NatF contributes to an evolutionary shift in protein N-terminal acetylation and is important for normal chromosome segregation
about
Identification and analysis of the acetylated status of poplar proteins reveals analogous N-terminal protein processing mechanisms with other eukaryotesThe human N-alpha-acetyltransferase 40 (hNaa40p/hNatD) is conserved from yeast and N-terminally acetylates histones H2A and H4N-Terminal Acetylation-Targeted N-End Rule Proteolytic System: The Ac/N-End Rule PathwayN-terminal modifications of cellular proteins: The enzymes involved, their substrate specificities and biological effectsThe DAF-16 FOXO transcription factor regulates natc-1 to modulate stress resistance in Caenorhabditis elegans, linking insulin/IGF-1 signaling to protein N-terminal acetylationN-Terminal Acetylation Acts as an Avidity Enhancer Within an Interconnected Multiprotein ComplexMolecular basis for N-terminal acetylation by the heterodimeric NatA complexImplications for the evolution of eukaryotic amino-terminal acetyltransferase (NAT) enzymes from the structure of an archaeal orthologN-terminal acetylome analysis reveals the specificity of Naa50 (Nat5) and suggests a kinetic competition between N-terminal acetyltransferases and methionine aminopeptidases.N-terminal acetylation by NatC is not a general determinant for substrate subcellular localization in Saccharomyces cerevisiaeProtein N-terminal acetyltransferases act as N-terminal propionyltransferases in vitro and in vivo.Proteomic Substrate Identification for Membrane Proteases in the BrainBiochemical and cellular analysis of Ogden syndrome reveals downstream Nt-acetylation defectsComparative large scale characterization of plant versus mammal proteins reveals similar and idiosyncratic N-α-acetylation featuresTop Down Proteomics Reveals Mature Proteoforms Expressed in Subcellular Fractions of the Echinococcus granulosus Preadult StageA Saccharomyces cerevisiae model reveals in vivo functional impairment of the Ogden syndrome N-terminal acetyltransferase NAA10 Ser37Pro mutantNew links between protein N-terminal acetylation, dauer diapause, and the insulin/IGF-1 signaling pathway in Caenorhabditis elegansCrystal Structure of the Golgi-Associated Human Nα-Acetyltransferase 60 Reveals the Molecular Determinants for Substrate-Specific AcetylationThe molecular basis for histone H4- and H2A-specific amino-terminal acetylation by NatDStructure and function of human Naa60 (NatF), a Golgi-localized bi-functional acetyltransferaseThe biological functions of Naa10 - From amino-terminal acetylation to human diseaseInfluence of glycosylation pattern on the molecular properties of monoclonal antibodies.Human Naa50 Protein Displays Broad Substrate Specificity for Amino-terminal Acetylation: DETAILED STRUCTURAL AND BIOCHEMICAL ANALYSIS USING TETRAPEPTIDE LIBRARY.The intrinsic disorder alphabet. III. Dual personality of serine.Granzyme M targets topoisomerase II alpha to trigger cell cycle arrest and caspase-dependent apoptosis.Naa50/San-dependent N-terminal acetylation of Scc1 is potentially important for sister chromatid cohesion.N-terminal proteomics and ribosome profiling provide a comprehensive view of the alternative translation initiation landscape in mice and menN-terminal Proteomics Assisted Profiling of the Unexplored Translation Initiation Landscape in Arabidopsis thalianaProtein N-terminal acetyltransferases in cancer.Human germline and pan-cancer variomes and their distinct functional profilesGolgi post-translational modifications and associated diseases.Specificity and versatility of substrate binding sites in four catalytic domains of human N-terminal acetyltransferases.N-terminal acetylome analyses and functional insights of the N-terminal acetyltransferase NatB.Molecular identification and functional characterization of the first Nα-acetyltransferase in plastids by global acetylome profiling.Absence of N-terminal acetyltransferase diversification during evolution of eukaryotic organisms.Control of mammalian G protein signaling by N-terminal acetylation and the N-end rule pathwayPositional proteomics reveals differences in N-terminal proteoform stability.Epigenetic alterations and an increased frequency of micronuclei in women with fibromyalgiaProteolytic post-translational modification of proteins: proteomic tools and methodology.Systems-level analysis of proteolytic events in increased vascular permeability and complement activation in skin inflammation
P2860
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P248
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P2860
NatF contributes to an evolutionary shift in protein N-terminal acetylation and is important for normal chromosome segregation
description
2011 nî lūn-bûn
@nan
2011 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
2011 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
name
NatF contributes to an evoluti ...... normal chromosome segregation
@ast
NatF contributes to an evoluti ...... normal chromosome segregation
@en
NatF contributes to an evoluti ...... normal chromosome segregation
@en-gb
NatF contributes to an evoluti ...... normal chromosome segregation
@nl
type
label
NatF contributes to an evoluti ...... normal chromosome segregation
@ast
NatF contributes to an evoluti ...... normal chromosome segregation
@en
NatF contributes to an evoluti ...... normal chromosome segregation
@en-gb
NatF contributes to an evoluti ...... normal chromosome segregation
@nl
altLabel
NatF Contributes to an Evoluti ...... Normal Chromosome Segregation
@en
prefLabel
NatF contributes to an evoluti ...... normal chromosome segregation
@ast
NatF contributes to an evoluti ...... normal chromosome segregation
@en
NatF contributes to an evoluti ...... normal chromosome segregation
@en-gb
NatF contributes to an evoluti ...... normal chromosome segregation
@nl
P2860
P50
P3181
P1433
P1476
NatF contributes to an evoluti ...... normal chromosome segregation
@en
P2093
Ana Pimenta-Marques
P2860
P304
P3181
P356
10.1371/JOURNAL.PGEN.1002169
P407
P50
P577
2011-07-01T00:00:00Z