The mitochondrial lysine acetylome of Arabidopsis.

[1]  A. Brennicke,et al.  The life of plant mitochondrial complex I. , 2014, Mitochondrion.

[2]  J. Thelen,et al.  Initial description of the developing soybean seed protein Lys-N(ε)-acetylome. , 2014, Journal of proteomics.

[3]  M. Mann,et al.  The Arabidopsis Class II Sirtuin Is a Lysine Deacetylase and Interacts with Mitochondrial Energy Metabolism1[C][W][OPEN] , 2014, Plant Physiology.

[4]  G. R. Wagner,et al.  Widespread and Enzyme-independent Nϵ-Acetylation and Nϵ-Succinylation of Proteins in the Chemical Conditions of the Mitochondrial Matrix*♦ , 2013, The Journal of Biological Chemistry.

[5]  Wang Wang,et al.  Mitochondrial complex I deficiency increases protein acetylation and accelerates heart failure. , 2013, Cell metabolism.

[6]  Chunaram Choudhary,et al.  Acetyl-phosphate is a critical determinant of lysine acetylation in E. coli. , 2013, Molecular cell.

[7]  M. Westphall,et al.  Quantification of Mitochondrial Acetylation Dynamics Highlights Prominent Sites of Metabolic Regulation* , 2013, The Journal of Biological Chemistry.

[8]  I. Finkemeier,et al.  Mitochondrial energy and redox signaling in plants. , 2013, Antioxidants & redox signaling.

[9]  Sean D. Mooney,et al.  Label-free quantitative proteomics of the lysine acetylome in mitochondria identifies substrates of SIRT3 in metabolic pathways , 2013, Proceedings of the National Academy of Sciences.

[10]  Ian R. Castleden,et al.  SUBA3: a database for integrating experimentation and prediction to define the SUBcellular location of proteins in Arabidopsis , 2012, Nucleic Acids Res..

[11]  I. Finkemeier,et al.  Plant mitochondrial retrograde signaling: post-translational modifications enter the stage , 2012, Front. Plant Sci..

[12]  A. Millar,et al.  Mitochondrial composition, function and stress response in plants. , 2012, Journal of integrative plant biology.

[13]  E. Verdin,et al.  Mitochondrial Protein Acylation and Intermediary Metabolism: Regulation by Sirtuins and Implications for Metabolic Disease* , 2012, The Journal of Biological Chemistry.

[14]  F. Satterstrom,et al.  From Sirtuin Biology to Human Diseases: An Update* , 2012, The Journal of Biological Chemistry.

[15]  M. Fricker,et al.  Mitochondrial 'flashes': a radical concept repHined. , 2012, Trends in cell biology.

[16]  Dorte B. Bekker-Jensen,et al.  Proteomic Analysis of Lysine Acetylation Sites in Rat Tissues Reveals Organ Specificity and Subcellular Patterns , 2012, Cell reports.

[17]  Chunaram Choudhary,et al.  Proteome-wide Analysis of Lysine Acetylation Suggests its Broad Regulatory Scope in Saccharomyces cerevisiae* , 2012, Molecular & Cellular Proteomics.

[18]  Jay J Thelen,et al.  Modulation of Protein Phosphorylation, N-Glycosylation and Lys-Acetylation in Grape (Vitis vinifera) Mesocarp and Exocarp Owing to Lobesia botrana Infection* , 2012, Molecular & Cellular Proteomics.

[19]  Y. Poirier,et al.  The protein acetylome and the regulation of metabolism. , 2012, Trends in plant science.

[20]  I. Scott,et al.  Identification of a molecular component of the mitochondrial acetyltransferase programme: a novel role for GCN5L1. , 2012, The Biochemical journal.

[21]  Johan Auwerx,et al.  Sirtuins as regulators of metabolism and healthspan , 2012, Nature Reviews Molecular Cell Biology.

[22]  L. Sweetlove,et al.  The impact of impaired mitochondrial function on retrograde signalling: a meta-analysis of transcriptomic responses. , 2012, Journal of experimental botany.

[23]  H. Braun,et al.  Defining the Protein Complex Proteome of Plant Mitochondria1[W] , 2011, Plant Physiology.

[24]  Chunaram Choudhary,et al.  Proteome-Wide Mapping of the Drosophila Acetylome Demonstrates a High Degree of Conservation of Lysine Acetylation , 2011, Science Signaling.

[25]  L. Miguet,et al.  Proteins of Diverse Function and Subcellular Location Are Lysine Acetylated in Arabidopsis1[W][OA] , 2011, Plant Physiology.

[26]  Mayandi Sivaguru,et al.  Lysine Acetylation Is a Widespread Protein Modification for Diverse Proteins in Arabidopsis1[C][W][OA] , 2011, Plant Physiology.

[27]  A. Fernie,et al.  Not just a circle: flux modes in the plant TCA cycle. , 2010, Trends in plant science.

[28]  Yixue Li,et al.  Regulation of Cellular Metabolism by Protein Lysine Acetylation , 2010, Science.

[29]  Guo-Ping Zhao,et al.  Acetylation of Metabolic Enzymes Coordinates Carbon Source Utilization and Metabolic Flux , 2010, Science.

