| pka1 | cAMP-dependent protein kinase 1 | pka1 knockouts exhibits a three-fold increase in chronological lifespan with up to 187% longer maximum lifespan [16822282]. Deleting ser/thr cAMP-activated protein kinase pka1 extends chronological lifespan under normal condition, but there is no additive effect with DR [20075862]. | Fission yeast |
| gpa2 | Guanine nucleotide-binding protein alpha-2 subunit | gpa2 (alias git8) encodes the alpha subunit of a heterotrimeric G protein, which acts downstream of Git3. Git8 activity accelerates aging and inhibits the lifespan-extending effect of DR. Constitutive active mutation of gpa2 decreases chronological lifespan under AL (2% glucose) and almost completely cancels out the lifespan extending effect of DR (0.2% glucose) [19266076]. | Fission yeast |
| GPA2 | G Protein Alpha subunit 2 | Deletion of GPA2 increases mean and maximum replicative lifespan by 40% and 26%, respectively [11000115]. Deletion of GPA2 extends replicative lifespan by reducing cAMP-PKA activity and provides a genetic model for DR [11000115]. | Budding yeast |
| LCB4 | Long-Chain Base 4 | Deletion of LCB4 increases replicative lifespan and cancels out replicative lifespan extension of 0.5% glucose DR [18690010]. | Budding yeast |
| HXT17 | HeXose Transporter 17 | HXT17 mutation extends both replicative and chronological lifespan as well as cancels out DR-induced replicative and chronological lifespan extension. Mean and maximum replicative lifespan are extended by 27 and 49%, respectively [21584246]. | Budding yeast |
| GUP1 | Glycerol UPtake 1 | GUP1 deletion extends mean and maximum replicative lifespan by 32 and 30%, respectively, as well as chronological lifespan. DR-induced maximal replicative lifespan extension is not further increased by GUP1 deletion, while gup1 mutant displayed longer chronological lifespan under DR [21584246]. | Budding yeast |
| AIM4 | Altered Inheritance rate of Mi 4 | AIM4 (alias SOY1) deletion increases chronological and replication lifespan, which is non-additive with DR. On AL mean and maximum replicative lifespan are extended by 63 and 69%, respectively. DR appears to decrease aim4-induced replication lifespan extension, indicating a negative interaction. aim4 mutation does not change DR-induced chronological lifespan extension [21584246]. | Budding yeast |
| HHF1 | Histone H Four 1 | HHF1 deletion extends mean and maximum replicative by 45 and 69%, respectively, as well as chronological lifespan. Chronological lifespan extension by HHF1 deletion and DR is non-synergistic. DR appears to extend replicative lifespan more when combined with hhf1 mutation, whereas DR does not change hhf1-induced replicative lifespan extension, suggesting a positive interaction [21584246]. | Budding yeast |
| ATG11 | AuTophaGy related 11 | ATG11 deletion extends replicative lifespan under AL and abrogates DR-lifespan extension [18690010]. | Budding yeast |
| ADE4 | ADEnine requiring 4 | ade4 mutation extends chronological lifespan, but not replicative lifespan, and is non-additive with 0.5% glucose or amino-acid DR on chronological lifespan extension. ADE4 deletion in atg16 mutants results only in a partial extension of the chronological lifespan by 0.5% glucose DR [20421943]. | Budding yeast |
| TCO89 | Tor Complex One | TCO89 deletion increases chronological lifespan, increases mitochondrial oxygen consumption, but decreases mitochondrial and cellular ROS in early stationary phase [21641548]. Deletion of TCO89 cancels out replicative lifespan extension by moderate DR [18690010]. | Budding yeast |
| PKH2 | Pkb-activating Kinase Homolog 2 | PKH2 deletion increases replicative lifespan by 20% in the alpha strain and by 15% in the a strain [18340043]. Deletion of PKH2 increases chronological lifespan by 29% [22319457] to 34% [21447998] as well as by 19 - 54% (19, 24, 29, 54) in diploid cells [21447998]. PKH2 mutation extends both replicative and chronological lifespan as well as cancels out DR-induced replicative and chronological lifespan extension [21584246]. Mean and maximum replicative lifespan on AL is extended by 38 and 69%, respectively. | Budding yeast |
