Ana K. Vrkic scite author profile

Trimethylborate (TMB) reacts with deprotonated monomer, homo-, and heterodimer ions of nucleotides (2′-deoxyadenosine-5′-monophosphate [dAMP], 2′-deoxycytidine-5′-monophosphate [dCMP], 2′-deoxyguanosine-5′-monophosphate [dGMP], and 2′-deoxythymidine-5′-monophosphate [dTMP]) in a quadrupole ion trap mass spectrometer by addition with concomitant elimination of one or two methanol molecules (monomers), one or three methanol molecules (homodimers), and three methanol molecules (heterodimers). The mode of reaction appears to influence the observed rates, with the loss of only one methanol molecule corresponding to the fastest rate. There appears to be a structure–reactivity correlation for the monomers, with the [dGMP – H]– ions (which adopt a syn conformation of the guanine moiety) reacting fastest with TMB through the loss of only one methanol molecule. No such structure–reactivity trends are observed for the homo- and heterodimers. In addition, the collision-induced dissociation (CID) reactions of the [(dXMP)n − H]– (n = 1 or 2) as well as the [dXMP + dYMP – H + (CH3O)3B – 3(CH3OH)]– ions (where nucleotides X, Y = A, C, G, or T) were studied. The latter fragment to form [dXMP – H + BPO4]– and [dXMP – 3H + BPO3]– ions (where X = A, C, G, or T), while [dXMP – H]– ions fragment by neutral base loss. The homo- and heterodimers fragment to form [dXMP – H]– and [dXMP + HPO3]– ions, and the relative abundances of the [dXMP – H]– monomer ions from the heterodimers led to the following acidity order: dGMP ≈ dTMP > dCMP > dAMP.

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Unusual Covalent Bond-Breaking Reactions of β-cyclodextrin Inclusion Complexes of Nucleobases/Nucleosides and Related Guest Molecules

Vrkic

O’Hair

Lebrilla

2003

Eur J Mass Spectrom (Chichester)

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Host-guest complexes between nucleobases or nucleosides and beta-cyclodextrin can be observed by electrospray ionization mass spectrometry (ESI-MS) and their relative abundances appear to correlate with the condensed-phase binding order. Using Fourier transform ion cyclotron resonance mass spectrometry, the extent of the interactions between the host oligosaccharide and guest species have also been examined for permethylated beta-cyclodextrin : adenine/deoxyadenosine and permethylated maltoheptaose : adenine/deoxyadenosine using gas-phase exchange reactions with the gaseous amines, n-propylamine and ethylenediamine. The ease of guest exchange in the gas-phase follows the order : deoxyadenosine > adenine > deoxycytidine > cytosine, which is in contrast to their relative binding order in solution. Collision-induced dissociation (CID) has been used to probe the fragmentation behavior of oligosaccharide : nucleobase/nucleoside complexes. Under these conditions the inclusion complexes either (a) dissociate, (b) result in cleavage of the host oligosaccharide or (c) result in cleavage of the guest molecule. This study has shown that the preferred dissociation pathway of these complexes depends on the structures of both the cyclodextrin and guest molecule.

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Ana K. Vrkic

Fragmentation reactions of all 64 protonated trimer oligodeoxynucleotides and 16 mixed base tetramer oligodeoxynucleotides via tandem mass spectrometry in an ion trap

Mapping charged silver(i) adenine polymers, [Adx+ Agy−zH](y − z)+, via electrospray ionization tandem mass spectrometry experiments

Gas phase ion chemistry of para substituted benzene diazonium ions, their salt clusters and their related phenyl cations

Gas Phase Reactions of Trimethylborate with the [M − H]− Ions of Nucleotides and Their Non-Covalent Homo- and Heterodimer Complexes

Unusual Covalent Bond-Breaking Reactions of β-cyclodextrin Inclusion Complexes of Nucleobases/Nucleosides and Related Guest Molecules

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Ana K. Vrkic

Fragmentation reactions of all 64 protonated trimer oligodeoxynucleotides and 16 mixed base tetramer oligodeoxynucleotides via tandem mass spectrometry in an ion trap

Mapping charged silver(i) adenine polymers, [Adx+ Agy−zH](y − z)+, via electrospray ionization tandem mass spectrometry experiments

Gas phase ion chemistry of para substituted benzene diazonium ions, their salt clusters and their related phenyl cations

Gas Phase Reactions of Trimethylborate with the [M &minus; H]&minus; Ions of Nucleotides and Their Non-Covalent Homo- and Heterodimer Complexes

Unusual Covalent Bond-Breaking Reactions of β-cyclodextrin Inclusion Complexes of Nucleobases/Nucleosides and Related Guest Molecules

Contact Info

Product

Resources

About

Gas Phase Reactions of Trimethylborate with the [M − H]− Ions of Nucleotides and Their Non-Covalent Homo- and Heterodimer Complexes