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Saccharomyces Genome Database
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    • Literature Recently Added to SGD


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      • Avalos J, et al. (2025) Identification and Functions of lncRNAs in Fungi. Noncoding RNA 11(5) PMID: 41149761
        • SGD Paper
        • DOI full text
        • PubMed
        52 Associated Entities: PHO5 | PLN1 | DRS2 | PIR3 | MOH1 | FAR1 | SPS100 | ZIP2 | IME1 | ... Show all TAF2 | RRP1 | NRD1 | ASP3-1 | ASP3-2 | ASP3-3 | TIR1 | CDC28 | SRG1 | HO | FLO11 | XRN1 | CLD1 | ATP16 | IME4 | BAP2 | TAT1 | FYV5 | ADF1 | IMD2 | URA2 | RME1 | ASP3-4 | PHO84 | SUR7 | RRP6 | TLC1 | CTF4 | ECM3 | ICR1 | IRT1 | RME3 | PWR1 | EUC1 | HRA1 | RME2 | YNCB0008W | SUT169 | YNCM0001W | SUT035 | SUT532 | SUT125 | SUT126 Show fewer

      • Albillos-Arenal S, et al. (2025) Identification of a crucial <i>INO2</i> allele for enhancing ethanol resistance in an industrial fermentation strain of <i>Saccharomyces cerevisiae</i>. mSystems e0082725 PMID: 41147734
        • SGD Paper
        • DOI full text
        • PubMed
        8 Associated Entities: HNM1 | EKI1 | ERG20 | OLE1 | ERG1 | INO2 | ERG9 | ino2-I263V,R86H ... Show all Show fewer

      • Liu D, et al. (2025) PLM-interact: extending protein language models to predict protein-protein interactions. Nat Commun 16(1):9012 PMID: 41145424
        • SGD Paper
        • DOI full text
        • PubMed
      • Wang JJ, et al. (2025) The role of mitotype variation and positive epistasis in trait differences between Saccharomyces species. Genetics PMID: 41145224
        • SGD Paper
        • DOI full text
        • PubMed
      • Wei Q (2025) Yeast mannan: A comprehensive functional analysis from structural characteristics to biological activity. Carbohydr Res 558:109715 PMID: 41145032
        • SGD Paper
        • DOI full text
        • PubMed
      • Dubkin H, et al. (2025) Detection of PDR5-mediated alachlor efflux using a chemically induced dimer biosensor. PLoS One 20(10):e0334648 PMID: 41144453
        • SGD Paper
        • DOI full text
        • PubMed
        1 Associated Entity: PDR5 ... Show all Show fewer

      • Shen Y, et al. (2025) Optimization of regulatory DNA with active learning. Comput Struct Biotechnol J 27:4384-4392 PMID: 41142759
        • SGD Paper
        • DOI full text
        • PMC full text
        • PubMed
      • Zhang X, et al. (2025) From spontaneous to controlled: Simulating key aroma chemical characteristics of spontaneous fermentation with synthetic microbial community in Italian Riesling wine. Food Chem X 31:103146 PMID: 41140585
        • SGD Paper
        • DOI full text
        • PMC full text
        • PubMed
      • Mudoor Sooresh M, et al. (2025) Fermentation of kefir with traditional freeze-dried starter cultures successfully recreates fresh culture fermented kefir. Front Microbiol 16:1655390 PMID: 41140397
        • SGD Paper
        • DOI full text
        • PMC full text
        • PubMed
      • Yamaji T, et al. (2025) Rad27/FEN1 prevents accumulation of Okazaki fragments and ribosomal DNA copy number changes. FEBS Lett PMID: 41140146
        • SGD Paper
        • DOI full text
        • PubMed
        5 Associated Entities: FOB1 | POL30 | CDC9 | RAD27 | EXO1 ... Show all Show fewer

      • Yeo KH, et al. (2025) J-domain proteins cooperate with Hsp70 to drive multiphase separation of RNA-binding-deficient TDP-43. J Biol Chem 110854 PMID: 41135683
        • SGD Paper
        • DOI full text
        • PubMed
        2 Associated Entities: YDJ1 | SIS1 ... Show all Show fewer

      • Fiedorowicz LM, et al. (2025) Ubiquitin and SUMO pathways in DNA replication and replication-coupled repair. Crit Rev Biochem Mol Biol 1-28 PMID: 41134662
        • SGD Paper
        • DOI full text
        • PubMed
        2 Associated Entities: SMT3 | UBI4 ... Show all Show fewer

      • Hugenroth M, et al. (2025) Role of Pex31 in metabolic adaptation of the nucleus vacuole junction NVJ. J Cell Sci PMID: 41132095
        • SGD Paper
        • DOI full text
        • PubMed
        21 Associated Entities: SWH1 | VAC8 | NVJ3 | MIG1 | TSC13 | NVJ1 | PEX29 | HMG1 | LAM6 | ... Show all HMG2 | MDM1 | PEX30 | VPS13 | NVJ2 | CVM1 | NSG1 | SND3 | PEX31 | SHR5 | TCB1 | NSG2 Show fewer

      • Fidler E, et al. (2025) Comprehensive analysis of the role of ASC1 and APE2 introns on cellular fitness, transcription, and post-transcriptional dynamics. FEBS J PMID: 41131709
        • SGD Paper
        • DOI full text
        • PubMed
        2 Associated Entities: APE2 | ASC1 ... Show all Show fewer

      • Wang M, et al. (2025) Substitutions in RNA-binding protein Hrp1 map a potential interaction surface with the yeast RNA polymerase II elongation complex. Genetics PMID: 41126477
        • SGD Paper
        • DOI full text
        • PubMed
        3 Associated Entities: RPB3 | HRP1 | NRD1 snoRNA termination complex ... Show all Show fewer

      • Zencir S, et al. (2025) Refined mechanism of promoter nucleosome-depleted regions resetting after replication. Nucleic Acids Res 53(19) PMID: 41123206
        • SGD Paper
        • DOI full text
        • PMC full text
        • PubMed
        6 Associated Entities: HHT1 | HHT2 | REB1 | ABF1 | RSC chromatin remodelling complex, variant RSC1 | INO80 chromatin remodeling complex ... Show all Show fewer

      • Hu C, et al. (2025) Direct observation of interdependent and hierarchical kinetochore assembly on individual centromeres. Nucleic Acids Res 53(19) PMID: 41099706
        • SGD Paper
        • DOI full text
        • PMC full text
        • PubMed
        3 Associated Entities: MTW1 | MIF2 | CSE4 ... Show all Show fewer

