Proteomics and protein activity profiling: an investigation into the salivary proteome and kinase activities in various systems using mass spectrometry
dc.contributor.advisor
Barran, Perdita
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dc.contributor.advisor
Rappsilber, Juri
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dc.contributor.advisor
Campopiano, Dominic
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dc.contributor.advisor
Tasker, Peter
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dc.contributor.author
McAllister, Fiona E.
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dc.date.accessioned
2011-02-08T15:28:17Z
dc.date.available
2011-02-08T15:28:17Z
dc.date.issued
2010
dc.description.abstract
Protein identification and quantitation using mass spectrometry has evolved as the dominant technique
for studying the protein complement of a system: cell, tissue or organism. The proteomics of body
fluids is a very active research area as there is great potential for protein biomarker discovery;
application of such technologies would revolutionise medical practice and treatment. Saliva, through
its non intrusive nature of sampling, is an ideal body fluid for disease diagnosis, screening and
monitoring. Gingivitis is a gum disease with symptoms including bleeding, swollen, and receding
gums. After dental decay, gingivitis is estimated to be the most common disease worldwide, and
around 40% of the population in the US are reported to have gingivitis. The end point goal of this
project was to identify salivary biomarkers for gingivitis.
This dissertation presents an investigation of: 1) the salivary proteome; 2) developments and
applications of a mass spectrometry kinase assay; and 3) salivary biomarkers for gingivitis using
proteomics and kinase activities.
The soluble portion of the human salivary proteome (saliva supernatant) has been studied by several
research groups but very few proteomic studies have been performed on the insoluble, cellular and
bacterial portion of saliva. Presented here, is the first global proteomics study performed on the saliva
residue and supernatant from the same test subject. A total of 834 and 1426 proteins were identified
in the saliva supernatant and residue, respectively. A global analysis of protein complexes in saliva
was also performed and is the first study, to date, of such an analysis. KAYAK (‘Kinase ActivitY
Assay for Kinome analysis’) was further developed for its application on a number of cell types, tissue
types, and a variety of organisms. Proof of concept work for in-gel kinase activity/kinase abundance
correlation profiling using blue native gels was performed, and experiments using anion exchange
chromatographic kinase activity/kinase abundance correlation profiling were performed to identify
kinase-substrate pairs. KAYAK applications included the analysis of kinase activities in
Saccharomyces cervisiae, Drosophila, mouse, and human saliva in which significant kinase activity
was detected in the saliva supernatant, a novel finding. Finally, gingivitis was induced in patients, and
the saliva samples were analysed using proteomics and kinase activity profiling. Although this work is
ongoing, preliminary data indicate that there are increases in various inflammatory proteins, certain
bacteria and also in the activity of particular kinases as a result of the induction of gingivitis.
The overall study provided insights into the salivary proteome for both the human and bacterial
complement, as well as discovering the presence of significant kinase activity in saliva. In the induced
gingivitis study, almost half of all the proteins identified in the residue were from bacteria (1274
bacterial proteins, 198 species identified) and there may be more potential for biomarker discovery for
certain diseases in the saliva residue than in the supernatant. A very large overlap was observed
between the human proteins in the saliva supernatant and residue, indicating that many of the salivary
proteins originate from lysed cells. The origin of the kinase activity in the saliva supernatant is not
known but is also proposed to originate predominantly from lysed cells. A range of novel KAYAK
applications have been investigated, demonstrating that KAYAK has a wide variety of future uses
ranging from target compound evaluation in Pharmaceutical companies to patient testing in the clinic.
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dc.identifier.uri
http://hdl.handle.net/1842/4780
dc.language.iso
en
dc.publisher
The University of Edinburgh
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dc.relation.hasversion
Chaperone-mediated pathway of proteasome regulatory particle assembly. Roelofs, J., Park, S., Haas, W., Tian, G., McAllister, F. E., Huo, Y., Lee, B., Zhang, F., Shi., Y., Gygi, S. P., Finley., D. Nature 459, 861-865 (2009).
en
dc.relation.hasversion
Prokayrotic ubiquitin-like protein (Pup) proteome of Mycobacterium tuberculosis. Festa, R., McAllister, F. E., Pearce, M. J., Minstseris., Burns, K. E., Gygi, S. P. PLoS One, 5, e8589 (2010).
en
dc.relation.hasversion
Supramolecular chemistry in metal recovery; H-bond buttressing to tune extractant strength. Forgan, R. S., Wood, P. A., Campbell, J., Henderson, D. K., McAllister, F. E., Parsons, S., Pidcock, E., Swart, R. M., Tasker, P. A. Chemical Communications, 46, 4940-4942 (2007).
en
dc.relation.hasversion
Collision induced dissociation (CID) to probe the outer sphere coordination chemistry of bissalicylaldoximate complexes. Roach, B. D., Forgan, R. S., Tasker, P. A., Swart, R. M., Campbell, J., McAllister, F. E., Duncombe, B. J., Dalton Transactions, 39, 5614-5616 (2010).
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dc.subject
saliva
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dc.subject
kinase activity
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dc.subject
mass spectrometry
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dc.subject
gingivitis
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dc.subject
periodontitis
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dc.subject
biomarkers
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dc.subject
KAYAK
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dc.subject
proteomics
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dc.title
Proteomics and protein activity profiling: an investigation into the salivary proteome and kinase activities in various systems using mass spectrometry
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dc.type
Thesis or Dissertation
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dc.type.qualificationlevel
Doctoral
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dc.type.qualificationname
PhD Doctor of Philosophy
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