scholarly article | Q13442814 |
P50 | author | Matthias Mann | Q110686 |
Eric Lander | Q970550 | ||
Vamsi Mootha | Q7913059 | ||
Jakob Bunkenborg | Q42638603 | ||
Michael Kamal | Q114324962 | ||
Nick Patterson | Q29014620 | ||
Jesper V. Olsen | Q37382807 | ||
P2093 | author name string | Majbrit Hjerrild | |
Smita Sihag | |||
Erich Stahl | |||
Heta N. Ray | |||
Jacek R. Wisniewski | |||
Marjan S. Bolouri | |||
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P433 | issue | 5 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | mitochondrion | Q39572 |
P304 | page(s) | 629–640 | |
P577 | publication date | 2003-11-26 | |
P1433 | published in | Cell | Q655814 |
P1476 | title | Integrated analysis of protein composition, tissue diversity, and gene regulation in mouse mitochondria | |
P478 | volume | 115 |
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Q38611276 | Overexpression of LACTB, a Mitochondrial Protein, that Inhibits Proliferation and Invasion in Glioma Cells |
Q37388790 | Overexpression of vascular endothelial growth factor-B in mouse heart alters cardiac lipid metabolism and induces myocardial hypertrophy |
Q37113905 | PEPPeR, a platform for experimental proteomic pattern recognition. |
Q24541524 | PGC-1 coactivators: inducible regulators of energy metabolism in health and disease |
Q37189947 | PGC-1alpha and ERRalpha target gene downregulation is a signature of the failing human heart |
Q88734778 | POST: A framework for set-based association analysis in high-dimensional data |
Q34551857 | Parallel proteomics to improve coverage and confidence in the partially annotated Oryctolagus cuniculus mitochondrial proteome |
Q58697033 | Parvalbumin alters mitochondrial dynamics and affects cell morphology |
Q27303723 | Pathways disrupted in human ALS motor neurons identified through genetic correction of mutant SOD1. |
Q35995732 | Perspectives on: SGP symposium on mitochondrial physiology and medicine: mitochondrial proteome design: from molecular identity to pathophysiological regulation |
Q37497833 | Pharmacological approaches to restore mitochondrial function |
Q47624828 | Pharmacoproteomic investigation into antidepressant response in two mouse inbred strains |
Q34551789 | Phosphoproteome analysis reveals regulatory sites in major pathways of cardiac mitochondria |
Q43585502 | Pituitary and plasma growth hormone dynamics during sexual maturation of female Atlantic salmon. |
Q38336923 | Portrait of transcriptional responses to ultraviolet and ionizing radiation in human cells |
Q44763146 | Post-translational modifications of mitochondrial outer membrane proteins |
Q28565292 | Post-translational modifications of rat liver mitochondrial outer membrane proteins identified by mass spectrometry |
Q41903719 | Prodeath signaling of G protein-coupled receptor kinase 2 in cardiac myocytes after ischemic stress occurs via extracellular signal-regulated kinase-dependent heat shock protein 90-mediated mitochondrial targeting |
Q34636507 | Protein degradation within mitochondria: versatile activities of AAA proteases and other peptidases |
Q43097124 | Protein sets define disease states and predict in vivo effects of drug treatment |
Q47849601 | Proteome characterization of mouse brain mitochondria using electrospray ionization tandem mass spectrometry |
Q37415308 | Proteome profile of functional mitochondria from human skeletal muscle using one-dimensional gel electrophoresis and HPLC-ESI-MS/MS. |
Q33597948 | Proteome, phosphoproteome, and hydroxyproteome of liver mitochondria in diabetic rats at early pathogenic stages |
Q34706579 | Proteomic Profiling of Mitochondrial Enzymes during Skeletal Muscle Aging |
Q28730678 | Proteomic analysis of mitochondria in APOE transgenic mice and in response to an ischemic challenge |
Q42065903 | Proteomic analysis of mitochondrial protein turnover: identification of novel substrate proteins of the matrix protease pim1. |