      • Wilson HE, et al. (2025) Mapping transcription factor binding sites by learning UV damage fingerprints. Nucleic Acids Res 53(19) PMID: 41099699
        • SGD Paper
        • DOI full text
        • PMC full text
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        2 Associated Entities: GCR1 | CCAAT-binding factor complex ... Show all Show fewer

      • Boggula Y, et al. (2025) Lon/Pim1 mediated degradation of presequence translocase-associated motor components Pam16 and Pam18 in Saccharomyces cerevisiae. Biochem J PMID: 41099349
        • SGD Paper
        • DOI full text
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        3 Associated Entities: PIM1 | PAM18 | PAM16 ... Show all Show fewer

      • Mohajan S and Gross DS (2025) Transcriptional condensates and the nuclear pore complex regulate gene expression and 3D genome architecture in response to stress. Biochem Soc Trans PMID: 41099333
        • SGD Paper
        • DOI full text
        • PubMed
        13 Associated Entities: SLT2 | HSF1 | SSA4 | YRA1 | MLP1 | NAB2 | MED1 | NUP2 | SSA2 | ... Show all HSP104 | Core mediator complex | Nuclear pore complex | DNA-directed RNA polymerase II complex Show fewer

      • Huang YH, et al. (2025) Conformational Dynamics of the Active Site Loop in Dihydroorotase Highlighting the Limitations of Loop-In Structures for Inhibitor Docking. Int J Mol Sci 26(19) PMID: 41096952
        • SGD Paper
        • DOI full text
        • PMC full text
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        1 Associated Entity: URA4 ... Show all Show fewer

      • Casari E, et al. (2025) Stn1 supports Mec1 function in protecting stalled replication forks from degradation. PLoS Genet 21(10):e1011917 PMID: 41091836
        • SGD Paper
        • DOI full text
        • PMC full text
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        5 Associated Entities: MRE11 | SGS1 | EXO1 | MEC1 | STN1 ... Show all Show fewer

      • Mittal P and Hinnebusch AG (2025) Mot1 regulation of promoter binding by TBP varies with stress and gene expression levels independently of coactivator dependence. Proc Natl Acad Sci U S A 122(42):e2516926122 PMID: 41086207
        • SGD Paper
        • DOI full text
        • PubMed
        2 Associated Entities: GCN4 | MOT1 ... Show all Show fewer

      • Hua Z, et al. (2025) Molecular Insights into Fungal Glycosylphosphatidylinositol Transamidase Complex. Adv Sci (Weinh) e11340 PMID: 41085069
        • SGD Paper
        • DOI full text
        • PubMed
        6 Associated Entities: GPI17 | GPI8 | GPI16 | GAA1 | GAB1 | GPI-anchor transamidase complex ... Show all Show fewer

      • Yamada Y, et al. (2025) In <i>Saccharomyces cerevisiae</i>, the molecular chaperone proteins Ssb1 and Ssb2 upregulate ABC transporter genes, and their upregulation may play a role in the release of quorum-sensing molecules that induce cell growth arrest during the diauxic shift. AIMS Microbiol 11(3):737-753 PMID: 41078542
        • SGD Paper
        • DOI full text
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        9 Associated Entities: SNQ2 | ZUO1 | SSZ1 | PDR1 | YOR1 | PDR5 | PDR3 | SSB1 | SSB2 ... Show all Show fewer

      • Raghunathan A and Krishnan M (2025) Minimum Energy Pathway for Lesion Recognition and DNA Binding by RAD4/XPC. J Chem Inf Model 65(19):10375-10389 PMID: 40997792
        • SGD Paper
        • DOI full text
        • PubMed
        1 Associated Entity: RAD4 ... Show all Show fewer

      • Iermak I, et al. (2025) Molecular mechanisms governing the formation of distinct Upf1-containing complexes in yeast. Cell Rep 44(10):116415 PMID: 41076630
        • SGD Paper
        • DOI full text
        • PubMed
        4 Associated Entities: NAM7 | DCP2 | EBS1 | NMD4 ... Show all Show fewer

      • Wang C, et al. (2025) Directed optimization and generation of yeast promoter sequences driven by deep learning. Int J Biol Macromol 148505 PMID: 41138880
        • SGD Paper
        • DOI full text
        • PubMed
      • Hoffman Y, et al. (2025) The IQ-compete assay for measuring mitochondrial protein import efficiencies in living yeast cells. FEBS Lett PMID: 41137490
        • SGD Paper
        • DOI full text
        • PubMed
        3 Associated Entities: TEF2 | ALD6 | TEF1 ... Show all Show fewer

      • Sancho R, et al. (2025) AlloSHP: deconvoluting single homeologous polymorphism for phylogenetic analysis of allopolyploids. Plant Methods 21(1):134 PMID: 41137138
        • SGD Paper
        • DOI full text
        • PubMed
      • Yamada R, et al. (2025) Construction of high protein-producing mutant yeast strains via point and structural mutageneses and their use for carotenoid production. J Biotechnol PMID: 41135819
        • SGD Paper
        • DOI full text
        • PubMed
      • Topaloğlu A, et al. (2025) Evolutionary Engineering and Molecular Characterization of an Antimycin A-Resistant Saccharomyces cerevisiae Strain: the Key Role of Pleiotropic Drug Resistance (PDR1). FEMS Yeast Res PMID: 41105141
        • SGD Paper
        • DOI full text
        • PubMed
        1 Associated Entity: PDR1 ... Show all Show fewer

      • Estabrooks RJ, et al. (2025) Lactate Reduces Metabolic Heat, Enhances Succinate Metabolism, and Improves Thermal Stress Tolerance in Saccharomyces cerevisiae. Biochem Cell Biol PMID: 41100896
        • SGD Paper
        • DOI full text
        • PubMed
      • Yan Z, et al. (2025) Toxic Effects and Adaptive Response Mechanisms of Lignocellulose-Derived Phenolic Aldehydes in <i>Saccharomyces cerevisiae</i> during Cellulosic Ethanol Fermentation. J Agric Food Chem PMID: 41100156
        • SGD Paper
        • DOI full text
        • PubMed
        2 Associated Entities: GEX1 | PST2 ... Show all Show fewer

