Metastable ion characteristics.  XXIV.  Application of collisional activation spectra to the elucidation of organic ion structures

McLafferty, Fred W.; Kornfeld, Richard; Haddon, William; Levsen, K.; Sakai, Ikuo; Bente, P. F.; Tsai, Susan; Schuddemage, H. D. R.

doi:10.1021/ja00793a011

Cited by 243 publications

(42 citation statements)

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“…The fourteen molecules can be divided into three groups according to the substituent at position one: hydroxyalkyl substituted (1-4), aminoalkyl substituted (5-11) and alkyl substituted (12)(13)(14) pyrroles.…”

Section: Resultsmentioning

confidence: 99%

“…When comparing the CID spectra of different ions it has to be kept in mind that the intensity of the peaks related to the processes of lowest activation energy may depend on the internal energy of the ion. 13 Because the ions studied were collisionally cooled before isolation the CID spectra were not corrected for the lowest energy processes. Exact mass measurements were made in broad band mode using perfluorotributylamine (PFTBA) as external standard.…”

Section: Methodsmentioning

confidence: 99%

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Extensive rearrangement reactions observed for differently N-substituted 2,5-dimethylpyrroles under electron ionization

Joutsiniemi

Leppälä

Vainiotalo

1998

Rapid Commun. Mass Spectrom.

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The 70 eV electron ionization mass spectra of fourteen differently N-substituted 2,5-dimethylpyrroles were studied. In accord with the aromatic character of the pyrrole ring, all the compounds studied gave rise to an intense molecular ion peak. Regardless of the functional group at the 1-substituent, for all the compounds the principal fragmentation products were practically the same, although the relative peak intensities varied depending on the structure of the substituent. In addition, an amino group substituent prompted intense radical site initiated cleavages which were minor or totally absent with other compounds. The data showed that extensive rearrangement reactions took place. Some of these were seen directly from the mass spectra, and some only from closer examination of the ion structures. The structures of the ions at m/z 108 and 94, formally representing the [MÀ1]ions of 1,2,5-trimethylpyrrole and 2,5-dimethylpyrrole, respectively, were carefully studied using the collision induced dissociation (CID) technique. Measurements showed that ring expansion reactions took place, protonated 2,5-lutidine and protonated 2-picoline being the most likely isomers formed for the m/z 108 and 94 ions, respectively. The results obtained from the CID experiments were supported by semi-empirical calculations of heats of formation. # 1998 John Wiley & Sons, Ltd. Received 22 December 1997; Revised 5 January 1998; Accepted 10 January 1998 Rapid Commun. Mass Spectrom. 12, 231-238 (1998 A pyrrole ring is a part of many important biologically active compounds.1,2 In fact, some polysubstituted pyrroles have even been reported to have various biological and pharmaceutical activities.3,4 The condensation of diketones with primary amines constitutes a very useful method for generating pyrroles. This reaction is called the Paal-Knorr condensation, 5-7 and is described in Scheme 1.Unsubstituted pyrrole and its relatively simple alkylsubstituted derivatives have been studied by mass spectrometry to some extent. [8][9][10][11] In the present work, we synthesized fourteen differently N-substituted 2,5-dimethylpyrroles (listed below), by the Paal-Knorr condensation from 2,5-hexanedione and appropriate primary amines.The mass spectrometric behaviour of these compounds was studied under electron ionization. The main intention was to find the most important fragmentation routes of Nsubstituted pyrroles and the possible dependence of the fragmentation pathways and the nature of the substituent. The fragmentation routes were verified by exact mass measurements, metastable ion analysis and collision induced dissociation (CID) techniques. The spectra observed directly showed that several rearrangements take place. It is also known from the work of Glish et al.9 that ring expansion reactions are common with dimethylpyrroles. For these reasons, some detailed ion structural studies were carried out for long-lived ions generated from compounds 12 and 13, using a low energy CID technique. Heat of formation values were also calculated by a semiem...

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Section: Resultsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Extensive rearrangement reactions observed for differently N-substituted 2,5-dimethylpyrroles under electron ionization

Joutsiniemi

Leppälä

Vainiotalo

1998

Rapid Commun. Mass Spectrom.

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“…[At that time, CI was a common abbreviation for chemical ionization; currently, the terms CID and collision-activated dissociation (CAD, my preference) are used interchangeably to designate the technique.] Subsequent studies established the fundamentals of the technique (74) and illustrated its broad applications (75). It became possible to characterize the full structure of a larger molecule through CAD identification of its individual fragment ions (76).…”

Section: Tandem Mass Spectrometrymentioning

confidence: 99%

A Century of Progress in Molecular Mass Spectrometry

McLafferty

2011

Annual Rev. Anal. Chem.

