Nucleotide sequence analysis of an 8887 bp region of the left arm of yeast chromosome XIV, encompassing the centromere sequence.Verhasselt P., Aert R., Voet M., Volckaert G.View abstractCited forNUCLEOTIDE SEQUENCE [GENOMIC DNA]StrainATCC 96604 / S288c / FY1679CategorySequencesSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCYeast 10:945-951 (1994)Cited in6Mapped to1
The nucleotide sequence of Saccharomyces cerevisiae chromosome XIV and its evolutionary implications.Philippsen P., Kleine K., Poehlmann R., Duesterhoeft A., Hamberg K., Hegemann J.H., Obermaier B., Urrestarazu L.A., Aert R.[...], Hani J.View abstractCited forNUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA]StrainATCC 204508 / S288cCategorySequencesSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCNature 387:93-98 (1997)Cited in99+2
The reference genome sequence of Saccharomyces cerevisiae: Then and now.Engel S.R., Dietrich F.S., Fisk D.G., Binkley G., Balakrishnan R., Costanzo M.C., Dwight S.S., Hitz B.C., Karra K.[...], Cherry J.M.View abstractCited forGENOME REANNOTATIONStrainATCC 204508 / S288cCategorySequencesSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCG3 (Bethesda) 4:389-398 (2014)Cited in99+
Control of amino acid permease sorting in the late secretory pathway of Saccharomyces cerevisiae by SEC13, LST4, LST7 and LST8.Roberg K.J., Bickel S., Rowley N., Kaiser C.A.View abstractCited forFUNCTION, MUTAGENESIS OF LEU-300CategoriesFunction, Phenotypes & VariantsSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCGenetics 147:1569-1584 (1997)Cited in4Mapped to2
RTG-dependent mitochondria to nucleus signaling is negatively regulated by the seven WD-repeat protein Lst8p.Liu Z., Sekito T., Epstein C.B., Butow R.A.View abstractCited forFUNCTION, MUTAGENESIS OF GLY-138; GLY-146; GLY-171 AND GLY-181CategoriesFunction, Phenotypes & VariantsSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCEMBO J. 20:7209-7219 (2001)Cited in1
Two TOR complexes, only one of which is rapamycin sensitive, have distinct roles in cell growth control.Loewith R., Jacinto E., Wullschleger S., Lorberg A., Crespo J.L., Bonenfant D., Oppliger W., Jenoe P., Hall M.N.View abstractCited forIDENTIFICATION IN TORC1 AND TORC2, IDENTIFICATION BY MASS SPECTROMETRYCategorySequencesSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCMol. Cell 10:457-468 (2002)Cited in10Mapped to2
LST8 negatively regulates amino acid biosynthesis as a component of the TOR pathway.Chen E.J., Kaiser C.A.View abstractCited forFUNCTION, SUBCELLULAR LOCATION, INTERACTION WITH TOR1 AND TOR2CategoriesFunction, Interaction, Subcellular LocationSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCJ. Cell Biol. 161:333-347 (2003)Cited in1Mapped to5
Tor kinases are in distinct membrane-associated protein complexes in Saccharomyces cerevisiae.Wedaman K.P., Reinke A., Anderson S., Yates J.R. III, McCaffery J.M., Powers T.View abstractCited forSUBCELLULAR LOCATION, IDENTIFICATION IN TORC2, IDENTIFICATION BY MASS SPECTROMETRY, INTERACTION WITH TOR1 AND TOR2CategoriesSequences, Interaction, Subcellular LocationSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCMol. Biol. Cell 14:1204-1220 (2003)Cited in7Mapped to1
Global analysis of protein expression in yeast.Ghaemmaghami S., Huh W.-K., Bower K., Howson R.W., Belle A., Dephoure N., O'Shea E.K., Weissman J.S.View abstractCited forLEVEL OF PROTEIN EXPRESSION [LARGE SCALE ANALYSIS]CategoryExpressionSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCNature 425:737-741 (2003)Cited in99+
Molecular organization of target of rapamycin complex 2.Wullschleger S., Loewith R., Oppliger W., Hall M.N.View abstractCited forSUBUNIT, INTERACTION WITH TOR2CategoryInteractionSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCJ. Biol. Chem. 280:30697-30704 (2005)Cited in5