      • Nakamura K, et al. (2025) Construction of yeast with extremely high 2,3-butanediol tolerance by introducing point and structural mutations and partial elucidation of the mechanism of 2,3-butanediol tolerance. Appl Microbiol Biotechnol 109(1):227 PMID: 41099839
        • SGD Paper
        • DOI full text
        • PMC full text
        • PubMed
      • Spavieri JM, et al. (2025) Impact of CRISPRi-Mediated Titration of <i>GPD</i> Genes on the Fermentative Performance of <i>S. cerevisiae</i>. ACS Synth Biol PMID: 41099664
        • SGD Paper
        • DOI full text
        • PubMed
        2 Associated Entities: GPD1 | GPD2 ... Show all Show fewer

      • Ji T, et al. (2025) Remote on-off switching of protein activity by intrinsically disordered region. Nat Struct Mol Biol 32(10):2088-2098 PMID: 40467883
        • SGD Paper
        • DOI full text
        • PubMed
        1 Associated Entity: SGT2 ... Show all Show fewer

      • Liu G, et al. (2025) CG-Based Stratification of 8-mers Highlights Functional Roles and Phylogenetic Divergence Markers. Int J Mol Sci 26(19) PMID: 41096744
        • SGD Paper
        • DOI full text
        • PMC full text
        • PubMed
      • Zhu YX, et al. (2025) Mitotic recombination events and single-base mutations induced by ultraviolet light in G1-arrested yeast cells. Proc Natl Acad Sci U S A 122(42):e2518046122 PMID: 41091767
        • SGD Paper
        • DOI full text
        • PubMed
      • McDaniel M, et al. (2025) NAD<sup>+</sup> Homeostasis and Autophagy: Integrated Control Through Nutrient Signaling in Yeast and Mammals. Cells 14(19) PMID: 41090724
        • SGD Paper
        • DOI full text
        • PMC full text
        • PubMed
      • Biziaev NS, et al. (2025) [The CCC Proline Codon Preceding a Stop Codon Modulates Translation Termination in Eukaryotes Depending on the Molecular Context]. Mol Biol (Mosk) 59(4):587-598 PMID: 41090334
        • SGD Paper
        • DOI full text
        • PubMed
      • Anjana V, et al. (2025) Metabolic Regulation of Copper Homeostasis Governs the Sec61-Dependent Protein Translocation Process in <i>Saccharomyces cerevisiae</i>. Mol Cell Biol 1-30 PMID: 41085287
        • SGD Paper
        • DOI full text
        • PubMed
        1 Associated Entity: SEC61 ... Show all Show fewer

      • Temelli N, et al. (2025) Uncoupling protein production from growth: different strategies for intracellular and secreted proteins in yeast. Microb Cell Fact 24(1):224 PMID: 41084001
        • SGD Paper
        • DOI full text
        • PMC full text
        • PubMed
        2 Associated Entities: HSP12 | TEF1 ... Show all Show fewer

      • Albillos-Arenal S, et al. (2025) Chromosome III Aneuploidy Enhances Ethanol Tolerance in Industrial Saccharomyces cerevisiae by Increasing the TUP1 Copy Number. Microb Biotechnol 18(10):e70244 PMID: 41074565
        • SGD Paper
        • DOI full text
        • PMC full text
        • PubMed
        1 Associated Entity: TUP1 ... Show all Show fewer

      • Ren J and Hannun YA (2025) Orm2 promotes nitrogen-induced sphingolipid production and endocytosis via Orm1 phosphorylation. J Lipid Res 100924 PMID: 41072797
        • SGD Paper
        • DOI full text
        • PubMed
        4 Associated Entities: GAP1 | YPK1 | ORM1 | ORM2 ... Show all Show fewer

      • Ma G, et al. (2025) Modifying a loop region in ene-reductase to boost catalytic activity. Int J Biol Macromol 330(Pt 3):148183 PMID: 41072685
        • SGD Paper
        • DOI full text
        • PubMed
        2 Associated Entities: OYE2 | OYE3 ... Show all Show fewer

      • (2025) Correction to: Recent progress in engineering yeast producers of cellulosic ethanol. FEMS Yeast Res 25 PMID: 41070925
        • SGD Paper
        • DOI full text
        • PMC full text
        • PubMed
      • Ballin A, et al. (2025) A genetic screen reveals a key role for Reg1 in 2-deoxyglucose sensing and yeast AMPK inhibition. PLoS Genet 21(10):e1011896 PMID: 41066605
        • SGD Paper
        • DOI full text
        • PMC full text
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        4 Associated Entities: SNF1 | REG1 | HXK2 | GLC7 ... Show all Show fewer

      • Beckwith SL, et al. (2025) Probing the molecular determinants of Ty1 retrotransposon restriction specificity in yeast. PLoS Genet 21(10):e1011898 PMID: 41066520
        • SGD Paper
        • DOI full text
        • PMC full text
        • PubMed
        50 Associated Entities: YCLWTy2-1 | YCLWTy5-1 | YDRCTy1-3 | YDRCTy2-1 | YDRWTy1-4 | YGRCTy1-2 | YGRCTy1-3 | YGRWTy1-1 | YGRWTy3-1 | ... Show all YILWTy3-1 | YBRWTy1-2 | YBLWTy1-1 | YBLWTy2-1 | YARCTy1-1 | YFLWTy2-1 | YHLWTy4-1 | YERCTy1-1 | YDRCTy1-1 | YDRCTy1-2 | YHRCTy1-1 | YJRWTy1-1 | YJRWTy1-2 | YLRCTy1-1 | YLRCTy2-2 | YLRWTy1-2 | YLRWTy1-3 | YOLWTy1-1 | YNLCTy1-1 | YNLCTy2-1 | YMLWTy1-1 | YMLWTy1-2 | YORCTy2-1 | YORWTy1-2 | YORWTy2-2 | YNLWTy1-2 | YPRCTy1-2 | YPRCTy1-4 | YPRWTy1-3 | YMRCTy1-3 | YMRCTy1-4 | YPLCTy4-1 | YPLWTy1-1 | YDRWTy1-5 | YDRWTy2-2 | YDRWTy2-3 | YERCTy1-2 | YGRCTy2-1 | YGRWTy2-2 | YJLWTy4-1 | YLRWTy2-1 Show fewer

