Mitochondrial Function, Part B

<p>Defining the Mitochondrial Proteome<br>1. Method to define the mammalian mitochondrial proteome; V. Mootha<br>2. Proteome Characterization of Mouse Brain Mitochondria Using Electrospray Ionization Tandem Mass Spectrometry; X.Fang and C. S. Lee <br>3. Method to analyze tissue heterogeneity of the mammalian mitochondrial proteome; R. S. Balaban <br>4. Predicting proteomes of mitochondria and related organelles from genomic and expressed sequence tag data; D. Gaston, A. Tsausis and A. Roger <br>5. MitoP2: the mitochondrial proteome database; H. Prokisch <br><br>Post-Translational Modifications of Mitochondrial Proteins<br>6. Reversible protein acetylation in mitochondria; E. Verdin<br>7.Post-translational modifications of rat liver mitochondria outer membrane proteins' C. L. Hoppel<br>8.Characterization of a novel ser/thr protein phosphatase in mitochondria; Y. Wang <br>9. R. Rizzuto <br>10.Selective enrichment in phosphopeptides for the identification of phosphorylated mitochondrial proteins; G. Pocsfalvi <br>11. Isolation of Regulatory-competent, Phosphorylated Cytochrome c and Cytochrome c Oxidase; M. Hüttemann <br>12. Identification of tyrosine phosphorylated proteins by Src kinases in rat brain; M. Salvi <br>13. Detection of a mitochondrial kinase complex that mediates an ERK-dependent phosphorylation of mitochondrial protein in steroid biosynthesis; E. J. Podestá <br>14. Dual specific phosphatases 18 and 21 target to opposing sides of the mitochondrial inner membrane; J. Rardin & J. E. Dixon <br>15.M. A. Kostiuk and B. O. Keller: “Isolation and identification of palmitoylated proteins in mitochondria using a chemical biology approach; L. G. Berthiaume <br><br>Mitochondrial Dynamics <br>16.Mitochondrial fusion and movement using photoactivatable GFP; O. Shirihai <br>17. Regulation of mitochondrial fission and fusion by kinase and phosphatase activities. no title yet; S. Strack <br>18. Mitochondrial movement and synaptic function in Drosophila; T. L. Schwarz <br>19. The use of yeast and a novel biosensor to study mitochondrial ion transport, swelling, and mitophagy; R. J. Scheweyen <br>20.Complete Exchange of mtDNA’s between Mouse Cells for Testing the Effects of mtDNA on Tumor Phenotypes; J. Hayashi<br><br>Mitochondrial Function in Pancreatic Beta Cells<br>21. Coupling efficiency INS-1E cells; M. D. Brand and C. Affourtit <br>22. Methods in the study of substrate-specific differences on mitochondrial function mediating insulin secretion from pancreatic beta cells; B. E. Corkey <br>23. Knocking down of UCP 2 in animal models of obesity; L. A.Velloso<br>24.Roles of the cytosolic and mitochondrial forms of the malic enzyme on insulin secretion; G. W. Cline<br>25. Altered regulation of the PINK1 locus as a link between type 2 diabetes and neurodegeneration; J. A. Timmons <br>26. Insulin secretion from pancreatic beta cells is affected deletion of the nicotinamide nucleotide transhydrogenase; R. D. Cox<br>27. Determination of oxidative capacity and mitochondrial function in insulin resistance and type 2 diabetes; G. Shulman et al <br>28.Mitochondrial ATP production rate; K. S. Nair </p>