Title page for ETD etd-04152010-143128

Type of Document Dissertation
Author Redbird, Ruth Ann
Author's Email Address redbird@vt.edu
URN etd-04152010-143128
Title Identification of a protein kinase substrate in Sulfolobus solfataricus P2
Degree PhD
Department Biochemistry
Advisory Committee
Advisor Name Title
Kennelly, Peter J. Committee Chair
Helm, Richard Frederick Committee Member
Mahaney, James M. Committee Member
Prater, Mary Renee Committee Member
  • Archaea
  • ATP Synthase
  • phosphorylation
  • protein kinase
Date of Defense 2010-04-01
Availability unrestricted
Living organisms rely on many different mechanisms to adapt to changes within their environment. Protein phosphorylation and dephosphorylation events are one such way cells can communicate to generate a response to environmental changes. In the Kennelly laboratory we hope to gain insight on phosphorylation events in the domain Archaea through the study of the acidothermophilic organism Sulfolobus solfataricus. Such findings may provide answers into evolutionary relationships and facilitate an understanding of phosphate transfer via proteins in more elaborate systems where pathway disturbances can lead to disease processes.

A λ-phage expression library was generated from S. solfataricus genomic DNA. The immobilized expression products were probed with a purified protein kinase, SsoPK4, and radiolabeled ATP to identify potential native substrates. A protein fragment of the ORF sso0563, the catalytic A-type ATPase subunit A (AtpA), was phosphorylated by SsoPK4. Full length and truncated forms of AtpA were overexpressed in E. coli. Additional subunits of the ATPase were also overexpressed and ATPase activity reconstituted in vitro. Phosphoamino acid analysis and MS identified the phosphorylation sites on AtpA. Several variants of AtpA were derived via site-directed mutagenesis and assayed for ATPase activity. Chemical cross-linking was employed to determine possible ATPase subunit interactions; tryptic digests of AtpA and its mutant variants were performed to examine protein folding. The phosphorylated-mimic variant of AtpA, T98D, resulted in an inactive ATPase complex as determined by ATPase activity assays and native-PAGE indicating potential phosphoregulation by SsoPK4 on enzyme activity. Ultimately, any findings would need verification with in vivo studies.

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