      • Wang C and Zhang B (2025) Sequence-Dependent Conformational Landscapes of Intrinsically Disordered Proteins Reveal Asymmetric Chain Compaction. J Chem Theory Comput PMID: 41137856
        • SGD Paper
        • DOI full text
        • PubMed
      • Deitert A, et al. (2025) Polyphosphate Accumulation Is Determined by Zinc and Inositol in Saccharomyces cerevisiae. Yeast PMID: 41137549
        • SGD Paper
        • DOI full text
        • PubMed
      • Wen Y, et al. (2025) Improving the taste and aromatic characteristics of citrus wine by co-fermentation involving Saccharomyces cerevisiae and lactic acid bacteria. J Sci Food Agric PMID: 41137521
        • SGD Paper
        • DOI full text
        • PubMed
      • Wu N, et al. (2026) Reduction of acetic acid in Cabernet Sauvignon wine fermented by atmospheric and room temperature plasma-mutagenized Saccharomyces cerevisiae. Food Microbiol 134:104951 PMID: 41136167
        • SGD Paper
        • DOI full text
        • PubMed
      • Bertram N, et al. (2025) Delayed protein translocation protects mitochondria against toxic CAT-tailed proteins. Mol Cell PMID: 41118763
        • SGD Paper
        • DOI full text
        • PubMed
        7 Associated Entities: TIM21 | TOM6 | RQC2 | VMS1 | PTH1 | RKR1 | PTH2 ... Show all Show fewer

      • Li M, et al. (2025) Engineering CO<sub>2</sub>-Fixing Carboxysome into <i>Saccharomyces cerevisiae</i> to Improve Ethanol Production. Int J Mol Sci 26(19) PMID: 41097022
        • SGD Paper
        • DOI full text
        • PMC full text
        • PubMed
        2 Associated Entities: HSP60 | HSP10 ... Show all Show fewer

      • Yusuf IF, et al. (2025) Role of AAA-ATPase Cdc48p in peroxisomal quality control. Cell Rep 44(10):116405 PMID: 41076631
        • SGD Paper
        • DOI full text
        • PubMed
        8 Associated Entities: ATG36 | PEX5 | PEX19 | PEX1 | CDC48 | MSP1 | UFD1 | NPL4 ... Show all Show fewer

      • Jakobson CM, et al. (2025) A genome-to-proteome map reveals how natural variants drive proteome diversity and shape fitness. Science 390(6769):eadu3198 PMID: 41066569
        • SGD Paper
        • DOI full text
        • PubMed
      • Astolfi MCT, et al. (2025) Automated Strain Construction for Biosynthetic Pathway Screening in Yeast. ACS Synth Biol 14(10):4143-4151 PMID: 41063332
        • SGD Paper
        • DOI full text
        • PubMed
      • Mehta R, et al. (2025) The yeast checkpoint kinase Mec1p functions in transcription termination by facilitating recruitment of Pcf11p and regulating the torpedo exonuclease Rat1p. Sci Rep 15(1):35162 PMID: 41062571
        • SGD Paper
        • DOI full text
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        4 Associated Entities: PCF11 | MEC1 | RAT1 | rat1-1 ... Show all Show fewer

      • Walsh ME, et al. (2025) A Conserved Disruption of Nucleocytoplasmic Compartmentalization in Meiosis is Controlled by a Kinase-Phosphatase Pair in <i>Saccharomyces cerevisiae</i>. Mol Biol Cell mbcE25050229 PMID: 41060786
        • SGD Paper
        • DOI full text
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        2 Associated Entities: IME2 | GIP1 ... Show all Show fewer

      • Piel Iii RB, et al. (2025) Progesterone receptor membrane component 1 (PGRMC1) regulates Heme trafficking through mitochondria-ER junctions. J Inorg Biochem 275:113093 PMID: 41129951
        • SGD Paper
        • DOI full text
        • PubMed
        1 Associated Entity: DAP1 ... Show all Show fewer

      • Guo L, et al. (2025) Quantitative Analysis of DNA Double-Strand Breaks in Genomic DNA Using Standard Curve Method. J Clin Lab Anal e70123 PMID: 41108608
        • SGD Paper
        • DOI full text
        • PubMed
      • Azma N, et al. (2025) Biosorption-based decontamination of mercury by Saccharomyces cerevisiae BY4741. Arch Microbiol 207(11):295 PMID: 41081934
        • SGD Paper
        • DOI full text
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        4 Associated Entities: GSH1 | YCF1 | YAP1 | URE2 ... Show all Show fewer

      • Parbhudayal R and Cheng H-P (2025) Sugar-induced cell death is temperature dependent and conserved in <i>Saccharomyces cerevisiae</i> and <i>Candida</i> species. Microbiol Spectr e0156825 PMID: 41081528
        • SGD Paper
        • DOI full text
        • PubMed
      • De Dios Andres P, et al. (2025) Flippase-Mediated Hybrid Vesicle Division. Adv Mater 37(39):e2504519 PMID: 40613217
        • SGD Paper
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        2 Associated Entities: DRS2 | CDC50 ... Show all Show fewer

      • Driscoll D, et al. (2025) An Orc6 tether mediates ORC binding-site switching during replication origin licensing. Proc Natl Acad Sci U S A 122(41):e2510685122 PMID: 41055997
        • SGD Paper
        • DOI full text
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        • PubMed
      • Zhou C, et al. (2025) GCN1 couples GCN2 to ribosomal state to initiate amino acid response pathway signaling. Science 390(6768):eads8728 PMID: 41037622
        • SGD Paper
        • DOI full text
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        2 Associated Entities: GCN1 | GCN2 ... Show all Show fewer

      • Son M (2025) Detection system- and strain-dependent diversity of de novo [PSI+] prion generation and phenotypes in Saccharomyces cerevisiae. J Microbiol PMID: 41035157
        • SGD Paper
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      • Jang J and Avalos JL (2025) Lighting up yeast: Overview of optogenetics in yeast and their applications to yeast biotechnology. FEMS Yeast Res PMID: 41124034
        • SGD Paper
        • DOI full text
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      • Amoah DP, et al. (2025) Collaboration between two conserved sequence motifs drives ATPase stimulation of Hsp90 by Aha1. Protein Sci 34(11):e70359 PMID: 41123251
        • SGD Paper
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        4 Associated Entities: AHA1 | HSP82 | hsc82-S25P | hsc82-E33A ... Show all Show fewer

      • Laughery MF and Wyrick JJ (2025) Illuminating genome repair by photolyase. Photochem Photobiol PMID: 41121995
        • SGD Paper
        • DOI full text
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        1 Associated Entity: PHR1 ... Show all Show fewer

