Mechanistic study of the collision-induced dissociation of sodium-cationized polylactide oligomers: A joint experimental and theoretical investigation

Winter, Julien De; Lemaur, Vincent; Marsal, P.; Coulembier, Olivier; Cornil, Jérôme; Dubois, Philippe; Gerbaux, Pascal

doi:10.1016/j.jasms.2010.03.026

Cited by 29 publications

(32 citation statements)

References 32 publications

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“…In addition to series l n AH and l n RV , the [M+2Na] 2+ precursor loses the elements of one repeat unit (72 Da) to form fragments with 1+ as well as 2+ charges ( m/z 1179.4 and 601.2, respectively); a less abundant second 72‐Da loss is also observed from the 2+ charge state ( m/z 565.2). Such fragments had been observed in the CAD spectra of singly sodiated PLA . A mechanism analogous to the one operating upon the loss of the N‐terminal amino acid residue from cationized peptides is proposed to yield these fragments, cf.…”

Section: Resultsmentioning

confidence: 93%

Electron transfer dissociation versus collisionally activated dissociation of cationized biodegradable polyesters

Scionti

Wesdemiotis

2012

J. Mass. Spectrom.

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Biodegradable polyesters were ionized by electrospray ionization and characterized by tandem mass spectrometry using collisionally activated dissociation (CAD) and electron transfer dissociation (ETD) as activation methods. The compounds studied include one homopolymer, polylactide and two copolymers, poly(ethylene adipate) and poly(butylene adipate). CAD of [M+2Na](2+) ions from these polyesters proceeds via charge-remote 1,5-H rearrangements over the ester groups, leading to cleavages at the (CO)O-alkyl bonds. ETD of the same precursor ions creates a radical anion at the site of electron attachment, which fragments by radical-induced cleavage of the (CO)O-alkyl bonds and by intramolecular nucleophilic substitution at the (CO)-O bonds. In contrast to CAD, ETD produces fragments in one charge state only and does not cause consecutive fragmentations, which simplifies spectral interpretation and permits conclusive identification of the correct end groups. The radical-site reactions occurring during ETD are very similar with those reported for ETD of protonated peptides. Unlike multiply protonated species, multiply sodiated precursors form ion pairs (salt bridges) after electron transfer, thereby promoting dissociations via nucleophilic displacement in addition to the radical-site dissociations typical in ETD.

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Section: Resultsmentioning

confidence: 93%

Electron transfer dissociation versus collisionally activated dissociation of cationized biodegradable polyesters

Scionti

Wesdemiotis

2012

J. Mass. Spectrom.

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“…The atomic charges used are those implemented in the COMPASS force field,44 the cut‐off value for the nonbonded interactions was increased to 500 Å so that none of them was neglected, and the conjugated gradient algorithm was selected to achieve the geometry optimizations. The combination of the UFF and COMPASS force fields has already proved to be very successful for the description of PLA oligomers bearing one Na + ion 14. Each optimized structure was used as the starting point of a conformational search.…”

Section: Methodsmentioning

confidence: 99%

“…Mass‐spectrometric measurements on polylactide polymers are thus of considerable interest to validate synthetic procedures. Recently, we reported a joint experimental and theoretical study on the collision‐induced dissociation of sodium‐cationized polylactides 14. In the continuity of our mass‐spectrometric studies on polylactides, we have analyzed by using ion‐mobility spectrometry the gas‐phase conformation of sodium cationized polylactide polymers.…”

Section: Introductionmentioning

confidence: 99%

“…[12] The understanding of polymer-fragmentation mechanisms is of prime importance for the analysis of MS/MS data, as illustrated in several experimental and theoretical studies. [13,14] Another major problem that is often encountered when performing MS and MS/MS analyses of polymer samples is the presence of isomeric or isobaric oligomers. Differentiation of isobaric ions can be achieved by using high-resolution analyzers.…”

Section: Introductionmentioning

confidence: 99%

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Size Dependence of the Folding of Multiply Charged Sodium Cationized Polylactides Revealed by Ion Mobility Mass Spectrometry and Molecular Modelling

Winter

Lemaur

Ballivian

et al. 2011

Chemistry A European J

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Ion mobility spectrometry coupled with mass spectrometry was used to experimentally determine the three-dimensional structure of multiply charged sodium cationized polylactides (PLA). In particular, the experiments were conducted to evaluate the influence of the charge state and the size on the gas-phase conformation of cationized PLA. The measured collision cross sections were then compared to calculated values obtained by computational chemistry methods. The most striking feature was the experimental and theoretical observation of a breaking point in the quasilinear relationship between the average collision cross sections and the number of monomer units for the triply charged cations. This breaking point was theoretically demonstrated, for the doubly and triply charged cations, to be associated with a significant folding of the polymer chains around the cationizing agents. The occurrence of such breaking points could be exploited to correlate the charge state of the most intense ion series observed upon electrospray ionization with the number-average molecular mass of a polymer.

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“…A 5:1 ratio was found more suitable for illustrative purposes; a detailed analysis of this aspect is presented in the following section discussing quantitative information. For convenience, and without loss of information, these spectra are presented on the same mass range going from m/z 1350 up to m/z 1700; spectrum for [PLA 23 and is shifted from the aforementioned series by −18 Th (for detailed discussions of fragmentation mechanisms and MS/MS spectra interpretations, one may refer to recent publications [13,14]). However, in the case of a mixture of PTMEG samples with PLA, which we may refer to as contamination throughout the discussion, visual inspection is not sufficient to distinguish between fragment ions (spectrum b in Figure 1).…”

Section: Esi Quadrupole Ion Trap Ms/ms Experimentsmentioning

confidence: 99%

Tandem Mass Spectrometric Analysis of a Mixture of Isobars Using the Survival Yield Technique

Memboeuf

Jullien

Lartia

et al. 2011

J. Am. Soc. Mass Spectrom.

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Collision induced dissociation tandem mass spectrometry experiments were performed to unequivocally separate compounds from an isobaric mixture of two products. The Survival Yield curve was obtained and is shown to consist in a linear combination of the curves corresponding to the two components separately. For such a mixture, a plateau appears on the diagram in lieu of the continuous decrease expected allowing for the structural study of the two components separately. The width of the plateau critically relates to the fragmentation parameters of the two molecular ions, which need to be sufficiently different structurally for the plateau to be observed. However, at constant fragmentation parameters, we have observed the width significantly increases at large m/z. This makes the separation more and more efficient as isobars have larger m/z and the technique complementary to those applicable at low m/z only. We have observed that the vertical position of the plateau relates linearly to the relative concentration of the two compounds that may be useful for quantification. Repeatability was estimated at 2% on a quadrupole ion trap. An advantage of using survival yield curves only, is that a priori knowledge of the respective fragmentation patterns of the two isobars becomes unnecessary. Consequently, similar performances are obtained if fragments are isobaric, which is also demonstrated in our study. The critical case of reverse peptides, at low m/z and similar fragmentation parameters, is also presented as a limitation of the method.

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Mechanistic study of the collision-induced dissociation of sodium-cationized polylactide oligomers: A joint experimental and theoretical investigation

Cited by 29 publications

References 32 publications

Electron transfer dissociation versus collisionally activated dissociation of cationized biodegradable polyesters

Electron transfer dissociation versus collisionally activated dissociation of cationized biodegradable polyesters

Size Dependence of the Folding of Multiply Charged Sodium Cationized Polylactides Revealed by Ion Mobility Mass Spectrometry and Molecular Modelling

Tandem Mass Spectrometric Analysis of a Mixture of Isobars Using the Survival Yield Technique

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