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Electrospray time-resolved

Pan J, Rintala-Dempsey AC, Li Y, Shaw GS, Konermann L. 2006. Folding kinetics of the S100A11 protein dimer studied by time-resolved electrospray mass spectrometry and pulsed hydrogen-deuterium exchange. Biochemistry 45(9) 3005-3013. [Pg.132]

Wilson, D. J., Konermann, L, A capillary mixer with adjustable reaction chamber volume for millisecond time-resolved studies by electrospray mass spectrometry, Anal. Chem. 2003, 75, 6408-6414. [Pg.278]

Konermann, L., Collings, B. A., and Douglas, D. J. (1997). Cytochrome c folding kinetics studied by time resolved electrospray ionization mass spectrometry. Biochemistry 36, 5554-5559. [Pg.327]

Simmons, D.A., Dunn, S.D., Konermann, L. (2003) Conformational dyneunics of partially denatured myoglobin studied by time-resolved electrospray mass spectrometry with online hydrogen-deuterium exchange. Biochemistry, 42 (19), 5896-5905. [Pg.89]

D. A. Simmons and L. Konermann, Characterization of transient protein folding intermediates during myoglobin reconstitution by time-resolved electrospray mass spectrometry with on-hne isotope-pulse labeling. Biochemistry 42, 1906-1914 (2002). [Pg.395]

Rob, T., Wilson, D.J. (2012) Time-Resolved Mass Spectrometry for Monitoring Millisecond Time-Scale Solution-Phase Processes. Eur. J. Mass Spectrom. 18 205-214. Zhu, W., Yuan, Y, Zhou, P, Zeng, L., Wang, H., Tang, L., Guo, B., Chen, B. (2012) The Expanding Role of Electrospray Ionization Mass Spectrometry for Probing Reactive Intermediates in Solution. Molecules 17 11507-11537. [Pg.10]

Figure 4.3 Schematic cross-sectional diagram of the experimental apparatus used for time-re-solved ESI-MS experiments. Syringes I and 2 deliver a continuous flow of reactants mixing of the two solutions initiates the reaction of interest. The inner capillary can be automatically pulled back together with syringe I (as indicated by the dashed arrow), thus providing a means to control the average reaction time. Solid arrows indicate the directions of liquid flow. Small arrows in the ESI source region represent the directions of air flow [95]. Reprinted with permission from Wilson, D.J., Konermann, L. (2003) A Capillary Mixer with Adjustable Reaction Chamber Volume for Millisecond Time-Resolved Studies by Electrospray Mass Spectrometry. Anal. Chem. 75 6408-6414. Copyright (2003) American Chemical Society... Figure 4.3 Schematic cross-sectional diagram of the experimental apparatus used for time-re-solved ESI-MS experiments. Syringes I and 2 deliver a continuous flow of reactants mixing of the two solutions initiates the reaction of interest. The inner capillary can be automatically pulled back together with syringe I (as indicated by the dashed arrow), thus providing a means to control the average reaction time. Solid arrows indicate the directions of liquid flow. Small arrows in the ESI source region represent the directions of air flow [95]. Reprinted with permission from Wilson, D.J., Konermann, L. (2003) A Capillary Mixer with Adjustable Reaction Chamber Volume for Millisecond Time-Resolved Studies by Electrospray Mass Spectrometry. Anal. Chem. 75 6408-6414. Copyright (2003) American Chemical Society...
Lento, C., Audette, G.F., Wilson, D.J. (2015) Time-resolved Electrospray Mass Spectrometry - a Brief History. Can. J. Chem. 93 7-12. [Pg.131]

Wilson, D.J., Konermann, L. (2003) A Capillary Mixer with Adjustable Reaction Chamber Volume for Millisecond Time-resolved Studies by Electrospray Mass Spectrometry. Anal. Chem. 75 6408-6414. [Pg.132]

Zinck, N., Stark, A.-K., Wilson, D.J., Sharon, M. (2014) An Improved Rapid Mixing Device for Time-resolved Electrospray Mass Spectrometry Measurements. Chem-istryOpen 3 109-114. [Pg.132]

Konermann, L Rosell, F.I., Mauk, A.G., Douglas, D.J. (1997) Acid-induced Denat-uration of Myoglobin Studied by Time-resolved Electrospray Ionization Mass Spectrometry. Biochemistry 36 6448-6454. [Pg.142]

Zechel, D.L., Konermann, L Withers, S.G., Douglas, DJ. (1998) Pre-steady State Kinetic Analysis of an Enzymatic Reaction Monitored by Time-resolved Electrospray Ionization Mass Spectrometry. Biochemistry 37 7664-7669. [Pg.142]

Sogbein, O.O., Simmons, D.A., Konermann, L. (2000) Effects of pH on the Kinetic Reaction Mechanism of Myoglobin Unfolding Studied by Time-resolved Electrospray Ionization Mass Spectrometry. J. Am. Soc. Mass Spectrom. 11 312-319. [Pg.143]

Pan, J Rintala-Dempsey, A.C., Li, Y Shaw, G.S., Konermann, L. (2006) Folding Kinetics of the SlOOAl 1 Protein Dimer Studied by Time-resolved Electrospray Mass Spectrometry and Pulsed Hydrogen-Deuterium Exchange. Biochemistry 45 3005-3013. [Pg.146]

Li, Z., Song, F., Zhuang, Z., Dunaway-Mariano, D., Anderson, K.S. (2009) Monitoring Enzyme Catalysis in the Multimeric State Direct Observation of Arthrobac-ter 4-Hydroxybenzoyl-Coenzyme A Thioesterase Catalytic Complexes Using Time-resolved Electrospray Ionization Mass Spectrometry. Anal. Biochem. 394 209-216. [Pg.146]

Miao, Z., Chen, H., Liu, R, Liu, Y. (2011) Development of Submillisecond Time-resolved Mass Spectrometry Using Desorption Electrospray Ionization. Anal. Chem. 83 3994-3997. [Pg.286]

See other pages where Electrospray time-resolved is mentioned: [Pg.596]    [Pg.123]    [Pg.317]    [Pg.495]    [Pg.334]    [Pg.670]    [Pg.74]    [Pg.58]    [Pg.119]    [Pg.271]    [Pg.294]   
See also in sourсe #XX -- [ Pg.137 ]



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