      • Licheva M, et al. (2025) To degrade or not to degrade: how phase separation modulates selective autophagy. Autophagy 21(11):2518-2520 PMID: 40052694
        • SGD Paper
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        • PubMed
      • Freitas de Souza G, et al. (2025) The effect of aging on post-translational modifications of wild-type human SOD1 and the A5V ALS mutant. Geroscience PMID: 41108344
        • SGD Paper
        • DOI full text
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        1 Associated Entity: SOD1 ... Show all Show fewer

      • (2025) Yeast genomes show how large genomic variations affect trait diversity. Nature PMID: 41094050
        • SGD Paper
        • DOI full text
        • PubMed
      • Wang H, et al. (2025) Understanding methanol metabolism through systems biology: advances and future perspectives. Curr Opin Biotechnol 96:103370 PMID: 41086471
        • SGD Paper
        • DOI full text
        • PubMed
      • (2025) Correction to: Long telomere inheritance through budding yeast sexual cycles. Genetics PMID: 41117740
        • SGD Paper
        • DOI full text
        • PubMed
      • Rahaman S, et al. (2025) Heat shock induces silent ribosomes and reorganizes mRNA turnover. Cell Rep 44(10):116447 PMID: 41108687
        • SGD Paper
        • DOI full text
        • PubMed
        40 Associated Entities: SSA1 | RPG1 | HTB1 | FUI1 | TPI1 | TIF35 | SSA4 | KAR2 | ESC1 | ... Show all STM1 | PAT1 | TDH3 | CDC19 | SUI2 | FUR4 | PAB1 | XRN1 | GCD11 | HBN1 | SSA3 | GPX2 | LSO2 | MBF1 | GTT2 | SEC61 | TIF5 | SUI3 | NIP1 | PRT1 | SEC62 | TMA64 | ATP19 | TIF11 | CDC33 | SIS1 | SSA2 | OYE3 | NOP13 | TIF34 | FBA1 Show fewer

      • Magliozzi JO, et al. (2025) Aip5 forms a "composite" actin nucleator with Bud6 and caps pointed ends of actin filaments. J Cell Biol 224(12) PMID: 41065574
        • SGD Paper
        • DOI full text
        • PubMed
        4 Associated Entities: BNR1 | BNI1 | AIP5 | BUD6 ... Show all Show fewer

      • de Scally SZ and McDonald MJ (2025) Evolution of One Species Increases Resistance to Invasion in a Simple Synthetic Community. Microb Ecol 88(1):110 PMID: 41114853
        • SGD Paper
        • DOI full text
        • PMC full text
        • PubMed
      • Cramer SM, et al. (2025) Online Monitoring of Chip-Based Microscale Perfusion Fermentations. ACS Omega 10(40):47355-47362 PMID: 41114212
        • SGD Paper
        • DOI full text
        • PMC full text
        • PubMed
      • Xu M, et al. (2025) Characterization of a sesquiterpene synthase and a short-chain dehydrogenase in zerumbone biosynthesis and the applications in engineered <i>Saccharomyces cerevisiae</i>. Front Plant Sci 16:1635141 PMID: 41114138
        • SGD Paper
        • DOI full text
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        7 Associated Entities: ERG20 | YPL062W | ERG9 | ROX1 | HMG1 | IDI1 | YJL064W ... Show all Show fewer

      • Jiang W, et al. (2025) Sensitive, high-throughput, metabolic analysis by molecular sensors on the membrane surface of mother yeast cells. Nat Commun 16(1):8908 PMID: 41057294
        • SGD Paper
        • DOI full text
        • PMC full text
        • PubMed
        2 Associated Entities: GRE2 | ADH6 ... Show all Show fewer

      • Kumari R, et al. (2025) The autophagy-specific exocyst subcomplex contributes to phagophore assembly site integrity by promoting phagophore expansion. Proc Natl Acad Sci U S A 122(41):e2426476122 PMID: 41055993
        • SGD Paper
        • DOI full text
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        • PubMed
        21 Associated Entities: ATG2 | SEC3 | SEC5 | ATG18 | ATG13 | EXO70 | ATG16 | ATG2-ATG18 complex | ATG12-ATG5-ATG16 complex | ... Show all Atg17-Atg31-Atg29 complex | Exocyst complex | ATG1/ULK1 protein kinase complex | sec10-2 | sec8-6 | sec15-1 | sec6-4 | sec8-9 | exo70-38 | sec5-24 | sec3-2 | exo84-2 Show fewer

      • Muñoz S (2026) An In Vitro Assay to Study RSC Remodeling Activity Stimulation by the Cohesin Loader. Methods Mol Biol 2991:195-208 PMID: 41111112
        • SGD Paper
        • DOI full text
        • PubMed
        15 Associated Entities: HTB1 | HTA1 | HHF1 | HHT1 | SCC2 | RSC1 | HHF2 | HHT2 | HTB2 | ... Show all HTA2 | SCC4 | RSC2 | SCC2-SCC4 cohesin loader complex | RSC chromatin remodelling complex, variant RSC2 | RSC chromatin remodelling complex, variant RSC1 Show fewer

      • Zhen S, et al. (2025) Structural and biochemical insights into the molecular mechanism of ribokinase RBK1 from Saccharomyces cerevisiae. Int J Biol Macromol 331(Pt 1):148382 PMID: 41110570
        • SGD Paper
        • DOI full text
        • PubMed
        13 Associated Entities: RBK1 | rbk1-N193A | rbk1-E196A | rbk1-T248A | rbk1-S310A | rbk1-S251G,I314G | rbk1-K39A | rbk1-D283A | rbk1-D277A,S322A | ... Show all rbk1-N10A | rbk1-D12A | rbk1-N42A | rbk1-E149A Show fewer

      • Loegler V, et al. (2025) From genotype to phenotype with 1,086 near telomere-to-telomere yeast genomes. Nature PMID: 41094142
        • SGD Paper
        • DOI full text
        • PubMed
      • Prosser DC (2025) Slowing down to take it in: Endocytosis during cellular aging. J Cell Biol 224(11) PMID: 41091065
        • SGD Paper
        • DOI full text
        • PubMed
      • Murayama Y (2026) A Biochemical Assay to Monitor the Encounter Between Cohesin and DNA Replication. Methods Mol Biol 2991:175-193 PMID: 41111111
        • SGD Paper
        • DOI full text
        • PubMed
        6 Associated Entities: IRR1 | MCD1 | SMC1 | SMC3 | Nuclear mitotic cohesin complex | SCC2-SCC4 cohesin loader complex ... Show all Show fewer

