| scholarly article | Q13442814 |
| P2093 | author name string | Yue Chen | |
| Yingming Zhao | |||
| Shanhai Xie | |||
| Sung Chan Kim | |||
| Yingda Xu | |||
| Jaeick Lee | |||
| Robert Sprung | |||
| P2860 | cites work | Immunoaffinity profiling of tyrosine phosphorylation in cancer cells | Q21735929 |
| Scansite 2.0: Proteome-wide prediction of cell signaling interactions using short sequence motifs | Q24671990 | ||
| Substrate and functional diversity of lysine acetylation revealed by a proteomics survey | Q28258445 | ||
| Quantitative phosphoproteome analysis using a dendrimer conjugation chemistry and tandem mass spectrometry | Q28266730 | ||
| Phosphoproteomic analysis of the developing mouse brain | Q28280338 | ||
| Consensus sequences as substrate specificity determinants for protein kinases and protein phosphatases | Q29617542 | ||
| Phosphoproteome analysis by mass spectrometry and its application to Saccharomyces cerevisiae | Q29618445 | ||
| Protein identification using sequential ion/ion reactions and tandem mass spectrometry | Q30437234 | ||
| Immobilized gallium(III) affinity chromatography of phosphopeptides | Q30744823 | ||
| Rapid accumulation of Akt in mitochondria following phosphatidylinositol 3-kinase activation | Q31034955 | ||
| Open tubular immobilized metal ion affinity chromatography combined with MALDI MS and MS/MS for identification of protein phosphorylation sites | Q31093905 | ||
| Specificity of immobilized metal affinity-based IMAC/C18 tip enrichment of phosphopeptides for protein phosphorylation analysis | Q33221653 | ||
| Comprehensive identification of phosphorylation sites in postsynaptic density preparations | Q33232861 | ||
| Regulation of pyruvate dehydrogenase complex activity by reversible phosphorylation | Q34279293 | ||
| Tyrosine phosphoproteomics of fibroblast growth factor signaling: a role for insulin receptor substrate-4. | Q34341785 | ||
| 14-3-3 protein is a regulator of the mitochondrial and chloroplast ATP synthase | Q35062365 | ||
| Kinase signaling cascades in the mitochondrion: a matter of life or death. | Q35979108 | ||
| Mitochondrial modulation: reversible phosphorylation takes center stage? | Q36335633 | ||
| Identification of novel phosphorylation sites on Xenopus laevis Aurora A and analysis of phosphopeptide enrichment by immobilized metal-affinity chromatography | Q40571912 | ||
| Translocation of protein kinase C isoforms to subcellular targets in ischemic and anesthetic preconditioning | Q44491581 | ||
| Improved beta-elimination-based affinity purification strategy for enrichment of phosphopeptides | Q44689393 | ||
| Quantitative phosphoproteomics applied to the yeast pheromone signaling pathway | Q45234630 | ||
| Integrated approach for manual evaluation of peptides identified by searching protein sequence databases with tandem mass spectra. | Q51435922 | ||
| Large-scale Analysis ofin VivoPhosphorylated Membrane Proteins by Immobilized Metal Ion Affinity Chromatography and Mass Spectrometry | Q58082931 | ||
| Mapping the phosphorylation sites of proteins using on-line immobilized metal affinity chromatography/capillary electrophoresis/electrospray ionization multiple stage tandem mass spectrometry | Q74229445 | ||
| P433 | issue | 4 | |
| P304 | page(s) | 669-676 | |
| P577 | publication date | 2007-01-05 | |
| P1433 | published in | Molecular & Cellular Proteomics | Q6895932 |
| P1476 | title | Mitochondrial phosphoproteome revealed by an improved IMAC method and MS/MS/MS. | |
| P478 | volume | 6 |
| Q36423097 | A quantitative map of the liver mitochondrial phosphoproteome reveals posttranslational control of ketogenesis |
| Q53116343 | Automated immobilized metal affinity chromatography system for enrichment of Escherichia coli phosphoproteome. |
| Q33364696 | Automated neutral loss and data dependent energy resolved "pseudo MS3" for the targeted identification, characterization and quantitative analysis of methionine- containing peptides |
| Q38211427 | CaMKII and stress mix it up in mitochondria |
| Q36312517 | Cardiac mitochondrial matrix and respiratory complex protein phosphorylation |
| Q37827835 | Catch me if you can: mass spectrometry-based phosphoproteomics and quantification strategies. |
| Q33826618 | Characterization, design, and function of the mitochondrial proteome: from organs to organisms |
| Q33481063 | Combinatorial peptide ligand libraries for urine proteome analysis: investigation of different elution systems |
| Q42718093 | Diesel and biodiesels induce hepatic palmitoyl-CoA oxidase enzymatic activity through different molecular mechanisms in rats |
| Q35189096 | Discovering and validating unknown phospho-sites from p38 and HuR protein kinases in vitro by Phosphoproteomic and Bioinformatic tools |
| Q26998674 | Enrichment techniques employed in phosphoproteomics |
| Q21283878 | Evolution of a family of metazoan active-site-serine enzymes from penicillin-binding proteins: a novel facet of the bacterial legacy |
