Collision-Induced Dissociation of Intact Duplex and Single-Stranded siRNA Anions

Huang, Tao; Liu, Jian; Liang, Xiaorong; Hodges, Brittany D. M.; McLuckey, Scott A.

doi:10.1021/ac801331h

Cited by 55 publications

(66 citation statements)

References 56 publications

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“…Specifically, precursor anions of low to moderate charge states and relatively low ion activation amplitudes favors c/y-ion formation such that relatively high levels of sequence information can be obtained while avoiding additional complexity associated with contributions from competing dissociation pathways and sequential fragmentation. Similar findings were subsequently made in the ion trap collisional activation of anions derived from the sense and antisense strands of a siRNA duplex [27]. Under FT-MS conditions, dissociation of RNAs modified covalently by structural probes has been reported using SORI-CID [28].…”

supporting

confidence: 58%

“…To access the sequence information present in the unresolved fragment ion population of Figure 2, proton transfer ion/ion reactions were applied to reduce the fragment ion charge states to mostly 1-. Charge reduction of highly charged unmodified nucleic acid anions has been demonstrated by ion/ion reactions with protonated benzoquinoline cations in a 3-D ion trap [41] and a linear ion trap [27], respectively. Minimal adduct formation or fragmentation of parent ions was detected with this reagent.…”

Section: Intact Trna Sequencing Via Collision-induced Dissociation Anmentioning

confidence: 99%

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Top-down tandem mass spectrometry of tRNA via ion trap collision-induced dissociation

Huang

Liu

McLuckey

2010

J. Am. Soc. Mass Spectrom.

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Transfer RNA is a class of highly modified and structured non-coding RNA molecules generally comprised of 74-95 nucleotides. In this study, tandem mass spectrometry of intact multiply charged tRNA anions of roughly 25 kDa in mass has been demonstrated using a quadrupole/time-of-flight tandem mass spectrometer adapted for ion/ion reaction studies. The sample proved to be a mixture of tRNA molecules. The mass of the most abundant component of the mixture was not consistent with that of the nominal identity of the tRNA from the supplier, viz., tRNA Phe ; rather, the mass was consistent with tRNA Phe bearing an incomplete 3=-terminus. Multiply-charged anions from the major components were isolated in the gas phase and subjected to ion trap collision-induced dissociation without subsequent ion/ion reactions. Abundant fragments from the 5=-and 3=-termini of the molecule could be used to identify the major component as tRNA Phe -3=adenosine (without 3=-phosphorylation). Roughly 15% of the primary sequence of the intact tRNA was unambiguously reflected in the product ion spectrum. The existence of a possible tRNA Phe variant and the intact tRNA Phe was also supported by ion trap CID data. The multiply-charged fragment ions derived from tRNA Phe -3=adenosine were further charge-reduced to mostly singly-and doubly-charged species via proton transfer ion/ion reactions with benzoquinoline cations. The resulting reduction in spectral overlap and charge state ambiguity simplified interpretation of the product ion spectrum and allowed for the identification of product ions from roughly 60% of the sequence. (J Am Soc Mass Spectrom 2010, 21, 890 -898)

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supporting

confidence: 58%

Section: Intact Trna Sequencing Via Collision-induced Dissociation Anmentioning

confidence: 99%

Top-down tandem mass spectrometry of tRNA via ion trap collision-induced dissociation

Huang

Liu

McLuckey

2010

J. Am. Soc. Mass Spectrom.

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“…A home-built pulsed dual nano-electrospray (ESI) source was coupled directly to the nanospray interface to produce ions of both polarities [37]. Detailed experimental procedures have been reported previously [34]. In brief, a typical scan function consisted of LNA ion injection, isolation of the charge states of interest by Q1 in RF/DC mode, ion trap collision-induced dissociation (CID) in Q2, and then mass analysis by TOF.…”

Section: Methodsmentioning

confidence: 99%

“…To investigate the dissociation behavior of the LNA mixmer anions of higher charge states, the [M Ϫ 7H] 7-ions were isolated and subjected to ion trap CID. The interpretation of the spectrum was facilitated by applying ion/ion proton transfer reactions, using benzoquinoline cations as the charge reducing reagent ions [34], to reduce the product ion charge states to mostly 2-and 1-. As shown in the post-ion/ion ion trap CID product ion spectrum of the [M Ϫ 7H] 7-LNA mixmer (Figure 4), significantly greater structural information resulted from fragmentation of the higher charge state precursor ion.…”

Section: Ion Trap Collision-induced Dissociation Of Functional Lna-dnmentioning

confidence: 99%

“…Previously, tandem mass spectrometry analysis of single strand and duplex siRNAs has been investigated and full sequence coverage was obtained. However, the modification is limited to the 3=-terminus DNA overhang, and the overall molecules are composed of the RNA backbone [34]. Considering its unique structure, it is of interest to study the unimolecular dissociation of LNA in comparison to DNA and RNA.…”

mentioning

confidence: 99%

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Ion trap collision-induced dissociation of locked nucleic acids

Huang

Kharlamova

McLuckey

2010

J. Am. Soc. Mass Spectrom.

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Gas-phase dissociation of model locked nucleic acid (LNA) oligonucleotides and functional LNA-DNA chimeras have been investigated as a function of precursor ion charge state using ion trap collision-induced dissociation (CID). For the model LNA 5 and 8 mer, containing all four LNA monomers in the sequence, cleavage of all backbone bonds, generating a/w-, b/x-, c/y-, and d/z-ions, was observed with no significant preference at lower charge states. Base loss ions, except loss of thymine, from the cleavage of N-glycosidic bonds were also present. In general, complete sequence coverage was achieved in all charge states. For the two LNA-DNA chimeras, however, dramatic differences in the relative contributions of the competing dissociation channels were observed among different precursor ion charge states. At lower charge states, sequence information limited to the a-Base/w-fragment ions from cleavage of the 3=C-O bond of DNA nucleotides, except thymidine (dT), was acquired from CID of both the LNA gapmer and mixmer ions. On the other hand, extensive fragmentation from various dissociation channels was observed from post-ion/ion ion trap CID of the higher charge state ions of both LNA-DNA chimeras. This report demonstrates that tandem mass spectrometry is effective in the sequence characterization of LNA oligonucleotides and LNA-DNA chimeric therapeutics. (J Am Soc Mass Spectrom 2010, 21, 144 -153)

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Mass Spectrometry of siRNA

Cancilla

Flanagan²

2013

Mass Spectrometry for Drug Discovery and Drug Development

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Collision-Induced Dissociation of Intact Duplex and Single-Stranded siRNA Anions

Cited by 55 publications

References 56 publications

Top-down tandem mass spectrometry of tRNA via ion trap collision-induced dissociation

Top-down tandem mass spectrometry of tRNA via ion trap collision-induced dissociation

Ion trap collision-induced dissociation of locked nucleic acids

Mass Spectrometry of siRNA

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