Literature Help
HPA2 / YPR193C Literature
All manually curated literature for the specified gene, organized by relevance to the gene and by
association with specific annotations to the gene in SGD. SGD gathers references via a PubMed search for
papers whose titles or abstracts contain “yeast” or “cerevisiae;” these papers are reviewed manually and
linked to relevant genes and literature topics by SGD curators.
- Unique References
- 60
- Aliases
-
KAT10
4
Primary Literature
Literature that either focuses on the gene or contains information about function, biological role,
cellular location, phenotype, regulation, structure, or disease homologs in other species for the gene
or gene product.
No primary literature curated.
Download References (.nbib)
- Zhang Q, et al. (2025) Functional Characterization of GNA1 as a Serotonin N-Acetyltransferase Reveals a Key Role in the Serotonin to Melatonin Pathway in Saccharomyces cerevisiae. J Pineal Res 77(4):e70065 PMID:40551389
- Bisquert R, et al. (2023) The Role of the PAA1 Gene on Melatonin Biosynthesis in Saccharomyces cerevisiae: A Search of New Arylalkylamine N-Acetyltransferases. Microorganisms 11(5) PMID:37317089
- Tan YS, et al. (2021) Protein acetylation regulates xylose metabolism during adaptation of Saccharomyces cerevisiae. Biotechnol Biofuels 14(1):241 PMID:34920742
- Qin T, et al. (2014) Finding pathway-modulating genes from a novel Ontology Fingerprint-derived gene network. Nucleic Acids Res 42(18):e138 PMID:25063300
- Matuo R, et al. (2013) ATP-dependent chromatin remodeling and histone acetyltransferases in 5-FU cytotoxicity in Saccharomyces cerevisiae. Genet Mol Res 12(2):1440-56 PMID:23661467
- Novo M, et al. (2013) Genome-wide study of the adaptation of Saccharomyces cerevisiae to the early stages of wine fermentation. PLoS One 8(9):e74086 PMID:24040173
- Sampath V, et al. (2013) Biochemical characterization of Hpa2 and Hpa3, two small closely related acetyltransferases from Saccharomyces cerevisiae. J Biol Chem 288(30):21506-13 PMID:23775086
- Ogihara F, et al. (2008) Common industrial sake yeast strains have three copies of the AQY1-ARR3 region of chromosome XVI in their genomes. Yeast 25(6):419-32 PMID:18509847
- Durant M and Pugh BF (2006) Genome-wide relationships between TAF1 and histone acetyltransferases in Saccharomyces cerevisiae. Mol Cell Biol 26(7):2791-802 PMID:16537921
- Yow GY, et al. (2004) D-amino acid N-acetyltransferase of Saccharomyces cerevisiae: a close homologue of histone acetyltransferase Hpa2p acting exclusively on free D-amino acids. Arch Microbiol 182(5):396-403 PMID:15375647
- Kumar A, et al. (2002) Subcellular localization of the yeast proteome. Genes Dev 16(6):707-19 PMID:11914276
- Angus-Hill ML, et al. (1999) Crystal structure of the histone acetyltransferase Hpa2: A tetrameric member of the Gcn5-related N-acetyltransferase superfamily. J Mol Biol 294(5):1311-25 PMID:10600387
Related Literature
Genes that share literature (indicated by the purple circles) with the specified gene (indicated by yellow circle).
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Additional Literature
Papers that show experimental evidence for the gene or describe homologs in other species, but
for which the gene is not the paper’s principal focus.
No additional literature curated.