Q42260339 | Proteomic analysis of the mitochondria from embryonic and postnatal rat brains reveals response to developmental changes in energy demands |
Q27937249 | Proteomic analysis of the yeast mitochondrial outer membrane reveals accumulation of a subclass of preproteins |
Q34111137 | Proteomic approaches to identify and characterize alterations to the mitochondrial proteome in alcoholic liver disease |
Q33204250 | Proteomic characterization of postmortem amyloid plaques isolated by laser capture microdissection |
Q37256593 | Proteomic insights into cardiac cell death and survival |
Q45246469 | Proteomic mapping of brain plasma membrane proteins. |
Q37347220 | Proteomic strategies in multiple sclerosis and its animal models |
Q33799381 | Proteomic survey towards the tissue-specific proteins of mouse mitochondria |
Q37106704 | Proteomic view of mitochondrial function |
Q33940880 | Proteomics and mass spectrometry: what have we learned about the heart? |
Q35758816 | Proteomics in postgenomic neuroscience: the end of the beginning. |
Q37697953 | Proteomics of a fuzzy organelle: interphase chromatin |
Q36289104 | Proteomics of organelles and large cellular structures |
Q38732352 | Proteomics profiling of interactome dynamics by colocalisation analysis (COLA). |
Q36491992 | Proteomics-based development of biomarkers in cardiovascular disease: mechanistic, clinical, and therapeutic insights |
Q33872666 | Pseudoscaffolds and anchoring proteins: the difference is in the details |
Q57372800 | Quantitative Proteomic Comparison of Rat Mitochondria from Muscle, Heart, and Liver |
Q38494142 | Quantitative and qualitative 2D electrophoretic analysis of differentially expressed mitochondrial proteins from five mouse organs |
Q28570464 | Quantitative organellar proteomics analysis of rough endoplasmic reticulum from normal and acute pancreatitis rat pancreas |
Q33893342 | Quantitative proteomic analysis of mitochondria in aging PS-1 transgenic mice |
Q31119076 | Rationale and study design of the CardioGene Study: genomics of in-stent restenosis. |
Q33649846 | Redox regulation of cell survival by the thioredoxin superfamily: an implication of redox gene therapy in the heart |
Q26849213 | Redox regulation of mitochondrial biogenesis |
Q33208704 | Regulating cell survival by controlling cellular energy production: novel functions for ancient signaling pathways? |
Q90639050 | Regulation of Energy Metabolism during Early B Lymphocyte Development |
Q45984129 | Regulation of mitochondrial biogenesis in erythropoiesis by mTORC1-mediated protein translation. |
Q35994285 | Regulation of oxidative phosphorylation complex activity: effects of tissue-specific metabolic stress within an allometric series and acute changes in workload |
Q45126779 | Renal medullary gene expression in aquaporin-1 null mice |
Q35227454 | Repercussion of Mitochondria Deformity Induced by Anti-Hsp90 Drug 17AAG in Human Tumor Cells |
Q86894025 | Reply from Arend Bonen, Hideo Hatta, Graham P. Holloway, Lawrence L. Spriet and Yuko Yoshida |
Q41849375 | Resistance to high-fat diet-induced obesity and insulin resistance in mice with very long-chain acyl-CoA dehydrogenase deficiency |
Q57987777 | Riboflavin-responsive oxidative phosphorylation complex I deficiency caused by defective ACAD9: new function for an old gene |
Q50143077 | Role of Astrocytic Mitochondria in Limiting Ischemic Brain Injury? |
Q37763723 | Roles of mitochondria in human disease |
Q38917412 | Roles of mitophagy in cellular physiology and development |
Q28235481 | SIRT1 functionally interacts with the metabolic regulator and transcriptional coactivator PGC-1{alpha} |
Q38615281 | SIRT7 antagonizes TGF-β signaling and inhibits breast cancer metastasis |
Q26785352 | SOD1 misplacing and mitochondrial dysfunction in amyotrophic lateral sclerosis pathogenesis |
Q24658445 | Scale-free flow of life: on the biology, economics, and physics of the cell |
Q36499141 | Selective association of misfolded ALS-linked mutant SOD1 with the cytoplasmic face of mitochondria. |
