review article | Q7318358 |
scholarly article | Q13442814 |
P2093 | author name string | Birgit Schilling | |
Alan J Wolfe | |||
Sean McSweeney | |||
Nathan Basisty | |||
James Byrnes | |||
Xueshu Xie | |||
David G Christensen | |||
P2860 | cites work | Characterization of five human cDNAs with homology to the yeast SIR2 gene: Sir2-like proteins (sirtuins) metabolize NAD and may have protein ADP-ribosyltransferase activity | Q22010164 |
Lysine glutarylation is a protein posttranslational modification regulated by SIRT5 | Q24293721 | ||
Sirt5 is a NAD-dependent protein lysine demalonylase and desuccinylase | Q24296766 | ||
SIRT5-mediated lysine desuccinylation impacts diverse metabolic pathways | Q24296915 | ||
The TAF(II)250 subunit of TFIID has histone acetyltransferase activity | Q24310327 | ||
A p300/CBP-associated factor that competes with the adenoviral oncoprotein E1A | Q24336667 | ||
The first identification of lysine malonylation substrates and its regulatory enzyme | Q24337617 | ||
A direct link between core histone acetylation and transcriptionally active chromatin | Q24563586 | ||
Structural basis for nicotinamide cleavage and ADP-ribose transfer by NAD(+)-dependent Sir2 histone/protein deacetylases | Q24564290 | ||
ACETYLATION AND METHYLATION OF HISTONES AND THEIR POSSIBLE ROLE IN THE REGULATION OF RNA SYNTHESIS | Q24629431 | ||
The acetyltransferase activity of the bacterial toxin YopJ of Yersinia is activated by eukaryotic host cell inositol hexakisphosphate | Q24632913 | ||
Chemistry and biology of reactive oxygen species in signaling or stress responses | Q24633682 | ||
Biosynthesis and metabolism of arginine in bacteria | Q24634435 | ||
Identification of 67 histone marks and histone lysine crotonylation as a new type of histone modification | Q24635918 | ||
Lysine acetylation: codified crosstalk with other posttranslational modifications | Q24644959 | ||
Catalytic mechanism of a MYST family histone acetyltransferase | Q24647275 | ||
Control of acetyl-coenzyme A synthetase (AcsA) activity by acetylation/deacetylation without NAD(+) involvement in Bacillus subtilis | Q24679458 | ||
Structure and Functional Diversity of GCN5-Related N-Acetyltransferases (GNAT) | Q26314426 | ||
Bacterial GCN5-Related N-Acetyltransferases: From Resistance to Regulation | Q26773344 | ||
Acylation of Biomolecules in Prokaryotes: a Widespread Strategy for the Control of Biological Function and Metabolic Stress | Q26801091 | ||
The functional diversity of protein lysine methylation | Q26853164 | ||
Mass spectrometry-based detection and assignment of protein posttranslational modifications | Q27001576 | ||
Protein lysine acetylation by p300/CBP | Q27021749 | ||
Succinylome analysis reveals the involvement of lysine succinylation in metabolism in pathogenic Mycobacterium tuberculosis | Q27311660 | ||
Solution structure of the catalytic domain of GCN5 histone acetyltransferase bound to coenzyme A | Q27618997 | ||
Crystal structure and mechanism of histone acetylation of the yeast GCN5 transcriptional coactivator | Q27619265 | ||
The catalytic mechanism of the ESA1 histone acetyltransferase involves a self-acetylated intermediate | Q27639749 | ||
Structure of a Sir2 substrate, Alba, reveals a mechanism for deacetylation-induced enhancement of DNA binding | Q27641130 | ||
The structural basis of protein acetylation by the p300/CBP transcriptional coactivator | Q27649849 | ||
Revisiting the structures of several antibiotics bound to the bacterial ribosome | Q27664704 | ||
Structure of a Ternary Naa50p (NAT5/SAN) N-terminal Acetyltransferase Complex Reveals the Molecular Basis for Substrate-specific Acetylation | Q27673397 | ||
Mycobacterium tuberculosis Eis protein initiates suppression of host immune responses by acetylation of DUSP16/MKP-7 | Q27678837 | ||
Structural, kinetic and proteomic characterization of acetyl phosphate-dependent bacterial protein acetylation | Q27683517 | ||
Homeostasis of N-α-terminal acetylation of EsxA correlates with virulence in Mycobacterium marinum | Q34596085 | ||
