Elemental Dependence of Structurally Specific Isotopic Shifts in High-Field Ion Mobility Spectra

Baird, M.A.; Pathak, Pratima; Shvartsburg, Alexandre A.

doi:10.1021/acs.analchem.8b05801

Cited by 12 publications

(111 citation statements)

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“…The separations of isotopologues at different m/z and isotopomers at equal m/z are a priori orthogonal, rendering ΔE C and w R complementary descriptors. 31 Here, the w R metric confirms the differentiation of unresolved 2,4 and 2,5 from each other and {2,6; 3,4; 3,5}. The w R values at m/z = 256 follow those for single 13 C peaks, with wider margins ensuing from lower signal (Figure 7a).…”

Section: Journal Of the American Society For Mass Spectrometrysupporting

confidence: 65%

“…As with E C shifts, one can multiplex the w R values to reduce the uncertainty. 31 In fact, the benchmarks (derived from average w R for m/z of 252 and 254 relative to m/z = 250) are now in the narrower 1.00−1.03 range with smaller margins of 0.01 (Figure 7a). These define w R ∼ 1.04 as the threshold of significance for broadening of other peaks.…”

Section: Journal Of the American Society For Mass Spectrometrymentioning

confidence: 95%

“…That is in the range of 0.07% for 37 Cl 13 C 2 in MCAs to 0.20% for 81 Br 13 C 2 in MBAs, permitting robust ΔE C determination for most isomers. 31,32 ■ ISOMER SEPARATIONS AND ISOTOPOLOGIC…”

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confidence: 99%

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Structurally Informative Isotopic Shifts in Ion Mobility Spectra for Heavier Species

Pathak

Baird

Shvartsburg

2019

J. Am. Soc. Mass Spectrom.

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The isotopic molecular envelopes due to stable isotopes for most elements were a staple of mass spectrometry since its origins, often leveraged to identify and quantify compounds. However, all isomers share one MS envelope. As the molecular motion in media also depends on the isotopic composition, separations such as liquid chromatography (LC) and ion mobility spectrometry (IMS) must also feature isotopic envelopes. These were largely not observed because of limited resolution, except for the (structurally uninformative) shifts in LC upon H/D exchange. We recently found the isotopic shifts in FAIMS for small haloanilines (∼130−170 Da) to hinge on the halogen position, opening a novel route to isomer characterization. Here, we extend the capability to heavier species: dibromoanilines (DBAs, ∼250 Da) and tribromoanilines (TBAs, ∼330 Da). The 13 C shifts for DBAs and TBAs vary across isomers, some changing sign. While 81 Br shifts are less specific, the 2-D 13 C/ 81 Br shifts unequivocally differentiate all isomers. The trends for DBAs track those for dichloroanilines, with the 13 C shift order preserved for most isomers. The peak broadening due to merged isotopomers is also isomer-specific. The absolute shifts for TBAs are smaller than those for lighter haloanilines, but differentiate isomers as well because of compressed uncertainties. These results showcase the feasibility of broadly distinguishing isomers in the more topical ∼200−300 Da range using the isotopic shifts in IMS spectra.

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Section: Journal Of the American Society For Mass Spectrometrysupporting

confidence: 65%

Section: Journal Of the American Society For Mass Spectrometrymentioning

confidence: 95%

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Structurally Informative Isotopic Shifts in Ion Mobility Spectra for Heavier Species

Pathak

Baird

Shvartsburg

2019

J. Am. Soc. Mass Spectrom.

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“…We note that resolution of some isotopomers has been achieved using FAIMS, ,− where separations take place based on the mobility of ions in both high and low electric fields. ,− However, the basis for these separations has not been established due to the fact that the FAIMS separation occurs in conjunction with significant ion heating (and likely induced structural changes) as well as other possible contributions such as partial ion dipole alignment due to the high fields involved. , …”

Section: Results and Discussionmentioning

confidence: 99%

“… However, the reported R p would be insufficient for much larger ions, and even greater challenges would arise with the use of lighter drift gases (e.g., helium) due to the smaller reduced mass differences. The only other isotopologue or isotopomer ion separations of which we are aware have used Field Asymmetric Ion Mobility Spectrometry (FAIMS), where R p values up to ∼500 have been demonstrated based upon differences in mobilities at very high vs low electric fields in mixtures of gases. ,− While these studies suggest that observed shifts for individual substitutions may be relatable to the ion’s structure, FAIMS incurs some significant, but not well characterized, extent of ion heating and potential structural perturbations due to the high fields used, as well as other possible contributions such as partial ion alignment in the field, making an understanding of the effects due to isotopic substitutions elusive. , …”

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confidence: 99%

SLIM Ultrahigh Resolution Ion Mobility Spectrometry Separations of Isotopologues and Isotopomers Reveal Mobility Shifts due to Mass Distribution Changes

et al. 2019

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We report on separations of ion isotopologues and isotopomers using ultrahigh-resolution traveling wavebased Structures for Lossless Ion Manipulations with serpentine ultralong path and extended routing ion mobility spectrometry coupled to mass spectrometry (SLIM SUPER IMS-MS). Mobility separations of ions from the naturally occurring ion isotopic envelopes (e.g., [M], [M+1], [M+2], … ions) showed the first and second isotopic peaks (i.e., [M+1] and [M+2]) for various tetraalkylammonium ions could be resolved from their respective monoisotopic ion peak ([M]) after SLIM SUPER IMS with resolving powers of ~400-600. Similar separations were obtained for other compounds (e.g., tetrapeptide ions). Greater separation was obtained using argon versus helium drift gas, as expected from the greater reduced mass contribution to ion mobility described by the Mason-Schamp relationship. To more directly explore the role of isotopic substitutions, we studied a mixture of specific isotopically substituted (15 N, 13 C, and 2 H) protonated arginine isotopologues. While the separations in nitrogen were primarily due to their reduced mass *

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Assessing the additivity of mass distribution-based isotopic shifts in high-resolution cyclic ion mobility separations

Roberts,

Williamson,

Nagy

2024

International Journal of Mass Spectrometry

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Elemental Dependence of Structurally Specific Isotopic Shifts in High-Field Ion Mobility Spectra

Cited by 12 publications

References 50 publications

Structurally Informative Isotopic Shifts in Ion Mobility Spectra for Heavier Species

Structurally Informative Isotopic Shifts in Ion Mobility Spectra for Heavier Species

SLIM Ultrahigh Resolution Ion Mobility Spectrometry Separations of Isotopologues and Isotopomers Reveal Mobility Shifts due to Mass Distribution Changes

Assessing the additivity of mass distribution-based isotopic shifts in high-resolution cyclic ion mobility separations

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