Q48061457 | Sequence variants in four candidate genes (NIPSNAP1, GBAS, CHCHD1 and METT11D1) in patients with combined oxidative phosphorylation system deficiencies |
Q34469566 | Several novel nuclear envelope transmembrane proteins identified in skeletal muscle have cytoskeletal associations |
Q35192248 | Single muscle fiber proteomics reveals unexpected mitochondrial specialization |
Q36128733 | Skeletal muscle mitochondria and aging: a review |
Q33365467 | Small-molecule inhibitors of phosphatidylcholine transfer protein/StarD2 identified by high-throughput screening |
Q34454859 | Specialized compartments of cardiac nuclei exhibit distinct proteomic anatomy |
Q35605960 | Status of complete proteome analysis by mass spectrometry: SILAC labeled yeast as a model system |
Q34056304 | Strain-dependent host transcriptional responses to Toxoplasma infection are largely conserved in mammalian and avian hosts |
Q37809824 | Subcellular fractionation methods and strategies for proteomics |
Q34854612 | System analysis shows distinct mechanisms and common principles of nuclear envelope protein dynamics |
Q24652925 | Systematic characterization of the murine mitochondrial proteome using functionally validated cardiac mitochondria |
Q34508388 | Systematic identification of human mitochondrial disease genes through integrative genomics |
Q37030590 | Systematic screens for human disease genes, from yeast to human and back |
Q26862121 | Systems vaccinology: a promise for the young and the poor |
Q34115304 | Targeting mitochondria for cancer therapy |
Q67237431 | Temperature sensitivity of cardiac mitochondria in intertidal and subtidal triplefin fishes |
Q47928678 | Temporal and spatial profiling of nuclei-associated proteins upon TNF-alpha/NF-kappaB signaling. |
Q37377094 | Temporal proteomic analysis of HIV infection reveals remodelling of the host phosphoproteome by lentiviral Vif variants |
Q33769230 | The AAA+ ATPase ATAD3A controls mitochondrial dynamics at the interface of the inner and outer membranes. |
Q34599534 | The AAA+ protein ATAD3 has displacement loop binding properties and is involved in mitochondrial nucleoid organization. |
Q34344848 | The ABC's (and XYZ's) of peptide sequencing |
Q41056656 | The Involvement of Mg2+ in Regulation of Cellular and Mitochondrial Functions |
Q35427460 | The Mitochondrial Proteome and Human Disease |
Q34879429 | The Mitoscriptome in Aging and Disease. |
Q36793759 | The Role of SIRT3 in Mediating Cardioprotective Effects of RAS Inhibition on Cardiac Ischemia-Reperfusion. |
Q37764798 | The approaches for manipulating mitochondrial proteome |
Q28509052 | The endoplasmic reticulum enzyme DGAT2 is found in mitochondria-associated membranes and has a mitochondrial targeting signal that promotes its association with mitochondria |
Q24564869 | The estrogen-related receptor alpha (ERRalpha) functions in PPARgamma coactivator 1alpha (PGC-1alpha)-induced mitochondrial biogenesis |
Q37760219 | The estrogen-related receptor alpha: the oldest, yet an energetic orphan with robust biological functions |
Q37978000 | The estrogen-related receptors: orphans orchestrating myriad functions |
Q34028677 | The fourth mammalian molybdenum enzyme mARC: current state of research |
Q24307187 | The import of the transcription factor STAT3 into mitochondria depends on GRIM-19, a component of the electron transport chain |
Q35006984 | The leukocyte nuclear envelope proteome varies with cell activation and contains novel transmembrane proteins that affect genome architecture |
Q38271482 | The mammalian molybdenum enzymes of mARC. |
Q47849627 | The mitochondrial proteome database: MitoP2. |
Q35532033 | The mitochondrial proteome: a dynamic functional program in tissues and disease states |
Q57299043 | The mitochondrial unfolded protein response and mitohormesis: a perspective on metabolic diseases |
Q36448569 | The nuclear envelope proteome differs notably between tissues |