Quantitating the specificity and selectivity of Gcn5-mediated acetylation of histone H3. | Q34598080 | ||
Acetylome analysis reveals diverse functions of lysine acetylation in Mycobacterium tuberculosis | Q34634921 | ||
A complex transcription network controls the early stages of biofilm development by Escherichia coli | Q34696917 | ||
Control of protein function by reversible Nɛ-lysine acetylation in bacteria | Q34809835 | ||
Analysis of protein species differentiation among mycobacterial low-Mr-secreted proteins by narrow pH range Immobiline gel 2-DE-MALDI-MS. | Q34821734 | ||
Lysine succinylation is a frequently occurring modification in prokaryotes and eukaryotes and extensively overlaps with acetylation | Q34954115 | ||
Linking chromatin function with metabolic networks: Sir2 family of NAD(+)-dependent deacetylases | Q35040959 | ||
Characterization of O-acetylation of N-acetylglucosamine: a novel structural variation of bacterial peptidoglycan | Q35085058 | ||
The Lrp family of transcriptional regulators | Q35098855 | ||
The E. coli sirtuin CobB shows no preference for enzymatic and nonenzymatic lysine acetylation substrate sites | Q35106207 | ||
Protein carbonylation in human diseases | Q35119660 | ||
Overexpression and characterization of the chromosomal aminoglycoside 6'-N-acetyltransferase from Enterococcus faecium | Q35135819 | ||
Identification of 'erasers' for lysine crotonylated histone marks using a chemical proteomics approach | Q35173191 | ||
Acetylation regulates the stability of a bacterial protein: growth stage-dependent modification of RNase R. | Q35320756 | ||
Isolation and Characterization of Acetylated Derivative of Recombinant Insulin Lispro Produced in Escherichia coli | Q35558005 | ||
Identifying global regulators in transcriptional regulatory networks in bacteria | Q35565608 | ||
Cloning, characterization, and functional expression of acs, the gene which encodes acetyl coenzyme A synthetase in Escherichia coli | Q35586072 | ||
Structure, mechanism, and inhibition of histone deacetylases and related metalloenzymes | Q35597103 | ||
Changes in the Acetylome and Succinylome of Bacillus subtilis in Response to Carbon Source | Q35670351 | ||
Post-translational modification of RNase R is regulated by stress-dependent reduction in the acetylating enzyme Pka (YfiQ). | Q35682203 | ||
Intracellular crotonyl-CoA stimulates transcription through p300-catalyzed histone crotonylation | Q35848821 | ||
Acetyl-coenzyme A synthetase (AMP forming). | Q35865785 | ||
Stationary-phase physiology | Q35919834 | ||
System-wide studies of N-lysine acetylation in Rhodopseudomonas palustris reveal substrate specificity of protein acetyltransferases. | Q35939782 | ||
Acetylation of Lysine 201 Inhibits the DNA-Binding Ability of PhoP to Regulate Salmonella Virulence | Q35946161 | ||
The intracellular concentration of acetyl phosphate in Escherichia coli is sufficient for direct phosphorylation of two-component response regulators | Q35949195 | ||
Acetylation Regulates Survival of Salmonella enterica Serovar Typhimurium under Acid Stress | Q36000563 | ||
Mechanistic insights into the regulation of metabolic enzymes by acetylation | Q36135254 | ||
Serine/threonine acetylation of TGFβ-activated kinase (TAK1) by Yersinia pestis YopJ inhibits innate immune signaling | Q36140258 | ||
Calorie restriction and SIR2 genes--towards a mechanism | Q36154774 | ||
The Bacterial Two-Hybrid System Uncovers the Involvement of Acetylation in Regulating of Lrp Activity in Salmonella Typhimurium | Q36210860 | ||
Inhibition of acetyl phosphate-dependent transcription by an acetylatable lysine on RNA polymerase | Q36234801 | ||
Systematic Analysis of Mycobacterial Acylation Reveals First Example of Acylation-mediated Regulation of Enzyme Activity of a Bacterial Phosphatase | Q36283574 | ||
Sir2 and the acetyltransferase, Pat, regulate the archaeal chromatin protein, Alba | Q42653218 | ||