Download References (.nbib)
- Lanz MC, et al. (2021) In-depth and 3-dimensional exploration of the budding yeast phosphoproteome. EMBO Rep 22(2):e51121 PMID:33491328
- Zhang K, et al. (2018) Genetic characterization and modification of a bioethanol-producing yeast strain. Appl Microbiol Biotechnol 102(5):2213-2223 PMID:29333587
- Tomar JS and Peddinti RK (2017) A. baumannii histone acetyl transferase Hpa2: optimization of homology modeling, analysis of protein-protein interaction and virtual screening. J Biomol Struct Dyn 35(5):1115-1126 PMID:27125865
- Downey M and Baetz K (2016) Building a KATalogue of acetyllysine targeting and function. Brief Funct Genomics 15(2):109-18 PMID:26512033
- Frey AG and Eide DJ (2012) Zinc-responsive coactivator recruitment by the yeast Zap1 transcription factor. Microbiologyopen 1(2):105-14 PMID:22950018
- On T, et al. (2010) The evolutionary landscape of the chromatin modification machinery reveals lineage specific gains, expansions, and losses. Proteins 78(9):2075-89 PMID:20455264
- Ruotolo R, et al. (2010) Chemogenomic profiling of the cellular effects associated with histone H3 acetylation impairment by a quinoline-derived compound. Genomics 96(5):272-80 PMID:20732410
- Turner EL, et al. (2010) The Saccharomyces cerevisiae anaphase-promoting complex interacts with multiple histone-modifying enzymes to regulate cell cycle progression. Eukaryot Cell 9(10):1418-31 PMID:20709786
- Eisenberg T, et al. (2009) Induction of autophagy by spermidine promotes longevity. Nat Cell Biol 11(11):1305-14 PMID:19801973
- Nishida H (2009) Evolutionary conservation levels of subunits of histone-modifying protein complexes in fungi. Comp Funct Genomics 2009:379317 PMID:19461952
- Allis CD, et al. (2007) New nomenclature for chromatin-modifying enzymes. Cell 131(4):633-6 PMID:18022353
- Steczkiewicz K, et al. (2006) Eukaryotic domain of unknown function DUF738 belongs to Gcn5-related N-acetyltransferase superfamily. Cell Cycle 5(24):2927-30 PMID:17172875
- Vetting MW, et al. (2004) A bacterial acetyltransferase capable of regioselective N-acetylation of antibiotics and histones. Chem Biol 11(4):565-73 PMID:15123251
- Wittschieben BO, et al. (2000) Overlapping roles for the histone acetyltransferase activities of SAGA and elongator in vivo. EMBO J 19(12):3060-8 PMID:10856249
- López-Rodas G, et al. (1991) Subcellular localization and nucleosome specificity of yeast histone acetyltransferases. Biochemistry 30(15):3728-32 PMID:2015228
- López-Rodas G, et al. (1989) Yeast contains multiple forms of histone acetyltransferase. J Biol Chem 264(32):19028-33 PMID:2681207
Reviews
No reviews curated.
Gene Ontology Literature
Paper(s) associated with one or more GO (Gene Ontology) terms in SGD for the specified gene.
No gene ontology literature curated.
Download References (.nbib)
- Zhang Q, et al. (2025) Functional Characterization of GNA1 as a Serotonin N-Acetyltransferase Reveals a Key Role in the Serotonin to Melatonin Pathway in Saccharomyces cerevisiae. J Pineal Res 77(4):e70065 PMID:40551389
- Sampath V, et al. (2013) Biochemical characterization of Hpa2 and Hpa3, two small closely related acetyltransferases from Saccharomyces cerevisiae. J Biol Chem 288(30):21506-13 PMID:23775086
- Kumar A, et al. (2002) Subcellular localization of the yeast proteome. Genes Dev 16(6):707-19 PMID:11914276
Phenotype Literature
Paper(s) associated with one or more pieces of classical phenotype evidence in SGD for the specified gene.
No phenotype literature curated.
Interaction Literature
Paper(s) associated with evidence supporting a physical or genetic interaction between the
specified gene and another gene in SGD. Currently, all interaction evidence is obtained from
BioGRID.
No interaction literature curated.
