Literature Help
YLR125W 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.
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)
- De Guidi I, et al. (2024) QTL mapping reveals novel genes and mechanisms underlying variations in H2S production during alcoholic fermentation in Saccharomyces cerevisiae. FEMS Yeast Res 24 PMID:38124683
- Morton CO, et al. (2007) An amphibian-derived, cationic, alpha-helical antimicrobial peptide kills yeast by caspase-independent but AIF-dependent programmed cell death. Mol Microbiol 65(2):494-507 PMID:17587229
- Aye M, et al. (2004) Host factors that affect Ty3 retrotransposition in Saccharomyces cerevisiae. Genetics 168(3):1159-76 PMID:15579677
- Giaever G, et al. (2002) Functional profiling of the Saccharomyces cerevisiae genome. Nature 418(6896):387-91 PMID:12140549
- Willer M, et al. (2000) Disruption and functional analysis of six ORFs on chromosome XII of saccharomyces cerevisiae: YLR124w, YLR125w, YLR126c, YLR127c, YLR128w and YLR129w. Yeast 16(15):1429-35 PMID:11054824
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)
- Jung PP, et al. (2011) Ploidy influences cellular responses to gross chromosomal rearrangements in Saccharomyces cerevisiae. BMC Genomics 12:331 PMID:21711526
- Teixeira MC, et al. (2010) Identification of genes required for maximal tolerance to high-glucose concentrations, as those present in industrial alcoholic fermentation media, through a chemogenomics approach. OMICS 14(2):201-10 PMID:20210661
- Li Z, et al. (2008) Cdc34p ubiquitin-conjugating enzyme is a component of the tombusvirus replicase complex and ubiquitinates p33 replication protein. J Virol 82(14):6911-26 PMID:18463149
- Perocchi F, et al. (2006) Assessing systems properties of yeast mitochondria through an interaction map of the organelle. PLoS Genet 2(10):e170 PMID:17054397
- Verhasselt P and Volckaert G (1997) Sequence analysis of a 37.6 kbp cosmid clone from the right arm of Saccharomyces cerevisiae chromosome XII, carrying YAP3, HOG1, SNR6, tRNA-Arg3 and 23 new open reading frames, among which several homologies to proteins involved in cell division control and to mammalian growth factors and other animal proteins are found. Yeast 13(3):241-50 PMID:9090053
Phenotype Literature
Paper(s) associated with one or more pieces of classical phenotype evidence in SGD for the specified gene.
No phenotype literature curated.
Download References (.nbib)
- Morton CO, et al. (2007) An amphibian-derived, cationic, alpha-helical antimicrobial peptide kills yeast by caspase-independent but AIF-dependent programmed cell death. Mol Microbiol 65(2):494-507 PMID:17587229
- Willer M, et al. (2000) Disruption and functional analysis of six ORFs on chromosome XII of saccharomyces cerevisiae: YLR124w, YLR125w, YLR126c, YLR127c, YLR128w and YLR129w. Yeast 16(15):1429-35 PMID:11054824
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)
- Yang X, et al. (2022) The ubiquitin-proteasome system regulates meiotic chromosome organization. Proc Natl Acad Sci U S A 119(17):e2106902119 PMID:35439061
- Sanders E, et al. (2020) Comprehensive Synthetic Genetic Array Analysis of Alleles That Interact with Mutation of the Saccharomyces cerevisiae RecQ Helicases Hrq1 and Sgs1. G3 (Bethesda) 10(12):4359-4368 PMID:33115720
- Costanzo M, et al. (2016) A global genetic interaction network maps a wiring diagram of cellular function. Science 353(6306) PMID:27708008
- Morvan J, et al. (2015) Btn3 regulates the endosomal sorting function of the yeast Ent3 epsin, an adaptor for SNARE proteins. J Cell Sci 128(4):706-16 PMID:25512335
- Costanzo M, et al. (2010) The genetic landscape of a cell. Science 327(5964):425-31 PMID:20093466
- Ptacek J, et al. (2005) Global analysis of protein phosphorylation in yeast. Nature 438(7068):679-84 PMID:16319894
- 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
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)
- Kipanga PN, et al. (2021) Investigating the Antifungal Mechanism of Action of Polygodial by Phenotypic Screening in Saccharomyces cerevisiae. Int J Mol Sci 22(11) PMID:34071169
- Yu R, et al. (2021) Inactivating histone deacetylase HDA promotes longevity by mobilizing trehalose metabolism. Nat Commun 12(1):1981 PMID:33790287
- Ostrow AZ, et al. (2014) Fkh1 and Fkh2 bind multiple chromosomal elements in the S. cerevisiae genome with distinct specificities and cell cycle dynamics. PLoS One 9(2):e87647 PMID:24504085
- Troppens DM, et al. (2013) Genome-wide investigation of cellular targets and mode of action of the antifungal bacterial metabolite 2,4-diacetylphloroglucinol in Saccharomyces cerevisiae. FEMS Yeast Res 13(3):322-34 PMID:23445507
- 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
- Yoshikawa K, et al. (2011) Comprehensive phenotypic analysis of single-gene deletion and overexpression strains of Saccharomyces cerevisiae. Yeast 28(5):349-61 PMID:21341307
- Teixeira MC, et al. (2010) Identification of genes required for maximal tolerance to high-glucose concentrations, as those present in industrial alcoholic fermentation media, through a chemogenomics approach. OMICS 14(2):201-10 PMID:20210661
- Auesukaree C, et al. (2009) Genome-wide identification of genes involved in tolerance to various environmental stresses in Saccharomyces cerevisiae. J Appl Genet 50(3):301-10 PMID:19638689
- Merz S and Westermann B (2009) Genome-wide deletion mutant analysis reveals genes required for respiratory growth, mitochondrial genome maintenance and mitochondrial protein synthesis in Saccharomyces cerevisiae. Genome Biol 10(9):R95 PMID:19751518
- Yoshikawa K, et al. (2009) Comprehensive phenotypic analysis for identification of genes affecting growth under ethanol stress in Saccharomyces cerevisiae. FEMS Yeast Res 9(1):32-44 PMID:19054128
- 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
- MacIsaac KD, et al. (2006) An improved map of conserved regulatory sites for Saccharomyces cerevisiae. BMC Bioinformatics 7:113 PMID:16522208
- Giaever G, et al. (2002) Functional profiling of the Saccharomyces cerevisiae genome. Nature 418(6896):387-91 PMID:12140549