Protein acetylation dynamics in response to carbon overflow in Escherichia coli | Q42684891 | ||
Nε- and O-Acetylation in Mycobacterium tuberculosis Lineage 7 and Lineage 4 Strains: Proteins Involved in Bioenergetics, Virulence, and Antimicrobial Resistance Are Acetylated. | Q42691239 | ||
The RcsCDB signaling system and swarming motility in Salmonella enterica serovar typhimurium: dual regulation of flagellar and SPI-2 virulence genes | Q42910457 | ||
The presence of acetyl groups of histones | Q42957936 | ||
Acetylation represses the binding of CheY to its target proteins | Q43096475 | ||
Site-specific reactivity of nonenzymatic lysine acetylation | Q43113497 | ||
Acetylation dynamics and stoichiometry in Saccharomyces cerevisiae | Q43190780 | ||
Carbonylated proteins are detectable only in a degradation-resistant aggregate state in Escherichia coli. | Q43194846 | ||
Acetylation of the response regulator, CheY, is involved in bacterial chemotaxis | Q43612719 | ||
Chloramphenicol acetylation in Streptomyces | Q44393088 | ||
Sir2 regulation by nicotinamide results from switching between base exchange and deacetylation chemistry | Q44537505 | ||
Mechanism of Nicotinamide Inhibition and Transglycosidation by Sir2 Histone/Protein Deacetylases | Q44605209 | ||
Coenzyme specificity of Sir2 protein deacetylases: implications for physiological regulation | Q44989715 | ||
Lysine 2-hydroxyisobutyrylation is a widely distributed active histone mark | Q44998288 | ||
Reversibly acetylated lysine residues play important roles in the enzymatic activity of Escherichia coli N-hydroxyarylamine O-acetyltransferase | Q45376320 | ||
CobB1 deacetylase activity in Streptomyces coelicolor | Q45895655 | ||
Ancient Regulatory Role of Lysine Acetylation in Central Metabolism. | Q46267638 | ||
Protein acetylation involved in streptomycin biosynthesis in Streptomyces griseus. | Q46438893 | ||
Characterization of Protein Lysine Propionylation in Escherichia coli: Global Profiling, Dynamic Change, and Enzymatic Regulation | Q46465897 | ||
Acetate excretion during growth of Salmonella enterica on ethanolamine requires phosphotransacetylase (EutD) activity, and acetate recapture requires acetyl-CoA synthetase (Acs) and phosphotransacetylase (Pta) activities | Q46792500 | ||
Acetyl-lysine analog peptides as mechanistic probes of protein deacetylases | Q46939046 | ||
Characterization of CobB kinetics and inhibition by nicotinamide. | Q47140588 | ||
In Streptomyces lividans, acetyl-CoA synthetase activity is controlled by O-serine and Nε -lysine acetylation | Q47266049 | ||
An acetylatable lysine controls CRP function in E. coli. | Q47438884 | ||
Molecular evolution of the histone deacetylase family: functional implications of phylogenetic analysis. | Q47860803 | ||
Stress Reduction, Bacterial Style | Q48007074 | ||
Biochemical Characterization of the Lysine Acetylation of Tyrosyl-tRNA Synthetase in Escherichia coli. | Q48031442 | ||
Characterization of lysine acetylation of a phosphoenolpyruvate carboxylase involved in glutamate overproduction in Corynebacterium glutamicum. | Q48167779 | ||
Acetylation by Eis and Deacetylation by Rv1151c of Mycobacterium tuberculosis HupB: Biochemical and Structural Insight | Q48219174 | ||
Cloning and molecular characterization of the gene rimL which encodes an enzyme acetylating ribosomal protein L12 of Escherichia coli K12. | Q48295392 | ||
Lysine acetylation regulates the function of the global anaerobic transcription factor FnrL in Rhodobacter sphaeroides. | Q48316779 | ||
Bioinformatics analysis of a Saccharomyces cerevisiae N-terminal proteome provides evidence of alternative translation initiation and post-translational N-terminal acetylation | Q49059133 | ||
The Global Acetylome of the Human Pathogen Vibrio cholerae V52 Reveals Lysine Acetylation of Major Transcriptional Regulators | Q49627247 | ||
The lysine acetylome of the nematocidal bacterium Bacillus nematocida and impact of nematode on the acetylome | Q50096941 | ||
