Bryan G. Reuben scite author profile

The H/D exchange kinetics of the protonated serine octamer was investigated by both flow-tube and FT-ICR experiments. The exchange was observed to be bimodal in agreement with previous observations. Quantitative analysis of the experimental results led to site-specific H/D exchange rate constants on the basis of which the structures of both ion populations were deduced. We observe the two separate conformers exchanging 33 hydrogens each-in an independent manner and at different rates. This result was achieved through a probabilistic algorithm that groups together equivalent hydrogen atoms having equal rate constants. The slower exchanging population A is assigned an all-zwitterionic structure. Its faster exchanging counterpart B is assigned an all-neutral structure. Population A was found to be more stable toward collision-induced activation than population B. All of these findings are consistent with previous experimental results, thus comprising a self-consistent picture of the protonated serine octamer and its gas-phase properties.

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The SHOP process: An example of industrial creativity

Reuben¹,

Wittcoff²

1988

J. Chem. Educ.

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An Electrospray Ionization−Flow Tube Study of H/D Exchange in Protonated Bradykinin

et al. 2001

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An electrospray ionization-fast flow technique has been employed to study the reactions of doubly protonated bradykinin and des-Arg 9 -bradykinin with CH 3 OD and ND 3 , respectively. Deconvolution of the experimental mass spectral data followed by simulation of the kinetic data by solution of differential equations leads to sets of apparent and site-specific rate constants. On a time scale of several milliseconds, bradykinin undergoes with ND 3 three fast H/D exchanges and one slow exchange. Three equivalent exchanges are observed with CH 3 OD that are nearly 2 orders of magnitude slower than the ND 3 reactions. Up to six hydrogen exchanges are observed for the reaction of des-Arg 9 -bradykinin with ND 3 . The more efficient exchange of des-Arg 9bradykinin is accompanied by formation of collisionally stabilized complexes between doubly protonated des-Arg 9 -bradykinin and ND 3 at a He carrier gas pressure of about 0.2 Torr. Multiple-collision activationcollision-induced dissociation of reactant and product ions of the isotope exchange reactions was carried out in front of the sampling nose cone of the analyzer quadrupole mass filter system. The degree of deuterium incorporation into the parent doubly protonated ions and into several of the b n + and y n + ions combined with the site-specific rate constants obtained indicates that the three equivalent hydrogens exchanged in doubly protonated bradykinin are at the protonated N-terminus amine group. Complexation of doubly protonated bradykinin by ND 3 is prevented by its tightly folded structure, and this in turn prevents H/D exchange of the amide hydrogens of bradykinin. The additional H/D exchanges observed in the case of doubly protonated des-Arg 9 -bradykinin are made possible by complexation of its less compact structure via hydrogen-bonded intermediates that promote H/D exchange of amide hydrogens. † Part of the special issue "Edward W. Schlag Festschrift".

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Bryan G. Reuben

Industrial Organic Chemicals

Industrial Organic Chemicals

Protonated Serine Octamer Cluster: Structure Elucidation by Gas-Phase H/D Exchange Reactions

The SHOP process: An example of industrial creativity

An Electrospray Ionization−Flow Tube Study of H/D Exchange in Protonated Bradykinin

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