Gtr/Ego-independent TORC1 activation is achieved through a glutamine- sensitive interaction with Pib2 on the vacuolar membrane.Ukai H., Araki Y., Kira S., Oikawa Y., May A.I., Noda T.View abstractCited forINTERACTION WITH PIB2, IDENTIFICATION BY MASS SPECTROMETRYCategoriesSequences, InteractionSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCPLoS Genet. 14:e1007334-e1007334 (2018)Cited in12
EGOC inhibits TOROID polymerization by structurally activating TORC1.Prouteau M., Bourgoint C., Felix J., Bonadei L., Sadian Y., Gabus C., Savvides S.N., Gutsche I., Desfosses A., Loewith R.View abstractCategoryStructureSourcePDB: 7PQHPubMedEurope PMCNat Struct Mol Biol 30:273-285 (2023)Mapped to3
Cryo-EM structure of Saccharomyces cerevisiae target of rapamycin complex 2.Karuppasamy M., Kusmider B., Oliveira T.M., Gaubitz C., Prouteau M., Loewith R., Schaffitzel C.View abstractCategoryStructureSourcePDB: 6EMKPubMedEurope PMCNat Commun 8:1729-1729 (2017)Mapped to4
Aminoacyl-tRNA quality control is required for efficient activation of the TOR pathway regulator Gln3p.Mohler K., Mann R., Kyle A., Reynolds N., Ibba M.View abstractAnnotationAminoacyl-tRNA quality control is required for efficient activation of the TOR pathway regulator Gln3p.CategoriesFunction, Phenotypes & VariantsSourceGeneRif: 855726PubMedEurope PMCRNA Biol 15:594-603 (2018)Mapped to2
Target of Rapamycin (TOR) Regulates Growth in Response to Nutritional Signals.Weisman R.View abstractAnnotationS000004951SourceSGD: S000004951PubMedEurope PMCMicrobiol Spectr 4:0-0 (2016)Mapped to30
Functional Metabolomics Describes the Yeast Biosynthetic Regulome.Mulleder M., Calvani E., Alam M.T., Wang R.K., Eckerstorfer F., Zelezniak A., Ralser M.View abstractAnnotationPrimary LiteratureCategoryFunctionSourceSGD: S000004951PubMedEurope PMCCell 167:553-565.e12 (2016)Mapped to99+
Less is more: Nutrient limitation induces cross-talk of nutrient sensing pathways with NAD<sup>+</sup> homeostasis and contributes to longevity.Tsang F., Lin S.J.View abstractAnnotationReviewsCategoriesNames, FunctionSourceSGD: S000004951PubMedEurope PMCFront Biol (Beijing) 10:333-357 (2015)Mapped to66
Osmoregulation in Saccharomyces cerevisiae via mechanisms other than the high-osmolarity glycerol pathway.Saxena A., Sitaraman R.View abstractAnnotationReviewsSourceSGD: S000004951PubMedEurope PMCMicrobiology (Reading) 162:1511-1526 (2016)Mapped to56
ER fatalities-The role of ER-mitochondrial contact sites in yeast life and death decisions.Smethurst D.G.J., Cooper K.F.View abstractAnnotationS000004951CategoryFunctionSourceSGD: S000004951PubMedEurope PMCMech Ageing Dev 161:225-233 (2017)Mapped to28
Conserved regulators of Rag GTPases orchestrate amino acid-dependent TORC1 signaling.Powis K., De Virgilio C.View abstractAnnotationReviewsCategoryInteractionSourceSGD: S000004951PubMedEurope PMCCell Discov 2:15049-15049 (2016)Mapped to11
Mitochondria in aging cell differentiation.Palkova Z., Vachova L.AnnotationReviewsCategoryFunctionSourceSGD: S000004951PubMedEurope PMCAging (Albany NY) 8:1287-1288 (2016)Mapped to13
Mechanistic insights into selective autophagy pathways: lessons from yeast.Farre J.C., Subramani S.View abstractAnnotationReviewsCategoryFunctionSourceSGD: S000004951PubMedEurope PMCNat Rev Mol Cell Biol 17:537-552 (2016)Mapped to45
Cytosolic pH: A conserved regulator of cell growth?Dechant R., Peter M.View abstractAnnotationS000004951CategoryFunctionSourceSGD: S000004951PubMedEurope PMCMol Cell Oncol 1:e969643-e969643 (2014)Mapped to12
Target of rapamycin signaling mediates vacuolar fragmentation.Stauffer B., Powers T.View abstractAnnotationS000004951CategoriesFunction, Subcellular LocationSourceSGD: S000004951PubMedEurope PMCCurr Genet 63:35-42 (2017)Mapped to21
Reprogramming of nonfermentative metabolism by stress-responsive transcription factors in the yeast Saccharomyces cerevisiae.Soontorngun N.View abstractAnnotationS000004951SourceSGD: S000004951PubMedEurope PMCCurr Genet 63:1-7 (2017)Mapped to56