Crystal structure of a GCN5-related N-acetyltransferase: Serratia marcescens aminoglycoside 3-N-acetyltransferase | Q27765267 | ||
Lysine acetylation targets protein complexes and co-regulates major cellular functions | Q27860589 | ||
N-terminal acetyltransferases and sequence requirements for N-terminal acetylation of eukaryotic proteins | Q27932762 | ||
GCN5-related histone N-acetyltransferases belong to a diverse superfamily that includes the yeast SPT10 protein. | Q27933920 | ||
Short-chain fatty acid activation by acyl-coenzyme A synthetases requires SIR2 protein function in Salmonella enterica and Saccharomyces cerevisiae | Q27937522 | ||
Bacterial Proteasomes: Mechanistic and Functional Insights | Q28073414 | ||
The CBP co-activator is a histone acetyltransferase | Q28131758 | ||
Phylogenetic classification of prokaryotic and eukaryotic Sir2-like proteins | Q28139564 | ||
Inhibition of silencing and accelerated aging by nicotinamide, a putative negative regulator of yeast sir2 and human SIRT1 | Q28203762 | ||
Histone acetyltransferases: function, structure, and catalysis | Q28204852 | ||
Mechanism of sirtuin inhibition by nicotinamide: altering the NAD(+) cosubstrate specificity of a Sir2 enzyme | Q28240940 | ||
Steroid receptor coactivator-1 is a histone acetyltransferase | Q28248899 | ||
Substrate and functional diversity of lysine acetylation revealed by a proteomics survey | Q28258445 | ||
The Sir2 family of protein deacetylases | Q28266179 | ||
Acetylation of non-histone proteins modulates cellular signalling at multiple levels | Q28294575 | ||
Structure and functions of the GNAT superfamily of acetyltransferases | Q28296840 | ||
Nonenzymic acetylation of histones with acetyl phosphate and acetyl adenylate | Q28323293 | ||
Nε-lysine acetylation of a bacterial transcription factor inhibits Its DNA-binding activity | Q28476671 | ||
cAMP-regulated protein lysine acetylases in mycobacteria | Q28486865 | ||
Hypothetical protein Rv3423.1 of Mycobacterium tuberculosis is a histone acetyltransferase | Q28486913 | ||
Reversible acetylation and inactivation of Mycobacterium tuberculosis acetyl-CoA synthetase is dependent on cAMP | Q28487076 | ||
Biochemical and mutational analyses of AcuA, the acetyltransferase enzyme that controls the activity of the acetyl coenzyme a synthetase (AcsA) in Bacillus subtilis | Q28489006 | ||
In Bacillus subtilis, the sirtuin protein deacetylase, encoded by the srtN gene (formerly yhdZ), and functions encoded by the acuABC genes control the activity of acetyl coenzyme A synthetase | Q28489057 | ||
Acetylation of metabolic enzymes coordinates carbon source utilization and metabolic flux | Q29615102 | ||
The pathobiology of diabetic complications: a unifying mechanism | Q29617766 | ||
The Rpd3/Hda1 family of lysine deacetylases: from bacteria and yeast to mice and men | Q29619117 | ||
GCN5-related N-acetyltransferases: a structural overview | Q29619219 | ||
Acetylation and deacetylation of non-histone proteins | Q29619636 | ||
Acetylome with structural mapping reveals the significance of lysine acetylation in Thermus thermophilus. | Q30352487 | ||
Molecular crowding inhibits intramolecular breathing motions in proteins. | Q30366034 | ||
Sir2-dependent activation of acetyl-CoA synthetase by deacetylation of active lysine | Q30876890 | ||
Identification of the protein acetyltransferase (Pat) enzyme that acetylates acetyl-CoA synthetase in Salmonella enterica | Q31088928 | ||
Quantification of Lysine Acetylation and Succinylation Stoichiometry in Proteins Using Mass Spectrometric Data-Independent Acquisitions (SWATH) | Q31126463 | ||
Pantothenate transport in Escherichia coli | Q36305756 | ||
Rationally evolving tRNAPyl for efficient incorporation of noncanonical amino acids | Q36370877 | ||
The bioenergetic costs of a gene | Q36419833 | ||
Optimized two-dimensional thin layer chromatography to monitor the intracellular concentration of acetyl phosphate and other small phosphorylated molecules | Q36508998 | ||
Mechanisms of Resistance to Aminoglycoside Antibiotics: Overview and Perspectives | Q36575916 | ||