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The first mass spectrum of a molecule was measured by J.J. Thomson in 1910. Mass spectrometry (MS) soon became crucial to the study of isotopes and atomic weights and to the development of atomic weapons for World War II. Its notable applications to molecules began with the quantitative analysis of light hydrocarbons during World War II. When I joined the Dow Chemical Company in 1950, MS was not favored by organic chemists. This situation improved only with an increased understanding of gaseous ion chemistry, which was obtained through the use of extensive reference data. Gas chromatography–MS was developed in 1956, and tandem MS was first used a decade later. In neutralization-reionization MS, an unusual, unstable species is prepared by ion-beam neutralization and characterized by reionization. Electrospray ionization of a protein mixture produces its corresponding ionized molecules. In top-down proteomics, ions from an individual component can be mass separated and subjected to collision-activated and electron-capture dissociation to provide extensive sequence information.

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“…Finally, ion structure (e) has no oxy-analogue. It has been proposed that such ions are generated from N-methylpiperidine (4, 5) and trimethylamine (2).…”

Section: Reference Ionsmentioning

confidence: 99%

“…It is isoelectronic with C2H4O+' and in view of the similarity with which oxygen and nitrogen atoms direct mass spectral decompositions, we were interested to see whether the analogous nitrogencontaining ions are stable. Such an analogy certainly exists between the C2H50+ and C2H6N+ ions which have been subject to several investigations (2,3). The C2H5N+ ion, although an important fragment ion in the mass spectra of many nitrogen-containing compounds, has only been investigated by conventional labelling studies (4)(5)(6).…”

Section: Introductionmentioning

confidence: 99%

Metastable ion studies. VI. The identification of C₂H₅N^+• ion structures from their characteristic kinetic energy releases

Holmes¹,

Terlouw²

1976

Can. J. Chem.

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. Can. J. Chem. 54, 1007Chem. 54, (1976. Metastable peaks for the fragmentation C2H5N+. + C2HdN+ f H' have been studied in the first field-free region of a double focussing mass spectrometer. Isomeric structures of C2H5N+' ions derived from a variety of precursor molecules were characterised by their metastable peak shape and kinetic energy release. The identifications were aided by appropriate deuterium labelling experiments. Four isomeric ions (c) (e) were shown to retain their structural identity within the ion energy and lifetime ranges observable in these experiments. Ion (a), generated from aziridine was found to be indistinguishable from its open chain isomer CHZ-NH=CH~+. (d).The results closely parallel those previously found for the isoelectronic C2H40+' ions, but the differences in characteristic kinetic energy release are smaller. A simple deuterium exchange labelling experiment may be necessary for the unequivocal identification of C2H5N+' ion structures. JOHN L. HOLMES et JOHAN K. TERLOUW. Can. J. Chem. 54, 1007Chem. 54, (1976.On a CtudiC les pics metastables dus B la fragmentation C2H5N+' + C2H4N+ f H ' dans la premikre rigion libre de champ d'un spectromktre B double focal~sation. On a caractCrisC les structures isomkres des ions C2H5N+' dCriv6s d'une grande variCte de molkules prCcurseurs par la forme de leurs pics metastables et par la libiration d'inergie cinitique. Les identifications furent facilities par des expCriences impliquant des molkules marquees au deutirium dans des positions appropriks. On a montrC que les quatres ions isomkres

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Metastable ion characteristics. XXIV. Application of collisional activation spectra to the elucidation of organic ion structures

Cited by 243 publications

References 1 publication

Extensive rearrangement reactions observed for differently N-substituted 2,5-dimethylpyrroles under electron ionization

Extensive rearrangement reactions observed for differently N-substituted 2,5-dimethylpyrroles under electron ionization

A Century of Progress in Molecular Mass Spectrometry

Metastable ion studies. VI. The identification of C₂H₅N^+• ion structures from their characteristic kinetic energy releases

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Metastable ion characteristics. XXIV. Application of collisional activation spectra to the elucidation of organic ion structures

Cited by 243 publications

References 1 publication

Extensive rearrangement reactions observed for differently N-substituted 2,5-dimethylpyrroles under electron ionization

Extensive rearrangement reactions observed for differently N-substituted 2,5-dimethylpyrroles under electron ionization

A Century of Progress in Molecular Mass Spectrometry

Metastable ion studies. VI. The identification of C2H5N+• ion structures from their characteristic kinetic energy releases

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Metastable ion studies. VI. The identification of C₂H₅N^+• ion structures from their characteristic kinetic energy releases