      • Minamino M, et al. (2026) Biochemical Reconstitution of Replication-Coupled Cohesin Acetylation. Methods Mol Biol 2991:163-173 PMID: 41111110
        • SGD Paper
        • DOI full text
        • PubMed
        7 Associated Entities: POL30 | ECO1 | PDS5 | Nuclear mitotic cohesin complex | SCC2-SCC4 cohesin loader complex | DNA replication factor C complex, RFC1 variant | DNA replication factor C complex, CTF18 variant ... Show all Show fewer

      • Nakatsuji T, et al. (2025) Vacuolar transport and function of Saccharomyces cerevisiae sterol ester hydrolase Tgl1. FEBS Lett PMID: 41108721
        • SGD Paper
        • DOI full text
        • PubMed
        10 Associated Entities: ATG1 | YEH1 | YEH2 | TGL1 | ARE1 | STP22 | VPS4 | ARE2 | VPS36 | ... Show all SNF7 Show fewer

      • Lang SH, et al. (2025) Two Commonly Reported Incidental Variants in OTC are Associated with Late-Onset Disease. HGG Adv 100531 PMID: 41108081
        • SGD Paper
        • DOI full text
        • PubMed
        1 Associated Entity: ARG3 ... Show all Show fewer

      • Dhage R, et al. (2025) Ribonucleoprotein (RNP) condensates modulate survival in response to Mars-like stress conditions. PNAS Nexus 4(10):pgaf300 PMID: 41103577
        • SGD Paper
        • DOI full text
        • PMC full text
        • PubMed
        22 Associated Entities: SPR3 | CTT1 | PAB1 | HMT1 | EDC3 | HXT5 | HSP31 | RPL24A | NSR1 | ... Show all TIF4631 | DCP2 | LSM4 | TRM1 | SCD6 | RPS0A | SRX1 | SSE2 | SPI1 | DAK1 | SPS18 | SPO19 | GRE1 Show fewer

      • Clemente-Ramos JÁ and Mole SE (2026) Using CMAC Staining for Vacuole Characterization in Yeast. Methods Mol Biol 2976:175-188 PMID: 41082120
        • SGD Paper
        • DOI full text
        • PubMed
      • Stewart MG, et al. (2025) Manipulation and Analysis of Cell Cycle-Dependent Processes in Budding Yeast. J Vis Exp PMID: 41082467
        • SGD Paper
        • DOI full text
        • PubMed
      • Khannanov RA, et al. (2025) Approaches to Humanization of Mitochondrial Proteins in <i>Saccharomyces cerevisiae</i> on the Example of Replacing the Yeast Mitochondrial Translation Termination Factor MRF1 with Its Human Homologues. Biochemistry (Mosc) 90(9):1240-1251 PMID: 41067736
        • SGD Paper
        • DOI full text
        • PubMed
        1 Associated Entity: MRF1 ... Show all Show fewer

      • Salzman V and Aguilar PS (2025) Cell membrane asymmetries and cellular aging. Biochem J 482(20) PMID: 41065409
        • SGD Paper
        • DOI full text
        • PubMed
        21 Associated Entities: MFB1 | CAN1 | RAV2 | ATP2 | NUM1 | PMA1 | VAC8 | RAV1 | SIR2 | ... Show all VAC17 | MCA1 | TSA1 | MMR1 | FOB1 | MYO2 | TPO3 | HSP104 | MEP2 | OXR1 | RAVE complex | MYO2-VAC17-VAC8 transport complex Show fewer

      • Di Fiore A, et al. (2025) Saccharomyces cerevesiae, Candida spp. and Cryptococcus neoformans β-CAs. Enzymes 57:33-64 PMID: 41062223
        • SGD Paper
        • DOI full text
        • PubMed
        1 Associated Entity: NCE103 ... Show all Show fewer

      • Cheng YL, et al. (2025) Mga2-mediated transcription supports mitotic nuclear expansion under lipid saturation conditions in stearoyl-CoA desaturase Ole1 mutant. Mol Biol Cell mbcE25050207 PMID: 41060802
        • SGD Paper
        • DOI full text
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        6 Associated Entities: SPT23 | MGA2 | NEM1 | OLE1 | DGK1 | ole1-S221F ... Show all Show fewer

      • Li ZW, et al. (2025) Cryo-EM structure of the yeast Saccharomyces cerevisiae SDH provides a template for eco-friendly fungicide discovery. Nat Commun 16(1):8936 PMID: 41062466
        • SGD Paper
        • DOI full text
        • PMC full text
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        5 Associated Entities: SDH3 | SDH1 | SDH4 | SDH2 | Mitochondrial respiratory chain complex II ... Show all Show fewer

      • Lesniak AM, et al. (2025) Identification of the client-binding site on the Golgi membrane protein adaptor Vps74/yGOLPH3. iScience 28(10):113494 PMID: 41031365
        • SGD Paper
        • DOI full text
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        3 Associated Entities: ARF1 | SAC1 | VPS74 ... Show all Show fewer

      • Tramice A, et al. (2025) First Evidence of Metabolically Active Intracellular Bacteria in <i>Saccharomyces cerevisiae</i>. J Agric Food Chem 73(41):26220-26231 PMID: 41055157
        • SGD Paper
        • DOI full text
        • PMC full text
        • PubMed
      • Billah NMA, et al. (2025) Integrative analysis of Hub1 overexpression: driving transcriptional reprogramming and alternative splicing in Saccharomyces cerevisiae. BMC Genomics 26(1):885 PMID: 41053551
        • SGD Paper
        • DOI full text
        • PMC full text
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        24 Associated Entities: HTB1 | RPL7A | AVT2 | SIT1 | SUS1 | DYN2 | LSO1 | TRA1 | RIE1 | ... Show all NDT80 | COX1 | AI1 | AI2 | AI3 | AI4 | AI5_ALPHA | GPH1 | YPR160W-A | FIT2 | FIT3 | FET3 | SEN15 | UBI4 | HUB1 Show fewer

      • Jia Y, et al. (2025) A hyper-active APOBEC1 mutant boosted profiling of RNA-binding protein (RBP) targets. Int J Biol Macromol 330(Pt 3):148109 PMID: 41052558
        • SGD Paper
        • DOI full text
        • PubMed
        9 Associated Entities: PIG2 | CAN1 | ATG14 | SSY1 | AGC1 | FRE1 | HMG1 | BFR1 | NAB2 ... Show all Show fewer