Altered acetylation and succinylation profiles in Corynebacterium glutamicum in response to conditions inducing glutamate overproduction | Q36618856 | ||
Reversible acetylation on Lys501 regulates the activity of RNase II | Q36701131 | ||
Histone deacetylases--an important class of cellular regulators with a variety of functions | Q36766483 | ||
A newly discovered post-translational modification--the acetylation of serine and threonine residues | Q36782470 | ||
Sirtuin-dependent reversible lysine acetylation of glutamine synthetases reveals an autofeedback loop in nitrogen metabolism | Q37021817 | ||
Molecular genetics of aminoglycoside resistance genes and familial relationships of the aminoglycoside-modifying enzymes. | Q37058913 | ||
Lysine acetylation is a highly abundant and evolutionarily conserved modification in Escherichia coli | Q37080670 | ||
A Salmonella Toxin Promotes Persister Formation through Acetylation of tRNA | Q37089276 | ||
Acetylation of the response regulator RcsB controls transcription from a small RNA promoter | Q37125410 | ||
Acetylation of an NB-LRR Plant Immune-Effector Complex Suppresses Immunity | Q37140436 | ||
Reversible lysine acetylation is involved in DNA replication initiation by regulating activities of initiator DnaA in Escherichia coli | Q37147957 | ||
Post-translational Serine/Threonine Phosphorylation and Lysine Acetylation: A Novel Regulatory Aspect of the Global Nitrogen Response Regulator GlnR in S. coelicolor M145. | Q37160425 | ||
Reversible acetylation regulates acetate and propionate metabolism in Mycobacterium smegmatis | Q37197388 | ||
Mechanism and regulation of mycobactin fatty acyl-AMP ligase FadD33 | Q37201260 | ||
Widespread and enzyme-independent Nε-acetylation and Nε-succinylation of proteins in the chemical conditions of the mitochondrial matrix | Q37213892 | ||
Protein acetylation microarray reveals that NuA4 controls key metabolic target regulating gluconeogenesis | Q37227239 | ||
Identification of lysine succinylation substrates and the succinylation regulatory enzyme CobB in Escherichia coli | Q37388964 | ||
Structural basis for sirtuin function: what we know and what we don't | Q37600333 | ||
Stationary phase in gram-negative bacteria. | Q37710717 | ||
Modulation of Central Carbon Metabolism by Acetylation of Isocitrate Lyase in Mycobacterium tuberculosis | Q37713072 | ||
Comprehensive lysine acetylomes emerging from bacteria to humans | Q37809385 | ||
The YopJ superfamily in plant-associated bacteria. | Q37897282 | ||
Protein acetylation affects acetate metabolism, motility and acid stress response in Escherichia coli | Q38302162 | ||
Regulation of a Protein Acetyltransferase in Myxococcus xanthus by the Coenzyme NADP. | Q38386655 | ||
Proteome-wide lysine acetylation profiling of the human pathogen Mycobacterium tuberculosis | Q38469698 | ||
The diversity of lysine-acetylated proteins in Escherichia coli | Q38498432 | ||
Involvement of protein acetylation in glucose-induced transcription of a stress-responsive promoter | Q38570214 | ||
Identification and characterization of two types of amino acid-regulated acetyltransferases in actinobacteria. | Q38679639 | ||
Regulation, Function, and Detection of Protein Acetylation in Bacteria | Q38691364 | ||
Chemical studies of histone acetylation. The distribution of epsilon-N-acetyllysine in calf thymus histones | Q72231807 | ||
Enzymatic phosphorylation of acetate | Q73688095 | ||
Catalytic mechanism and function of invariant glutamic acid 173 from the histone acetyltransferase GCN5 transcriptional coactivator | Q77895379 | ||
The chemotaxis response regulator CheY can catalyze its own acetylation | Q83186324 | ||
Lysine Succinylation and Acetylation in Pseudomonas aeruginosa | Q88708560 | ||
Characterization of the Lysine Acylomes and the Substrates Regulated by Protein Acyltransferase in Mycobacterium smegmatis | Q88812085 | ||
A Putative Acetylation System in Vibrio cholerae Modulates Virulence in Arthropod Hosts | Q91132178 | ||