| NDE1 | NADH Dehydrogenase, External 1 | Overexpression of NDE1 and NDE2 increases intracellular NAD/NADH ratio by lowering NADH concentration and increases replicative lifespan by 20-25%. This lifespan extension is non-additive 0.5% glucose restriction [14724176]. Deletion of NDE1 extends chronological lifespan [16436509]. | Budding yeast |
| IPK1 | Inositol Polyphosphate Kinase 1 | Deletion of IPK1 increases mean replicative lifespan by 41 - 40% in the alpha strain [16293764; 19030232]. IPK1 deletion extends mean and maximum replicative lifespan by 24 and 19%, respectively, and was non-synergistic with moderate DR [21584246]. | Budding yeast |
| GIS1 | GIg1-2 Suppressor 1 | Deletion of GIS1 increases replicative lifespan by 25% in the alpha strain [19030232] and causes major although not complete reversion of chronological lifespan extension by 0.5% glucose restriction [18225956]. | Budding yeast |
| ERG5 | ERGosterol biosynthesis 5 | Deletion of ERG5 decreases replicative lifespan by 35% in the a strain [18340043], but increases mean chronological lifespan by 26 - 116% (26, 40, 43, 62, 116) in diploid cells [21447998]. Deletion of ERG5 cancels out the replicative lifespan extension of 0.5% glucose restriction [18690010]. | Budding yeast |
| BMH1 | Brain Modulosignalin Homologue 1 | Deleting BMH1 extends chronological lifespan by 25% and is associated with activated stress response, decreased ROS levels and increased heat-shock-element-driven transcription activity. BMH1 deletion was non-additive with the genetic DR mimetic cdc25 and tor1. Water starvation (a form of extreme DR) extends chronological lifespan of BMH1 mutant even more as it does in wild-type. BMH1 genetically interacts with DR as well as TOR- and PKA-signaling pathways to regulate lifespan. Phosphorylation of Ser238 on Bmh1 increases during chronological aging, which is delayed by DR or reduced TOR activity [19805817].
| Budding yeast |
| TOR1 | Target Of Rapamycin 1 | TOR1 deletion extends mean and maximum replicative lifespan by 21 and 25% [16293764] as well as chronological lifespan [21076178]. This lifespan extension is independent of SIR2 and additive with deletion of FOB1 [16293764]. Deletion of TOR1 fails to increase the replicative lifespan of a sir2 mutant [20947565]. Deletion of TOR1 substantially extends chronological lifespan, increasing median survival almost 3-fold (wild-type 4.5 days, tor1 null 12 days), i.e. by 167%. By 21 days in culture, the vast majority of wild-type cells had died (>99.9%), whereas many tor1 null cells remained viable. Deletion of TOR1 also extends the chronological lifespan of the relatively short-lived BY4742 strain, one of the two haploid genetic backgrounds of the widely used Yeast Knockout Collection available from Open Biosystems. Deletion of TOR1 fails to extend chronological lifespan in Petite strains that are unable to respire [17403371]. TOR1 deletion increases replicative lifespan by 30% in the alpha strain and 20% in a strain [19030232]. TOR1 deletion mutant have and increased mean and maximum replicative lifespan by 21% and 6%, respectively [21931558]. Deletion of TOR1 extends replicative lifespan as well as chronological lifespan [21076178] and glucose restriction fails to further extend the long replicative lifespan of tor1Delta [16293764; 16418483; 18225956]. Water starvation (extreme DR) further extends chronological lifespan of tor1 mutants [18225956]. | Budding yeast |
| SCH9 | — | Transposon-mediated mutagenesis of SCH9, which encodes for a serine threonine kinase homologous to Akt/PKB, increases resistance to oxidants and thermal stress as well as extends chronological lifespan by 30%. SCH9 deletion increases chronological lifespan by up to threefold. Stress-resistance transcription factors Msn2/Msn4 and protein kinase Rim15 are required for this life-extension. Deletion of the mitochondrial antioxidant enzyme superoxide dismutase gene SOD2 prevents the increased chronological lifespan caused by SCH9 deletion [11292860]. Mutations that decrease the activity of the Ras/Cyr1/PKA pathway also extend longevity and increase stress resistance by activating transcription factors Msn2/Msn4 and Sod2 [12855292]. SCH9 deletion mutants exhibit more than 3-fold extension of chronological lifespan. By day 9 of medium