      • Liu L, et al. (2025) Comprehensive Mutational Landscape of Yeast Mutator Strains Reveals the Genetic Basis of Mutational Signatures in Cancer. Mol Biol Evol PMID: 41051315
        • SGD Paper
        • DOI full text
        • PubMed
        21 Associated Entities: SHU1 | RAD51 | SHU2 | SOD1 | RAD57 | XRS2 | ASF1 | CSM2 | SGS1 | ... Show all TSA1 | PSY3 | OGG1 | MSH2 | MSH6 | CCS1 | MLH1 | YAP1 | UNG1 | HNT3 | REV3 | DDC1 Show fewer

      • Benyamini P and Meyer DI (2025) ER biogenesis without stress: how the ribosome receptor, p180, defines a developmental program beyond the UPR. Front Cell Dev Biol 13:1682420 PMID: 41049286
        • SGD Paper
        • DOI full text
        • PMC full text
        • PubMed
        4 Associated Entities: IRE1 | INO2 | HMG1 | HMG2 ... Show all Show fewer

      • Sun R and Liu Y (2025) Protein aggregate or agglomerate: similar punctate structure with distinct biological profiles. Mol Syst Biol 21(10):1287-1289 PMID: 40954317
        • SGD Paper
        • DOI full text
        • PMC full text
        • PubMed
      • Kuijntjes GJ, et al. (2025) Long-read nucleosome mapping of single chromatin fibers using DNA methylation and nanopore sequencing. Biophys J PMID: 41039779
        • SGD Paper
        • DOI full text
        • PubMed
        6 Associated Entities: GAL7 | GAL10 | GAL1 | RDN37-1 | RDN37-2 | YNCB0008W ... Show all Show fewer

      • Kim I, et al. (2025) Structural investigation of human U6 snRNA recognition by spliceosomal recycling factor SART3 RNA recognition motifs. FEBS J PMID: 41046346
        • SGD Paper
        • DOI full text
        • PubMed
        3 Associated Entities: SNR6 | PRP24 | U4/U6 small nuclear ribonucleoprotein complex ... Show all Show fewer

      • Mattos LMM, et al. (2025) Iron, manganese, and copper complexes protect saccharomyces cerevisiae from methyl methanesulfonate-induced genotoxicity and oxidative stress. World J Microbiol Biotechnol 41(10):358 PMID: 41045319
        • SGD Paper
        • DOI full text
        • PubMed
        2 Associated Entities: RAD9 | RAD24 ... Show all Show fewer

      • Hasan SMN, et al. (2025) Allosteric regulation of fungal fatty acid synthesis. Structure PMID: 41043416
        • SGD Paper
        • DOI full text
        • PubMed
        3 Associated Entities: FAS1 | FAS2 | Fatty-acyl-CoA synthase ... Show all Show fewer

      • Peskett TR, et al. (2025) A network of P-body and Whi3 condensates adjusts cell fate decisions to cellular context. Mol Cell 85(19):3661-3676.e8 PMID: 41043393
        • SGD Paper
        • DOI full text
        • PubMed
        11 Associated Entities: CLN3 | CLN2 | EDC3 | LSM4 | WHI3 | ASC1 | whi3-ΔQR-2 | whi3-ΔRRM | whi3-ΔpQ | ... Show all lsm4-∆C | edc3-ΔYjeF Show fewer

      • Nguyen KM, et al. (2025) Revisiting the evolution of the yeast Atg1 complex. Autophagy Rep 4(1):2555835 PMID: 41035828
        • SGD Paper
        • DOI full text
        • PMC full text
        • PubMed
        6 Associated Entities: ATG31 | ATG1 | ATG13 | ATG29 | ATG17 | ATG1/ULK1 protein kinase complex ... Show all Show fewer

      • Ching TT and Hsu AL (2025) The impacts of different dietary restriction regimens on aging and longevity: from yeast to humans. J Biomed Sci 32(1):91 PMID: 41039401
        • SGD Paper
        • DOI full text
        • PMC full text
        • PubMed
        2 Associated Entities: SIR2 | PNC1 ... Show all Show fewer

      • Kukhtevich IV, et al. (2025) The origin of septin ring size control in budding yeast. EMBO J PMID: 41039155
        • SGD Paper
        • DOI full text
        • PubMed
        12 Associated Entities: GIC2 | EXO84 | BNR1 | CDC24 | BEM2 | BEM1 | CDC42 | SPA2 | BUD6 | ... Show all BNI1 | cdc24-38A | cdc24-KK Show fewer

      • Bhattacharjee P and Mandal AK (2025) Hsp104-Hsp70-Hsp110 chaperones disintegrate kinase aggregates formed upon stress in Saccharomyces cerevisiae. FEBS Lett PMID: 41020413
        • SGD Paper
        • DOI full text
        • PubMed
        8 Associated Entities: SSA1 | FES1 | HSP42 | STE11 | SSE1 | HSP104 | sse1-G233D | sse1-K69Q ... Show all Show fewer

      • Zhang L, et al. (2025) A Modular and Customizable CRISPR/Cas Toolkit for Epigenome Editing of Cis-regulatory Modules. Adv Sci (Weinh) e03917 PMID: 41024337
        • SGD Paper
        • DOI full text
        • PubMed
        4 Associated Entities: APE2 | ROM1 | SSO2 | SSO1 ... Show all Show fewer

      • Moses AM, et al. (2025) Inferring fungal cis-regulatory networks from genome sequences via unsupervised and interpretable representation learning. Genetics PMID: 41022589
        • SGD Paper
        • DOI full text
        • PubMed
        25 Associated Entities: UPC2 | NSI1 | DOT6 | AFT1 | PHO4 | HCM1 | ZAP1 | STB3 | MBP1 | ... Show all LYS14 | ABF1 | FKH1 | NDT80 | RFX1 | SWI6 | HAP1 | PHO84 | CRZ1 | GCR1 | FKH2 | YRR1 | TYE7 | MCM1 | SFP1 | AFT2 Show fewer

      • Gao J and Meneghini M (2025)
        • SGD Paper
      • Arnold CJ, et al. (2025) Resistance of ERG24 sterol C-14 reductase to heterocyclic amine antifungals. NPJ Antimicrob Resist 3(1):83 PMID: 41034419
        • SGD Paper
        • DOI full text
        • PMC full text
        • PubMed
        1 Associated Entity: ERG24 ... Show all Show fewer

