Primary Literature
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- Woo H, et al. (2024) N-terminal acetylation of Set1-COMPASS fine-tunes H3K4 methylation patterns. Sci Adv 10(28):eadl6280 PMID: 38996018
- Knorr AG, et al. (2023) The dynamic architecture of Map1- and NatB-ribosome complexes coordinates the sequential modifications of nascent polypeptide chains. PLoS Biol 21(4):e3001995 PMID: 37079644
- Friedrich UA, et al. (2021) N<sup>α</sup>-terminal acetylation of proteins by NatA and NatB serves distinct physiological roles in Saccharomyces cerevisiae. Cell Rep 34(5):108711 PMID: 33535049
- Croft T, et al. (2020) N-terminal protein acetylation by NatB modulates the levels of Nmnats, the NAD<sup>+</sup> biosynthetic enzymes in <i>Saccharomyces cerevisiae</i>. J Biol Chem 295(21):7362-7375 PMID: 32299909
- Grunwald S, et al. (2020) Divergent architecture of the heterotrimeric NatC complex explains N-terminal acetylation of cognate substrates. Nat Commun 11(1):5506 PMID: 33139728
- Lasa M, et al. (2020) Maturation of NAA20 Aminoterminal End Is Essential to Assemble NatB N-Terminal Acetyltransferase Complex. J Mol Biol 432(22):5889-5901 PMID: 32976911
- Croft T, et al. (2018) A functional link between NAD<sup>+</sup> homeostasis and N-terminal protein acetylation in <i>Saccharomyces cerevisiae</i>. J Biol Chem 293(8):2927-2938 PMID: 29317496
- Goris M, et al. (2018) Structural determinants and cellular environment define processed actin as the sole substrate of the N-terminal acetyltransferase NAA80. Proc Natl Acad Sci U S A 115(17):4405-4410 PMID: 29581307
- Rovere M, et al. (2018) pTSara-NatB, an improved N-terminal acetylation system for recombinant protein expression in E. coli. PLoS One 13(7):e0198715 PMID: 29995905
- Yasuda K, et al. (2015) Mdm20 Modulates Actin Remodeling through the mTORC2 Pathway via Its Effect on Rictor Expression. PLoS One 10(11):e0142943 PMID: 26600389
- Mathiasen DP, et al. (2013) Physical mapping and cloning of RAD56. Gene 519(1):182-6 PMID: 23403232
- Zattas D, et al. (2013) N-terminal acetylation of the yeast Derlin Der1 is essential for Hrd1 ubiquitin-ligase activity toward luminal ER substrates. Mol Biol Cell 24(7):890-900 PMID: 23363603
- Van Damme P, et al. (2012) N-terminal acetylome analyses and functional insights of the N-terminal acetyltransferase NatB. Proc Natl Acad Sci U S A 109(31):12449-54 PMID: 22814378
- Helbig AO, et al. (2010) Perturbation of the yeast N-acetyltransferase NatB induces elevation of protein phosphorylation levels. BMC Genomics 11:685 PMID: 21126336
- Evjenth R, et al. (2009) Human Naa50p (Nat5/San) displays both protein N alpha- and N epsilon-acetyltransferase activity. J Biol Chem 284(45):31122-9 PMID: 19744929
- Pezza JA, et al. (2009) The NatA acetyltransferase couples Sup35 prion complexes to the [PSI+] phenotype. Mol Biol Cell 20(3):1068-80 PMID: 19073888
- Ametzazurra A, et al. (2008) Implication of human N-alpha-acetyltransferase 5 in cellular proliferation and carcinogenesis. Oncogene 27(58):7296-306 PMID: 18794801
- Starheim KK, et al. (2008) Identification of the human N(alpha)-acetyltransferase complex B (hNatB): a complex important for cell-cycle progression. Biochem J 415(2):325-31 PMID: 18570629
- Caesar R, et al. (2006) Physiological importance and identification of novel targets for the N-terminal acetyltransferase NatB. Eukaryot Cell 5(2):368-78 PMID: 16467477
- Dihazi H, et al. (2005) Lysine 3 acetylation regulates the phosphorylation of yeast 6-phosphofructo-2-kinase under hypo-osmotic stress. Biol Chem 386(9):895-900 PMID: 16164414
- Caesar R and Blomberg A (2004) The stress-induced Tfs1p requires NatB-mediated acetylation to inhibit carboxypeptidase Y and to regulate the protein kinase A pathway. J Biol Chem 279(37):38532-43 PMID: 15229224
- Kimura Y, et al. (2003) N-Terminal modifications of the 19S regulatory particle subunits of the yeast proteasome. Arch Biochem Biophys 409(2):341-8 PMID: 12504901
- Polevoda B and Sherman F (2003) N-terminal acetyltransferases and sequence requirements for N-terminal acetylation of eukaryotic proteins. J Mol Biol 325(4):595-622 PMID: 12507466
- Polevoda B and Sherman F (2003) Composition and function of the eukaryotic N-terminal acetyltransferase subunits. Biochem Biophys Res Commun 308(1):1-11 PMID: 12890471
- Polevoda B, et al. (2003) Nat3p and Mdm20p are required for function of yeast NatB Nalpha-terminal acetyltransferase and of actin and tropomyosin. J Biol Chem 278(33):30686-97 PMID: 12783868
- Singer JM and Shaw JM (2003) Mdm20 protein functions with Nat3 protein to acetylate Tpm1 protein and regulate tropomyosin-actin interactions in budding yeast. Proc Natl Acad Sci U S A 100(13):7644-9 PMID: 12808144
- Polevoda B and Sherman F (2001) NatC Nalpha-terminal acetyltransferase of yeast contains three subunits, Mak3p, Mak10p, and Mak31p. J Biol Chem 276(23):20154-9 PMID: 11274203
- Arnold RJ, et al. (1999) The action of N-terminal acetyltransferases on yeast ribosomal proteins. J Biol Chem 274(52):37035-40 PMID: 10601260
- Polevoda B, et al. (1999) Identification and specificities of N-terminal acetyltransferases from Saccharomyces cerevisiae. EMBO J 18(21):6155-68 PMID: 10545125