depletion all the wild-type cells were dead while 50% sch9 mutants survived [17710147]. Deletion of SCH9 also increases resistance to heat shock and oxidative stress [11292860], and increases replicative lifespan by 18% (in DBY746) [12586694]. SCH9 deletion increases the replicative lifespan by 40% in the alpha strain [18340043] and increases mean chronological lifespan by 97 - 246% (97, 133, 154, 226, 246) in diploid cells [21447998]. Mutation or deletion of SCH9 increases resistance to oxidants and extends chronological lifespan [11292860; 16286010]. The extended lifespan of SCH9 deletion mutants is not further extended by low glucose DR and is independent of Sir2 [16293764]. Deletion of RIM15 or GIS1 reverses chronological lifespan extension associated with sch9Delta. Water restriction further increases chronological lifespan of sch9Delta [18225956]. Deletion of SCH9 results in a longer chronological lifespan [21076178]. | Budding yeast |
| RPL31A | Ribosomal Protein of the Large subunit 31A | Deletion of RPL31A increases mean replicative lifespan by 45% [16293764]. Mean replicative lifespan increases by 35% in the alpha strain and 50% in a strain [19030232; 18423200]. Mean replicative lifespan of the RPL31A deletion mutant increases by 35% in the ORF collection and by 29% in the remade strain [22377630]. RPL31A deletion increases significantly replicative lifespan [17174052]. Deletion of RPL31A extends replicative lifespan and is not further extended by 0.05% glucose restriction [18423200]. | Budding yeast |
| RPD3 | Reduced Potassium Dependency 3 | Deletion of the histone deacetylase gene RPD3 extends lifespan by 41%, independently of an intact Sir silencing complex (in the short lived YSK661 strain) [10512855]. Deletion of RPD3 extends replicative lifespan and there was no additive effect by neither 0.1% glucose nor amino acid restriction [12213553].
RPD3 deletion increases rDNA silencing in a partially SIR2-dependent manner [10082585].
Its effects on chromatin functional state were evidenced by enhanced silencing at the three known heterochromatic regions in the genome, the silent mating type (HM), subtelomeric, and rDNA loci, which occurred even in the absence of SIR3 [10512855]. | Budding yeast |
| RAS2 | Ras-like protein 2 | Overexpression of RAS2 causes a 43% increase in mean and 18% increase in maximum lifespan as well as postpones the age-related increase in generation time. RAS2 deletion causes a 23% decrease in mean and a 30% decrease in maximum lifespan [8034612]. Deletion of RAS2 leads to a longer chronological lifespan [21076178]. Deletion of the RAS2 gene, which functions upstream of CYR1, doubles the mean chronological lifespan by a mechanism that requires Msn2/4 and Sod2 [12586694]. DR further extends chronological lifespan of ras2Delta [18225956]. | Budding yeast |
| HXK2 | HeXoKinase 2 | Deletion of HXK2 extends mean and maximum replicative lifespan by about 53% and 33%, respectively. Limiting glucose availability by mutating HXK2 significantly extends replicative lifespan and provides a genetically model of DR [11000115]. HXK2 deletion increases oxygene consumption. Changes in gene expression HXK2 mutation are quite similar to those of dietary-restricted cells. In fact, HXK2 mutants have a transcriptional profile that significantly resembles DR cells and cell overexpressing HAP4 [12124627]. | Budding yeast |
| GPR1 | G-Protein coupled Receptor 1 | Deletion of GRP1 increases mean and maximum replicative lifespan by 41% and 26%, respectively. GRP1 deletion mutants have also longer chronological lifespan. Deletion of GPR1 extends replicative lifespan by reducing cAMP-PKA activity and provides a genetically model for DR [11000115]. | Budding yeast |
| CDC25 | Cell Division Cycle 25 | The CDC25-10 allele extends mean and maximum replicative lifespan by 34% and 18%, respectively, at 30 degree Celsius. cdc25-10 mutants have an extended replicative lifespan under AL. Growth on 0.5% glucose restriction does not further extend replicative lifespan of cdc25-10 mutants. CDC25 null mutant is not viable. CDC25 appears to act in the same genetic pathway as SIR2 and NPT1 and is suggested to be genetic model of DR [11000115]. | Budding yeast |
