An ion trap-ion mobility-time of flight mass spectrometer with three ion sources for ion/ion reactions

Zhao, Q.; Soyk, Matthew W.; Schieffer, Gregg M.; Führer, Katrin; Gonin, Marc; Houk, R. S.; Badman, Ethan R.

doi:10.1016/j.jasms.2009.04.014

Cited by 34 publications

(46 citation statements)

References 73 publications

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“…The design and general operating conditions for the home-built three-source instrument are described in another paper [26]. Bovine heart cytochrome c (SigmaAldrich, St. Louis, MO, USA) was used without further purification in all experiments.…”

Section: Methodsmentioning

confidence: 99%

“…The default operating conditions for ion mobility measurement were as follows. The ion trap ejection pulse was zero to Ϫ100 V for 3 s, and the injection voltage on the drift tube entrance was Ϫ50 V. These conditions provided the best signal and minimized variation of IM spectra with duration of the injection pulse [26]. The injection voltage was varied for Figure 1, and Ϫ50 V was used for Figure 6, for reasons discussed below.…”

Section: Methodsmentioning

confidence: 99%

“…Cross-section distributions for cytochrome c 8ϩ ions at different injection voltage into the drift tube. resolved mobility spectra as described previously [3,26]. In particular, the drift time is calculated by measuring the total time between the ion trap exit pulse and the observation of ions at the TOF detector.…”

Section: Methodsmentioning

confidence: 99%

“…In particular, the drift time is calculated by measuring the total time between the ion trap exit pulse and the observation of ions at the TOF detector. The flight time between the exit of the drift tube and the TOF source region is calculated from the instrument dimensions, applied voltages and m/z ratio and subtracted from the total time to give the actual time spent in the drift tube [26].…”

Section: Methodsmentioning

confidence: 99%

“…A three-source-ion trap-drift tube-q-TOF instrument was recently developed by our group to combine ion/ ion reactions with IM-TOF measurements [26,27]. The present paper describes how proton transfer ion/ion reactions can be used to manipulate charge state and study the effect of ion/ion reactions on the conformations of cytochrome c ions.…”

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confidence: 99%

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Effects of ion/ion proton transfer reactions on conformation of gas-phase cytochrome c ions

Zhao

Schieffer

Soyk

et al. 2010

J. Am. Soc. Mass Spectrom.

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Positive ions from cytochrome c are studied in a 3-D ion trap/ion mobility (IM)/quadrupoletime-of-flight (TOF) instrument with three independent ion sources. The IM separation allows measurement of the cross section of the ions. Ion/ion reactions in the 3-D ion trap that remove protons cause the cytochrome c ions to refold gently without other degradation of protein structure, i.e., fragmentation or loss of heme group or metal ion. The conformation(s) of the product ions generated by ion/ion reactions in a given charge state are similar regardless of whether the cytochrome c ions are originally in ϩ8 or ϩ9 charge states. In the lower charge states (ϩ1 to ϩ5) cytochrome c ions made by the ion/ion reaction yield a single IM peak with cross section of ϳ1110 to 1180 Å 2 , even if the original ϩ8 ion started with multiple conformations. The conformation expands slightly when the charge state is reduced from ϩ5 to ϩ1. For product ions in the ϩ6 to ϩ8 charge states, ions created from higher charge states (ϩ9 to ϩ16) by ion/ion reaction produce more compact conformation(s) in somewhat higher abundances compared with those produced directly by the electrospray ionization ( [5][6][7][8][9], and native electron capture dissociation (NECD) [10,11]. Of these methods, IM provides a direct way to examine the gas-phase conformation of the ions by probing the average cross-section of the protein ions via collisions with buffer gas [3,4]. Early IM research on protein folding and unfolding was done with an IMquadrupole instrument [1]. To study ions in lower charge states than those made directly from the electrospray ionization (ESI) source, a basic collision gas (e.g., acetophenone or 7-methyl-1,3,5-triazabicyclo 4,4,0] dec-5-ene, MTBD) [12] was introduced into the source region. The neutral gas extracted protons from the protein ion and created lower charge state ions through proton transfer reactions in the source. In these studies, the reactions took place only in the atmospheric pressure ion source interface region. Thus, control and variation of the reaction time and extent of reaction were difficult, and only certain reagent species were available.Gas-phase ion/ion reactions provide another dimension for gas-phase bioanalysis by MS. To date, these reactions have been mainly used to simplify complex MS/MS spectra [13,14] or generate fragments for structural assignment [15,16] by methods like electrontransfer dissociation (ETD) [17][18][19].Recent instrumentation improvements have greatly extended the type of structural information and number of possible experiments available in this area. The development of a 3-D trap-IM-time of flight (TOF) instrument allows time-dependent studies of gas-phase protein ions, including folding, unfolding and structural transitions [20 -23]. A multi-stage IMS-MS instrument [24,25] provides two important new functions. First, a protein ion with a specific structure can be selected by IMS, then activated and separated in the next drift region. Second, "state-to-state" structural

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Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

mentioning

confidence: 99%

See 3 more Smart Citations

Effects of ion/ion proton transfer reactions on conformation of gas-phase cytochrome c ions

Zhao

Schieffer

Soyk

et al. 2010

J. Am. Soc. Mass Spectrom.

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Current literature in mass spectrometry

2010

J. Mass Spectrom.

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In order to keep subscribers up‐to‐date with the latest developments in their field, John Wiley & Sons are providing a current awareness service in each issue of the journal. The bibliography contains newly published material in the field of mass spectrometry. Each bibliography is divided into 11 sections: 1 Reviews; 2 Instrumental Techniques & Methods; 3 Gas Phase Ion Chemistry; 4 Biology/Biochemistry: Amino Acids, Peptides & Proteins; Carbohydrates; Lipids; Nucleic Acids; 5 Pharmacology/Toxicology; 6 Natural Products; 7 Analysis of Organic Compounds; 8 Analysis of Inorganics/Organometallics; 9 Surface Analysis; 10 Environmental Analysis; 11 Elemental Analysis. Within each section, articles are listed in alphabetical order with respect to author

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Optimization of a quadrupole ion storage trap as a source for time‐of‐flight mass spectrometry

Dangi

Ervin

2012

J. Mass. Spectrom.

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Designs of a quadrupole ion trap (QIT) as a source for time-of-flight (TOF) mass spectrometry are evaluated for mass resolution, ion trapping, and laser activation of trapped ions. Comparisons are made with the standard hyperbolic electrode ion trap geometry for TOF mass analysis in both linear and reflectron modes. A parallel-plate design for the QIT is found to give significantly improved TOF mass spectrometer performance. Effects of ion temperature, trapped ion cloud size, mass, and extraction field on mass resolution are investigated in detail by simulation of the TOF peak profiles. Mass resolution (m/Δm) values of several thousand are predicted even at room temperature with moderate extraction fields for the optimized design. The optimized design also allows larger radial ion collection size compared with the hyperbolic ion trap, without compromising the mass resolution. The proposed design of the QIT also improves the ion-laser interaction volume and photon collection efficiency for fluorescence measurements on trapped ions.

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An ion trap-ion mobility-time of flight mass spectrometer with three ion sources for ion/ion reactions

Cited by 34 publications

References 73 publications

Effects of ion/ion proton transfer reactions on conformation of gas-phase cytochrome c ions

Effects of ion/ion proton transfer reactions on conformation of gas-phase cytochrome c ions

Current literature in mass spectrometry

Optimization of a quadrupole ion storage trap as a source for time‐of‐flight mass spectrometry

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