IRMPD) FT-ICR MS yiel
16  A strategy for increasing the efficiency of infrared multiphoton dissociation (IRMPD) in a quadrupol
17                                              Infrared multiphoton dissociation (IRMPD) in a quadrupol
18 rap mass spectrometer was modified to permit infrared multiphoton dissociation (IRMPD) in each of the
19 linear ion trap mass spectrometer to perform infrared multiphoton dissociation (IRMPD) in the low-pre
20                A novel scheme for performing infrared multiphoton dissociation (IRMPD) is presented i
21 on electron capture dissociation (AI-ECD) or infrared multiphoton dissociation (IRMPD) mass spectrome
22 position of the trimers may be determined by infrared multiphoton dissociation (IRMPD) MS(3) experime
23   Collision-activated dissociation (CAD) and infrared multiphoton dissociation (IRMPD) of Ag-adducted
24                                              Infrared multiphoton dissociation (IRMPD) of alkali meta
25                                              Infrared multiphoton dissociation (IRMPD) of deprotonate
26                                              Infrared multiphoton dissociation (IRMPD) of N-terminal
27 nd protein digests, we demonstrate selective infrared multiphoton dissociation (IRMPD) of S-sulfonate
28 R absorption properties, affording selective infrared multiphoton dissociation (IRMPD) of the cross-l
29 resent study, we have successfully performed infrared multiphoton dissociation (IRMPD) on 39 O-linked
30 s for simultaneous dissociation using either infrared multiphoton dissociation (IRMPD) or multiple fr
31 ly charged model peptide ions as compared to infrared multiphoton dissociation (IRMPD) or SORI-CID al
32 y a combination of tandem mass spectrometry, infrared multiphoton dissociation (IRMPD) spectroscopy,
33     In this report, we illustrate the use of infrared multiphoton dissociation (IRMPD) to obtain stru
34                              For comparison, infrared multiphoton dissociation (IRMPD) was also appli
35                                              Infrared multiphoton dissociation (IRMPD) was implemente
36 hment dissociation (AI-EDD) and negative ion infrared multiphoton dissociation (IRMPD) were employed
37 ted by collision-induced dissociation (CID), infrared multiphoton dissociation (IRMPD), and electron
38 t DNA-interactive drugs are characterized by infrared multiphoton dissociation (IRMPD), and the resul
39 on electron capture dissociation (AI ECD) or infrared multiphoton dissociation (IRMPD), for the analy
40 ues, electron capture dissociation (ECD) and infrared multiphoton dissociation (IRMPD), in a 7-T Four
41  as collision-induced dissociation (CID) and infrared multiphoton dissociation (IRMPD).
42 ollisionally activated dissociation (CAD) or infrared multiphoton dissociation (IRMPD).
43  that enables simultaneous access to ECD and infrared multiphoton dissociation (IRMPD).
44                                          The infrared multiphoton dissociation method is more efficie
45                                              Infrared multiphoton dissociation of isolated myeloma Ig
46 d by collisionally activated dissociation or infrared multiphoton dissociation of the tetrasaccharide
47 el reaction intermediates to applications of infrared multiphoton dissociation spectroscopy (IRMPD) t
48 nism as an intermediate was characterized by infrared multiphoton dissociation spectroscopy and was t
49      Both anionic forms are characterized by infrared multiphoton dissociation spectroscopy.
50 onance mass spectrometer were fragmented via infrared multiphoton dissociation using a free electron

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