Surface Induced Dissociation For Application In Mass Spectrometry


Incorporation of Surface Induced Dissociation Into a Commercial Ion Mobility

Author : Mowei Zhou

Publisher :

Page : 242 pages

File Size : 23,68 MB

Release : 2013

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ISBN :

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Book Description

Abstract: There is a growing interest in application of mass spectrometry as a high throughput technique for quaternary structure studies of protein complexes. One way to study protein complexes by mass spectrometry is to specifically label peptides segments that carry critical structural information, and after protein digestion subsequently identify the labeled peptides using liquid chromatography - mass spectrometry. A chemical crosslinker forms covalent bonds at specific amino acid sidechains that are in proximity in the protein structure. This approach is used to probe the binding interface of LexA/RecA proteins in Escherichia coli (Chapter 3). In contrast, intact noncovalent protein complexes can be directly transferred into the gas phase, while retaining memory of their solution structures. Accurate molecular weight measurement by mass spectrometry can be used for stoichiometry determination of protein-protein and protein-ligand systems, as manifested by the two examples of stoichiometry determination of differently treated adiponectin oligomers (Chapter 4), and the silver binding properties of the N-terminal region of a bacterial protein CusB (Chapter 5).





Native Mass Spectrometry Protein Structural Characterization Via Surface Induced Dissociation

Author : Jing Yan (Ph. D. in chemistry)

Publisher :

Page : 219 pages

File Size : 44,88 MB

Release : 2017

Category : Chemistry

ISBN :

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In the work described in Chapter 4, conformations of globular protein complex ions generated in gas phase ion-ion reactions and solution additive charge reduction are compared. When the conformation of the precursor ions is disrupted by the supercharging or cone activation, the difference in SID fragmentation patterns of ions generated from gas phase ion-ion reactions can be observed, indicating that the conformation of protein complex ions can be preserved in gas phase ion-ion reactions.



Principles of Mass Spectrometry Applied to Biomolecules

Author : Chava Lifshitz

Publisher : John Wiley & Sons

Page : 707 pages

File Size : 47,85 MB

Release : 2006-10-27

Category : Science

ISBN : 0470050411

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Book Description

An extensive compilation of articles by leading professionals, this reference explains the fundamental principles of mass spectrometry as they relate to the life sciences. Topics covered include spectroscopy, energetics and mechanisms of peptide fragmentation, electron capture dissociation, ion-ion and ion-molecule reactions, reaction dynamics, collisional activation, soft-landing, protein structure and interactions, thermochemistry, and more. The book empowers readers to develop new ways of using these techniques.







Final Report. Surface-induced Dissociation Versus Collision-induced Dissociation

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Publisher :

Page : 7 pages

File Size : 14,59 MB

Release : 2001

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A 7-Tesla Fourier transform ion-cyclotron resonance (FTICR) mass spectrometer was modified to insert a surface inside the cell for ion-surface collisions leading to the dissociation of impacting ions. Modifications were made to the software/hardware to collide the ions brought into the cell and trap the resulting fragment and undissociated primary ions inside the cell. The trapping plates were also ramped to determine kinetic energy distributions of these ions. The surface-induced dissociation (SID) of benzene and chromium hexacarbonyl ions was first studied as test cases for the instrument. Then a systematic study of the SID of small protonated peptides formed by electrospray ionization was begun. A series of small alanine(A)-containing peptides, viz., AA, AAA, AAAA, AAAAA, and PAAAA were used in the study. In the absence of any direct comparisons of the SID processes with the commonly used technique of tandem mass spectrometry of collision-induced dissociations (CID) via collisions with a neutral gas, a comparative study of CID and SID using the same protonated peptides was made. Since multiple collisions are often used to enhance dissociation efficiency in CID, the CID was performed under single as well as multiple collisional activation conditions. Both on-resonance and sustained off-resonance irradiation excitation were used for CID experiments. Kinetic energy of the ions was varied by changing peak-to-peak voltage applied to the excitation plates. Results are shown in a series of graphs, and a simple theoretical model is presented. This direct comparison of the two activation techniques on the same instrument provided insights into the similarities and differences between these two. The results suggest that internal energy distributions of ions activated by ion-surface collision and multiple collision ion-gaseous neutral collisions are quite comparable. The results also suggest that, in ion-surface collisions, the ion collides with only a small fraction of th e self-assembled monolayer chain, making it effectively a process very similar to CID.





Characterization of Macromolecular Protein Assemblies by Collision-Induced and Surface-Induced Dissociation: Expanding the Role of Mass Spectrometry in Structural Biology

Author : Christopher Michael Jones

Publisher :

Page : 742 pages

File Size : 37,16 MB

Release : 2008

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ISBN :

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This dissertation presents an investigation into the structure of macromolecular protein assemblies by mass spectrometry. The experiments described within are designed to systematically assess the analytical utility of surface-induced dissociation (SID) tandem mass spectrometry in the characterization of multi-subunit protein complexes. This is accomplished by studying the effects of ion-surface collisions on the fragmentation products of protein assemblies that vary by mass, number of subunits, and protein structural features. Conditions are first established for the preservation of "native" protein quaternary structure and applied to previously characterized systems for proof-of-concept. Native mass spectrometry is subsequently combined with limited proteolysis experiments to characterize the subunit interface of a unique small heat shock protein, HSP18.5 fromArabidopsis thaliana, identifying regions of the protein essential for preservation of the native dimer. The dissociation of non-covalent protein assemblies is then explored on a quadrupole time-of-flight (Q-TOF) mass spectrometer, modified for the study of ion-surface collisions. This instrument allows ions to be dissociated through collisions with a surface or more conventional collisions with gas atoms. Activation of a protein complex with "n" subunits through multiple collisions with inert gas atoms results in asymmetric dissociation into a highly charged monomer and complementary (n-1)-mer regardless of protein size or subunit architecture. This process is known to occur through an unfolding of the ejected subunit, and limits the amount of structural insight that can be gleaned from such studies. Collision at a surface however, results in more charge and masssymmetric fragmentation, and in some instances reflects the substructure of the protein assembly under investigation. The differences observed between the CID and SID of protein complexes are attributed to the rapid deposition of large amounts of internal energy upon collision at a massive surface target, and reflect a dissociation process that precedes subunit unfolding. This provides access to dissociation pathways inaccessible by traditional means of activation. The fragmentation products observed by SID demonstrate promise for expanding the role of mass spectrometry in the field of structural biology.