Q37116129 | The revolution and evolution of shotgun proteomics for large-scale proteome analysis |
Q36899560 | The role of mitochondria from mature oocyte to viable blastocyst |
Q36003367 | The role of mitochondria in the pathogenesis of type 2 diabetes |
Q33275295 | The role of mitochondrial DNA mutations in mammalian aging |
Q46931449 | The vegetative vacuole proteome of Arabidopsis thaliana reveals predicted and unexpected proteins |
Q34905070 | Thioesterase superfamily member 2 (Them2)/acyl-CoA thioesterase 13 (Acot13): a homotetrameric hotdog fold thioesterase with selectivity for long-chain fatty acyl-CoAs |
Q48439191 | Tissue heterogeneity of the mammalian mitochondrial proteome. |
Q37586979 | Tissue specificity in the nuclear envelope supports its functional complexity. |
Q80285905 | Tissue subcellular fractionation and protein extraction for use in mass-spectrometry-based proteomics |
Q54328647 | Tissue-specific control of mitochondrial respiration in obesity-related insulin resistance and diabetes. |
Q36444696 | Tissue-specific implications of mitochondrial alterations in aging |
Q37317428 | Tissue-specific remodeling of the mitochondrial proteome in type 1 diabetic akita mice. |
Q21134044 | Tissue-specific strategies of the very-long chain acyl-CoA dehydrogenase-deficient (VLCAD-/-) mouse to compensate a defective fatty acid β-oxidation |
Q47802996 | Tom70 enhances mitochondrial preprotein import efficiency by binding to internal targeting sequences. |
Q31070217 | Too much data, but little inter-changeability: a lesson learned from mining public data on tissue specificity of gene expression |
Q28068146 | Touch and go: nuclear proteolysis in the regulation of metabolic genes and cancer |
Q34415734 | Toward predictive models of mammalian cells |
Q36673479 | Towards defining the nuclear proteome |
Q35973576 | Toxicoproteomics: proteomics applied to toxicology and pathology |
Q33314652 | Transcriptional co-expression and co-regulation of genes coding for components of the oxidative phosphorylation system |
Q37977719 | Transcriptional control of mitochondrial biogenesis and its interface with inflammatory processes |
Q36269609 | Transcriptome-wide co-expression analysis identifies LRRC2 as a novel mediator of mitochondrial and cardiac function. |
Q40422477 | Tumor necrosis factor alpha inhibits oxidative phosphorylation through tyrosine phosphorylation at subunit I of cytochrome c oxidase |
Q33632616 | Tumor suppressor p53 and estrogen receptors in nuclear-mitochondrial communication |
Q36031963 | Ultrastructure of Placenta of Gravidas with Gestational Diabetes Mellitus |
Q46555941 | Use of selective extraction and fast chromatographic separation combined with electrophoretic methods for mapping of membrane proteins |
Q37644376 | VEGF-B-induced vascular growth leads to metabolic reprogramming and ischemia resistance in the heart. |
Q38845489 | Vamsi Mootha: taking an inventory of mitochondria. Interview by Hema Bashyam |
Q42036779 | Variable and tissue-specific subunit composition of mitochondrial m-AAA protease complexes linked to hereditary spastic paraplegia |
Q24622333 | Variations in DNA elucidate molecular networks that cause disease |
Q27003400 | Vascular endothelial growth factor-B in physiology and disease |
Q34187849 | What can we learn about cardioprotection from the cardiac mitochondrial proteome? |
Q37408572 | cAMP and mitochondria |
Q91678543 | mitoXplorer, a visual data mining platform to systematically analyze and visualize mitochondrial expression dynamics and mutations |
Q33819250 | p53 and mitochondrial function in neurons |
Q38077665 | α-Synuclein and mitochondrial dysfunction in Parkinson's disease |
Q35160064 | β-Adrenergic receptor blockade blunts postexercise skeletal muscle mitochondrial protein synthesis rates in humans |
Q38634775 | β-Hydroxy-β-methylbutyrate, mitochondrial biogenesis, and skeletal muscle health. |
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