| Q35006547 | Evolutionary constraints of phosphorylation in eukaryotes, prokaryotes, and mitochondria |
| Q38124926 | From inventory to functional mechanisms: regulation of the mitochondrial protein import machinery by phosphorylation |
| Q52938620 | Gadolinium oxide: Exclusive selectivity and sensitivity in the enrichment of phosphorylated biomolecules. |
| Q46709147 | Identification of new tyrosine phosphorylated proteins in rat brain mitochondria |
| Q28740435 | Identification of phosphoproteins as possible differentiation markers in all-trans-retinoic acid-treated neuroblastoma cells |
| Q46903489 | Identification of the flavoprotein of succinate dehydrogenase and aconitase as in vitro mitochondrial substrates of Fgr tyrosine kinase |
| Q34688615 | Importance of manual validation for the identification of phosphopeptides using a linear ion trap mass spectrometer. |
| Q29871523 | LACTB is a tumour suppressor that modulates lipid metabolism and cell state |
| Q43260808 | Lyn-mediated mitochondrial tyrosine phosphorylation is required to preserve mitochondrial integrity in early liver regeneration |
| Q39781478 | MS/MS/MS reveals false positive identification of histone serine methylation |
| Q37763932 | Mammalian mitochondrial proteomics: insights into mitochondrial functions and mitochondria-related diseases |
| Q42011798 | Microgels for efficient protein purification |
| Q39309879 | Mitochondrial c-Src regulates cell survival through phosphorylation of respiratory chain components |
| Q37003099 | Mitochondrial membrane potential in axons increases with local nerve growth factor or semaphorin signaling |
| Q37781692 | Mitochondrial protein import: from proteomics to functional mechanisms |
| Q46455120 | Mitochondrial reactive oxygen species suppress humoral immune response through reduction of CD19 expression in B cells in mice |
| Q24628360 | Modification-specific proteomics: strategies for characterization of post-translational modifications using enrichment techniques |
| Q35995732 | Perspectives on: SGP symposium on mitochondrial physiology and medicine: mitochondrial proteome design: from molecular identity to pathophysiological regulation |
| Q24299408 | Phosphoproteome analysis of functional mitochondria isolated from resting human muscle reveals extensive phosphorylation of inner membrane protein complexes and enzymes |
| Q34551789 | Phosphoproteome analysis reveals regulatory sites in major pathways of cardiac mitochondria |
| Q50163959 | Phosphoproteomic Analysis of Isolated Mitochondria in Yeast |
| Q43665646 | Phosphoproteomic analysis of chromoplasts from sweet orange during fruit ripening |
| Q34511275 | Phosphoproteomics characterization of novel phosphorylated sites of lens proteins from normal and cataractous human eye lenses |
| Q33605268 | Phosphoproteomics for the masses |
| Q38979162 | Phosphorylation of flotillin-1 by mitochondrial c-Src is required to prevent the production of reactive oxygen species |
| Q36935610 | Phosphorylation-specific MS/MS scoring for rapid and accurate phosphoproteome analysis |
| Q37462424 | Post-translational modifications of ATP synthase in the heart: biology and function |
| Q37799815 | Post-translational modifications of mitochondrial outer membrane proteins |
| Q37082375 | Potassium channel phosphorylation in excitable cells: providing dynamic functional variability to a diverse family of ion channels |
| Q34985530 | Preparation and loading buffer study of polyvinyl alcohol-based immobilized Ti4+ affinity chromatography for phosphopeptide enrichment |
| Q33597948 | Proteome, phosphoproteome, and hydroxyproteome of liver mitochondria in diabetic rats at early pathogenic stages |
| Q37400627 | Quantitative mitochondrial phosphoproteomics using iTRAQ on an LTQ-Orbitrap with high energy collision dissociation |
| Q36353769 | Quantitative proteomic analysis of Niemann-Pick disease, type C1 cerebellum identifies protein biomarkers and provides pathological insight |
| Q33401313 | Recent advances in capillary and microfluidic platforms with MS detection for the analysis of phosphoproteins |
| Q35903712 | Role of mitochondrial Ca2+ in the regulation of cellular energetics |
| Q46019698 | Selective enrichment in phosphopeptides for the identification of phosphorylated mitochondrial proteins. |
| Q37835773 | Tandem mass spectrometry strategies for phosphoproteome analysis. |
| Q27930571 | The phosphatase Ptc7 induces coenzyme Q biosynthesis by activating the hydroxylase Coq7 in yeast. |
| Q34296542 | Toward quantitative phosphotyrosine profiling in vivo. |
| Q39076595 | Traditional and novel tools to probe the mitochondrial metabolism in health and disease |
| Q35225791 | Use of (32)P to study dynamics of the mitochondrial phosphoproteome |
| Q37961554 | VDAC proteomics: post-translation modifications |
Search more.