Role of Acetyltransferase PG1842 in Gingipain Biogenesis in Porphyromonas gingivalis | Q91700672 | ||
Global Lysine Acetylation in Escherichia coli Results from Growth Conditions That Favor Acetate Fermentation | Q91723665 | ||
YfmK is an Nε-lysine acetyltransferase that directly acetylates the histone-like protein HBsu in Bacillus subtilis | Q91943209 | ||
Protein acetylation on 2-isopropylmalate synthase from Thermus thermophilus HB27 | Q92663239 | ||
Studying the Lysine Acetylation of Malate Dehydrogenase. | Q50664922 | ||
Acetyl-phosphate is a critical determinant of lysine acetylation in E. coli. | Q50855757 | ||
Acetylation of lysine ϵ-amino groups regulates aminoacyl-tRNA synthetase activity in Escherichia coli. | Q51028344 | ||
Acetyl-CoA synthetases of Saccharopolyspora erythraea are regulated by the nitrogen response regulator GlnR at both transcriptional and post-translational levels. | Q51075060 | ||
Accurate Quantification of Site-specific Acetylation Stoichiometry Reveals the Impact of Sirtuin Deacetylase CobB on the E. coli Acetylome. | Q51114432 | ||
Proteome and acylome analyses of the functional interaction network between the carbazole-degradative plasmid pCAR1 and host Pseudomonas putida KT2440. | Q52638780 | ||
Protein acetylation and butyrylation regulate the phenotype and metabolic shifts of the endospore-forming Clostridium acetobutylicum. | Q52727532 | ||
Protein Acetylation Mediated by YfiQ and CobB Is Involved in the Virulence and Stress Response of Yersinia pestis. | Q53699174 | ||
Proteomic characterization of Nα- and Nε-acetylation in Acinetobacter baumannii. | Q53784143 | ||
Biochemical Basis of E. coli Topoisomerase I Relaxation Activity Reduction by Nonenzymatic Lysine Acetylation. | Q54202685 | ||
Lysine acetylation of the Mycobacterium tuberculosis HU protein modulates its DNA binding and genome organization. | Q54252132 | ||
Lysine acetylation of DosR regulates the hypoxia response of Mycobacterium tuberculosis. | Q54252287 | ||
cAMP-CRP co-ordinates the expression of the protein acetylation pathway with central metabolism in Escherichia coli. | Q54349343 | ||
Acetylation of lysine 182 inhibits the ability of Mycobacterium tuberculosis DosR to bind DNA and regulate gene expression during hypoxia. | Q55174955 | ||
Quantification of Site-specific Protein Lysine Acetylation and Succinylation Stoichiometry Using Data-independent Acquisition Mass Spectrometry. | Q55289516 | ||
Posttranslational modification of a histone-like protein regulates phenotypic resistance to isoniazid in mycobacteria. | Q55399825 | ||
Post-translational regulation of a Porphyromonas gingivalis regulator. | Q55454391 | ||
Lysine Acetylation Regulates Alanyl-tRNA Synthetase Activity in | Q57066430 | ||
Global Profiling of Lysine Acetylation in B31 Reveals Its Role in Central Metabolism | Q57166487 | ||
Newly Identified Nucleoid-Associated-Like Protein YlxR Regulates Metabolic Gene Expression in Bacillus subtilis | Q57793433 | ||
Identification of Novel Protein Lysine Acetyltransferases in Escherichia coli | Q57798560 | ||
First acetyl-proteome profiling of Salmonella Typhimurium revealed involvement of lysine acetylation in drug resistance | Q58580006 | ||
Dynamic changes in lysine acetylation and succinylation of the elongation factor Tu in Bacillus subtilis | Q58611294 | ||
Simultaneous Quantification of the Acetylome and Succinylome by 'One-Pot' Affinity Enrichment | Q58765881 | ||
Protein lysine acetylation plays a regulatory role in Bacillus subtilis multicellularity | Q59126458 | ||
Perturbing the acetylation status of the Type IV pilus retraction motor, PilT, reduces Neisseria gonorrhoeae viability | Q60955757 | ||
Mechanisms, Detection, and Relevance of Protein Acetylation in Prokaryotes | Q64064341 | ||
Effect of specific growth rate and glucose concentration on growth and glucose metabolism of Escherichia coli K-12 | Q67504359 | ||
Protein dynamics investigated by neutron diffraction | Q69647564 | ||