      • Menuhin-Gruman I, et al. (2025) AI-directed gene fusing prolongs the evolutionary half-life of synthetic gene circuits. Sci Adv 11(40):eadx0796 PMID: 41032600
        • SGD Paper
        • DOI full text
        • PMC full text
        • PubMed
      • Das S, et al. (2025) Evaluating single-cell variability in proteasomal decay within Saccharomyces cerevisiae. Biophys J PMID: 41029898
        • SGD Paper
        • DOI full text
        • PubMed
      • Wery M, et al. (2025) The role of Nonsense-Mediated mRNA Decay in restricting long noncoding RNAs expression has been conserved in RNAi-capable budding yeast. RNA PMID: 41027714
        • SGD Paper
        • DOI full text
        • PubMed
        2 Associated Entities: NAM7 | GID8 ... Show all Show fewer

      • Yi TM (2025) Information bounds on the accuracy of cell polarization. PLoS One 20(9):e0333522 PMID: 41026759
        • SGD Paper
        • DOI full text
        • PMC full text
        • PubMed
      • Qi T, et al. (2025) Functional analysis and transcriptional profiling of non-coding RNAs in yeast. Biochem J 482(19) PMID: 41025978
        • SGD Paper
        • DOI full text
        • PubMed
      • Ji W, et al. (2025) Design principles of transcription factors with intrinsically disordered regions. Elife 14 PMID: 41025958
        • SGD Paper
        • DOI full text
        • PMC full text
        • PubMed
      • Reyes Loaiciga C, et al. (2025) Comprehensive profiling of ribo-seq detected small sequences in yeast reveals robust conservation patterns and their potential mechanisms of origin. BMC Genomics 26(1):856 PMID: 41023788
        • SGD Paper
        • DOI full text
        • PMC full text
        • PubMed
      • Denekew K, et al. (2025) Production of improved Ethiopian Tej using mixed lactic acid bacteria and yeast starter cultures. Sci Rep 15(1):33460 PMID: 41022867
        • SGD Paper
        • DOI full text
        • PMC full text
        • PubMed
      • Li ST, et al. (2025) LLP1 is a pyrophosphatase involved in homeostasis/quality control of dolichol-linked oligosaccharide. J Cell Biol 224(11) PMID: 41020759
        • SGD Paper
        • DOI full text
        • PubMed
        1 Associated Entity: LLP1 ... Show all Show fewer

      • Nadalis S, et al. (2025) The kinesin Kip2 promotes microtubule growth using a bipartite polymerase module to deliver tubulin to microtubule plus ends. Cell Rep 44(10):116353 PMID: 41016033
        • SGD Paper
        • DOI full text
        • PubMed
        1 Associated Entity: KIP2 ... Show all Show fewer

      • Singh S, et al. (2025) Mutations and Recombination at G4 DNA-Forming Sequences Exacerbated by CPT-Resistant Mutant Topoisomerase 1 Is Dependent on SUMOylation. Int J Mol Sci 26(18) PMID: 41009588
        • SGD Paper
        • DOI full text
        • PMC full text
        • PubMed
        3 Associated Entities: NSR1 | TOP1 | top1-Y740Stop ... Show all Show fewer

      • Huang Y, et al. (2025) V-ATPase-dependent induction of selective autophagy. Nat Commun 16(1):8508 PMID: 41006286
        • SGD Paper
        • DOI full text
        • PMC full text
        • PubMed
        4 Associated Entities: VMA2 | VMA21 | BIG1 | vma2-R381Q ... Show all Show fewer

      • Wahid E, et al. (2025) A Bluetooth-Enabled Electrochemical Platform Based on <i>Saccharomyces cerevisiae</i> Yeast Cells for Copper Detection. Biosensors (Basel) 15(9) PMID: 41002323
        • SGD Paper
        • DOI full text
        • PMC full text
        • PubMed
      • Tyczewska A and Bąkowska-Żywicka K (2025) Stress-induced ribosomal heterogeneity in Saccharomyces cerevisiae: from protein paralogs to regulatory noncoding RNAs. FEMS Yeast Res 25 PMID: 40995673
        • SGD Paper
        • DOI full text
        • PMC full text
        • PubMed
        52 Associated Entities: RPL17A | ZUO1 | RPL23A | RPL7A | RPL2B | RPL2A | RPL42B | SSZ1 | RPL28 | ... Show all RPL22B | SSB1 | RPL8A | RPL17B | RPS25A | RPS23A | RPS29B | YPK1 | RPS28B | RPS22B | RPS9A | RPS29A | RPL23B | RPS2 | RPL1B | TRM10 | RPS23B | RDN18-1 | RDN18-2 | RDN25-1 | SCP160 | RPS6A | RPS6B | RPS9B | RPL9A | RPL6A | RPL6B | RPL9B | RDN25-2 | SSB2 | RPS28A | RPL1A | RPS25B | RPS7A | RPS7B | RPL8B | YPK2 | RPL22A | ASC1 | RPL42A | RPS3 | RPL7B | YPK3 Show fewer

      • Henggeler A, et al. (2025) Holliday junction-ZMM protein feedback enables meiotic crossover assurance. Nature PMID: 40993383
        • SGD Paper
        • DOI full text
        • PubMed
      • Antenor KG, et al. (2025) Vacuolar pH regulates clathrin-mediated endocytosis through TORC1 signaling during replicative aging. J Cell Biol 224(11) PMID: 40990464
        • SGD Paper
        • DOI full text
        • PubMed
        3 Associated Entities: MUP1 | NPR1 | TORC1 serine/threonine-protein kinase complex, TOR1 variant ... Show all Show fewer

      • Prashar T and Hudak KA (2025) Depurination of sarcin/ricin loop 25S rRNA is signaled through the small ribosomal subunit during translation. RNA PMID: 40987586
        • SGD Paper
        • DOI full text
        • PubMed
        9 Associated Entities: EFT2 | EFT1 | RDN18-1 | RDN18-2 | RPS3 | HEL2 | RDN25-1 | RDN25-2 | MAG2 ... Show all Show fewer

      • Bose P and Sau S (2025) A replication stress safeguard provided by the Elg1 Replication Factor C-like complex. Genetics PMID: 40985265
        • SGD Paper
        • DOI full text
        • PubMed
        5 Associated Entities: POL30 | MEC1 | RAD53 | ELG1 | DNA replication factor C complex, ELG1 variant ... Show all Show fewer

      • Bexley K, et al. (2025) Rapid remodeling of NTP levels enables immediate translational adaptation to energy stress in yeast. Mol Cell 85(19):3623-3639.e7 PMID: 40975060
        • SGD Paper
        • DOI full text
        • PubMed
        4 Associated Entities: TIF1 | TIF2 | HXK2 | TIF3 ... Show all Show fewer

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