[30]  Matthias Mann,et al.  Combination of FASP and StageTip-based fractionation allows in-depth analysis of the hippocampal membrane proteome. , 2009, Journal of proteome research.

[31]  K. Gevaert,et al.  Improved visualization of protein consensus sequences by iceLogo , 2009, Nature Methods.

[32]  M. Mann,et al.  Lysine Acetylation Targets Protein Complexes and Co-Regulates Major Cellular Functions , 2009, Science.

[33]  M. Mann,et al.  MaxQuant enables high peptide identification rates, individualized p.p.b.-range mass accuracies and proteome-wide protein quantification , 2008, Nature Biotechnology.

[34]  E. Seto,et al.  Lysine acetylation: codified crosstalk with other posttranslational modifications. , 2008, Molecular cell.

[35]  M. Lehmann,et al.  Decrease in Manganese Superoxide Dismutase Leads to Reduced Root Growth and Affects Tricarboxylic Acid Cycle Flux and Mitochondrial Redox Homeostasis1[C][W] , 2008, Plant Physiology.

[36]  A. Fernie,et al.  The Mitochondrion: An Integration Point of Cellular Metabolism and Signalling , 2007 .

[37]  N. Grishin,et al.  Substrate and functional diversity of lysine acetylation revealed by a proteomics survey. , 2006, Molecular cell.

[38]  E. Boekema,et al.  Carbonic Anhydrase Subunits Form a Matrix-exposed Domain Attached to the Membrane Arm of Mitochondrial Complex I in Plants* , 2006, Journal of Biological Chemistry.

[39]  H. Braun,et al.  Disruption of a nuclear gene encoding a mitochondrial gamma carbonic anhydrase reduces complex I and supercomplex I + III2 levels and alters mitochondrial physiology in Arabidopsis. , 2005, Journal of molecular biology.

[40]  L. Sweetlove,et al.  The Mitochondrial Type II Peroxiredoxin F Is Essential for Redox Homeostasis and Root Growth of Arabidopsis thaliana under Stress* , 2005, Journal of Biological Chemistry.

[41]  Eve Syrkin Wurtele,et al.  Reverse Genetic Characterization of Cytosolic Acetyl-CoA Generation by ATP-Citrate Lyase in Arabidopsisw⃞ , 2005, The Plant Cell Online.

[42]  L. Guarente,et al.  The Sir2 family of protein deacetylases. , 2004, Annual review of biochemistry.

[43]  S. Rhee,et al.  MAPMAN: a user-driven tool to display genomics data sets onto diagrams of metabolic pathways and other biological processes. , 2004, The Plant journal : for cell and molecular biology.

[44]  D. Randall,et al.  Regulation of pyruvate dehydrogenase complex activity in plant cells. , 2003, European journal of biochemistry.

[45]  R. Cole,et al.  Sir2-Dependent Activation of Acetyl-CoA Synthetase by Deacetylation of Active Lysine , 2002, Science.

[46]  Eve Syrkin Wurtele,et al.  Molecular Characterization of a Heteromeric ATP-Citrate Lyase That Generates Cytosolic Acetyl-Coenzyme A in Arabidopsis1,212 , 2002, Plant Physiology.

[47]  Isabella Pisano,et al.  Identification of a Novel Transporter for Dicarboxylates and Tricarboxylates in Plant Mitochondria , 2002, The Journal of Biological Chemistry.

[48]  H. Braun,et al.  Proteomic approach to identify novel mitochondrial proteins in Arabidopsis. , 2001, Plant physiology.

[49]  D. Randall,et al.  Some kinetic and regulatory properties of the pea mitochondrial pyruvate dehydrogenase complex. , 1987, Plant physiology.

[50]  V. Allfrey,et al.  Chemical Studies of Histone Acetylation THE OCCURRENCE OF ε-N-ACETYLLYSINE IN THE f2a1 HISTONE , 1968 .

[51]  D. Leister,et al.  Redox regulation of Arabidopsis mitochondrial citrate synthase. , 2014, Molecular plant.

[52]  Yu-Ting Wu,et al.  Regulation of mitochondrial F(o)F(1)ATPase activity by Sirt3-catalyzed deacetylation and its deficiency in human cells harboring 4977bp deletion of mitochondrial DNA. , 2013, Biochimica et biophysica acta.

[53]  G. R. Wagner,et al.  WIDESPREAD AND ENZYMEINDEPENDENT N EPSILON-ACETYLATION AND N?-SUCCINYLATION OF PROTEINS IN THE CHEMICAL CONDITIONS OF THE MITOCHONDRIAL MATRIX , 2013 .

[54]  M. Mann,et al.  Protocol for micro-purification, enrichment, pre-fractionation and storage of peptides for proteomics using StageTips , 2007, Nature Protocols.

[55]  A. Millar,et al.  The plant mitochondrial proteome. , 2005, Trends in plant science.

[56]  V. Allfrey,et al.  Chemical studies of histone acetylation. The occurrence of epsilon-N-acetyllysine in the f2a1 histone. , 1968, The Journal of biological chemistry.