Chemical studies of histone acetylation. The occurrence of epsilon-N-acetyllysine in the f2a1 histone | Q72111740 | ||
Site-Specific Quantification of Lysine Acetylation Using Isotopic Labeling | Q38718785 | ||
Mycobacterium tuberculosis EIS gene inhibits macrophage autophagy through up-regulation of IL-10 by increasing the acetylation of histone H3. | Q38778222 | ||
The acetylation motif in AMP-forming Acyl coenzyme A synthetases contains residues critical for acetylation and recognition by the protein acetyltransferase pat of Rhodopseudomonas palustris | Q38850956 | ||
YopJ Family Effectors Promote Bacterial Infection through a Unique Acetyltransferase Activity | Q38991950 | ||
Non-enzymatic molecular damage as a prototypic driver of aging | Q39164374 | ||
The Enzymic Interconversion of Acetate and Acetyl-coenzyme A in Escherichia coli | Q39172690 | ||
Protein Acetylation and Its Role in Bacterial Virulence | Q39277764 | ||
Suppression of a cold-sensitive mutation in ribosomal protein S5 reveals a role for RimJ in ribosome biogenesis | Q39597324 | ||
Profiling of N-acetylated protein termini provides in-depth insights into the N-terminal nature of the proteome | Q39754008 | ||
Role of protein degradation in the survival of carbon-starved Escherichia coli and Salmonella typhimurium | Q39967918 | ||
Protein Acetylation Is Involved in Salmonella enterica Serovar Typhimurium Virulence | Q40062098 | ||
Levels of nicotinamide adenine dinucleotide and reduced nicotinamide adenine dinucleotide in facultative bacteria and the effect of oxygen | Q40117982 | ||
Acetylation regulates protein stability and DNA-binding ability of HilD to modulate Salmonella Typhimurium virulence | Q40283672 | ||
Are growth rates of Escherichia coli in batch cultures limited by respiration? | Q40337707 | ||
Post-translational Acetylation of MbtA Modulates Mycobacterial Siderophore Biosynthesis. | Q40561516 | ||
Lysine acetylation regulates the activity of Escherichia coli S-adenosylmethionine synthase | Q40649176 | ||
The Protein Acetyltransferase PatZ from Escherichia coli Is Regulated by Autoacetylation-induced Oligomerization | Q40649350 | ||
Cyclic AMP-dependent protein lysine acylation in mycobacteria regulates fatty acid and propionate metabolism. | Q40775945 | ||
R factor-mediated aminoglycoside antibiotic resistance in Pseudomonas aeruginosa: a new aminoglycoside 6'-N-acetyltransferase | Q40944201 | ||
CobB regulates Escherichia coli chemotaxis by deacetylating the response regulator CheY. | Q40960311 | ||
Bacterial resistance to aminoglycoside antibiotics | Q41522159 | ||
Glucose transport in Escherichia coli mutant strains with defects in sugar transport systems | Q41584238 | ||
Deacetylation of topoisomerase I is an important physiological function of E. coli CobB. | Q41693951 | ||
Characterization of N-terminal protein modifications in Pseudomonas aeruginosa PA14. | Q41738036 | ||
Temporal Regulation of the Bacillus subtilis Acetylome and Evidence for a Role of MreB Acetylation in Cell Wall Growth. | Q41771084 | ||
Protein acetylation in prokaryotes increases stress resistance | Q41811914 | ||
Alternate deacylating specificities of the archaeal sirtuins Sir2Af1 and Sir2Af2. | Q41827709 | ||
Acetoacetyl-CoA synthetase activity is controlled by a protein acetyltransferase with unique domain organization in Streptomyces lividans | Q42094089 | ||
Discovery and characterization of Ku acetylation in Mycobacterium smegmatis | Q42155250 | ||
Increasing Growth Yield and Decreasing Acetylation in Escherichia coli by Optimizing the Carbon-to-Magnesium Ratio in Peptide-Based Media | Q42318691 | ||
Glucose Induces ECF Sigma Factor Genes, sigX and sigM, Independent of Cognate Anti-sigma Factors through Acetylation of CshA in Bacillus subtilis | Q42362552 | ||
The conservation and evolutionary modularity of metabolism | Q42641021 | ||
Thermoregulation of the pap operon: evidence for the involvement of RimJ, the N-terminal acetylase of ribosomal protein S5 | Q31163628 | ||