Download References (.nbib)
- Kuzmin E, et al. (2018) Systematic analysis of complex genetic interactions. Science 360(6386) PMID:29674565
- Shulist K, et al. (2017) Interrogation of γ-tubulin alleles using high-resolution fitness measurements reveals a distinct cytoplasmic function in spindle alignment. Sci Rep 7(1):11398 PMID:28900268
- Babour A, et al. (2016) The Chromatin Remodeler ISW1 Is a Quality Control Factor that Surveys Nuclear mRNP Biogenesis. Cell 167(5):1201-1214.e15 PMID:27863241
- Costanzo M, et al. (2016) A global genetic interaction network maps a wiring diagram of cellular function. Science 353(6306) PMID:27708008
- Sampath V, et al. (2013) Biochemical characterization of Hpa2 and Hpa3, two small closely related acetyltransferases from Saccharomyces cerevisiae. J Biol Chem 288(30):21506-13 PMID:23775086
- Islam A, et al. (2011) Antagonistic Gcn5-Hda1 interactions revealed by mutations to the Anaphase Promoting Complex in yeast. Cell Div 6(1):13 PMID:21651791
- Mitchell L, et al. (2011) Regulation of septin dynamics by the Saccharomyces cerevisiae lysine acetyltransferase NuA4. PLoS One 6(10):e25336 PMID:21984913
- Costanzo M, et al. (2010) The genetic landscape of a cell. Science 327(5964):425-31 PMID:20093466
- Turner EL, et al. (2010) The Saccharomyces cerevisiae anaphase-promoting complex interacts with multiple histone-modifying enzymes to regulate cell cycle progression. Eukaryot Cell 9(10):1418-31 PMID:20709786
- Batisse J, et al. (2009) Purification of nuclear poly(A)-binding protein Nab2 reveals association with the yeast transcriptome and a messenger ribonucleoprotein core structure. J Biol Chem 284(50):34911-7 PMID:19840948
- Gong Y, et al. (2009) An atlas of chaperone-protein interactions in Saccharomyces cerevisiae: implications to protein folding pathways in the cell. Mol Syst Biol 5:275 PMID:19536198
- Lin YY, et al. (2008) A comprehensive synthetic genetic interaction network governing yeast histone acetylation and deacetylation. Genes Dev 22(15):2062-74 PMID:18676811
- Yu H, et al. (2008) High-quality binary protein interaction map of the yeast interactome network. Science 322(5898):104-10 PMID:18719252
- Johansson MJ, et al. (2007) Association of yeast Upf1p with direct substrates of the NMD pathway. Proc Natl Acad Sci U S A 104(52):20872-7 PMID:18087042
- Ito T, et al. (2001) A comprehensive two-hybrid analysis to explore the yeast protein interactome. Proc Natl Acad Sci U S A 98(8):4569-74 PMID:11283351
- Angus-Hill ML, et al. (1999) Crystal structure of the histone acetyltransferase Hpa2: A tetrameric member of the Gcn5-related N-acetyltransferase superfamily. J Mol Biol 294(5):1311-25 PMID:10600387
Regulation Literature
Paper(s) associated with one or more pieces of regulation evidence in SGD, as found on the
Regulation page.
No regulation literature curated.
Post-translational Modifications Literature
Paper(s) associated with one or more pieces of post-translational modifications evidence in SGD.
No post-translational modifications literature curated.
High-Throughput Literature
Paper(s) associated with one or more pieces of high-throughput evidence in SGD.
No high-throughput literature curated.
Download References (.nbib)
- Mota MN, et al. (2024) Shared and more specific genetic determinants and pathways underlying yeast tolerance to acetic, butyric, and octanoic acids. Microb Cell Fact 23(1):71 PMID:38419072
- Songdech P, et al. (2024) Increased production of isobutanol from xylose through metabolic engineering of Saccharomyces cerevisiae overexpressing transcription factor Znf1 and exogenous genes. FEMS Yeast Res 24 PMID:38331422
- Coey CT and Clark DJ (2022) A systematic genome-wide account of binding sites for the model transcription factor Gcn4. Genome Res 32(2):367-377 PMID:34916251
- Michaillat L and Mayer A (2013) Identification of genes affecting vacuole membrane fragmentation in Saccharomyces cerevisiae. PLoS One 8(2):e54160 PMID:23383298
- Novo M, et al. (2013) Genome-wide study of the adaptation of Saccharomyces cerevisiae to the early stages of wine fermentation. PLoS One 8(9):e74086 PMID:24040173
- Pir P, et al. (2012) The genetic control of growth rate: a systems biology study in yeast. BMC Syst Biol 6:4 PMID:22244311
- Venters BJ, et al. (2011) A comprehensive genomic binding map of gene and chromatin regulatory proteins in Saccharomyces. Mol Cell 41(4):480-92 PMID:21329885
- Breslow DK, et al. (2008) A comprehensive strategy enabling high-resolution functional analysis of the yeast genome. Nat Methods 5(8):711-8 PMID:18622397
- Butcher RA, et al. (2006) Microarray-based method for monitoring yeast overexpression strains reveals small-molecule targets in TOR pathway. Nat Chem Biol 2(2):103-9 PMID:16415861
- Mendiratta G, et al. (2006) The DNA-binding domain of the yeast Spt10p activator includes a zinc finger that is homologous to foamy virus integrase. J Biol Chem 281(11):7040-8 PMID:16415340
- Giaever G, et al. (2002) Functional profiling of the Saccharomyces cerevisiae genome. Nature 418(6896):387-91 PMID:12140549