CFP10 discriminates between nonacetylated and acetylated ESAT-6 of Mycobacterium tuberculosis by differential interaction | Q33206993 | ||
N-lysine propionylation controls the activity of propionyl-CoA synthetase | Q33293490 | ||
The MYST histone acetyltransferases are essential for gametophyte development in Arabidopsis | Q33387982 | ||
Large-scale analysis of post-translational modifications in E. coli under glucose-limiting conditions | Q33568235 | ||
Acetylation of Lysine 243 Inhibits the oriC Binding Ability of DnaA in Escherichia coli | Q33580927 | ||
Structure of the yeast histone acetyltransferase Hat1: insights into substrate specificity and implications for the Gcn5-related N-acetyltransferase superfamily | Q33671528 | ||
A Toxin Involved in Salmonella Persistence Regulates Its Activity by Acetylating Its Cognate Antitoxin, a Modification Reversed by CobB Sirtuin Deacetylase | Q33741257 | ||
Physiologically relevant small phosphodonors link metabolism to signal transduction | Q33762035 | ||
Acetylation of acetyl-CoA synthetase from Mycobacterium tuberculosis leads to specific inactivation of the adenylation reaction | Q33789797 | ||
Identification and characterization of AckA-dependent protein acetylation in Neisseria gonorrhoeae | Q33842204 | ||
Integration of antagonistic signals in the regulation of nitrogen assimilation in Escherichia coli | Q33937091 | ||
Stoichiometry of site-specific lysine acetylation in an entire proteome. | Q33985251 | ||
Lysine propionylation and butyrylation are novel post-translational modifications in histones | Q34027794 | ||
Reversible N epsilon-lysine acetylation regulates the activity of acyl-CoA synthetases involved in anaerobic benzoate catabolism in Rhodopseudomonas palustris. | Q34033583 | ||
A method to determine lysine acetylation stoichiometries. | Q34037910 | ||
Acetyl coenzyme A synthetase is acetylated on multiple lysine residues by a protein acetyltransferase with a single Gcn5-type N-acetyltransferase (GNAT) domain in Saccharopolyspora erythraea | Q34056727 | ||
Proteomic identification of carbonylated proteins and their oxidation sites | Q34118916 | ||
Identification of lysine succinylation as a new post-translational modification | Q34154612 | ||
Inhibition of histone deacetylase activity by butyrate | Q34211186 | ||
Allosteric regulation of a protein acetyltransferase in Micromonospora aurantiaca by the amino acids cysteine and arginine | Q34245053 | ||
Nutritional immunity: transition metals at the pathogen-host interface | Q34288184 | ||
Biologically Active Isoforms of CobB Sirtuin Deacetylase in Salmonella enterica and Erwinia amylovora | Q34309358 | ||
The N-acetyltransferase RimJ responds to environmental stimuli to repress pap fimbrial transcription in Escherichia coli | Q34316444 | ||
Activation of the protein deacetylase SIRT6 by long-chain fatty acids and widespread deacylation by mammalian sirtuins | Q34372400 | ||
The emerging therapeutic potential of sirtuin-interacting drugs: from cell death to lifespan extension | Q34389466 | ||
Instability ofackA(Acetate Kinase) Mutations and Their Effects on Acetyl Phosphate and ATP Amounts inStreptococcus pneumoniaeD39 | Q34433442 | ||
Structure of histone deacetylases: insights into substrate recognition and catalysis | Q34459769 | ||
Yersinia YopJ acetylates and inhibits kinase activation by blocking phosphorylation | Q34530978 | ||
Cloning and nucleotide sequencing of the genes rimI and rimJ which encode enzymes acetylating ribosomal proteins S18 and S5 of Escherichia coli K12. | Q34553172 | ||
P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
P6216 | copyright status | copyrighted | Q50423863 |
P304 | page(s) | 1604 | |
P577 | publication date | 2019-07-12 | |
P1433 | published in | Frontiers in Microbiology | Q27723481 |
P1476 | title | Post-translational Protein Acetylation: An Elegant Mechanism for Bacteria to Dynamically Regulate Metabolic Functions | |
P478 | volume | 10 |
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