| YPT7 | Yeast Protein Two 7 | YPT7 deletion decreases replicative lifespan by 15% in the alpha strain [18340043]. Deletion of YPT7 cancels out replicative lifespan extension of 0.5% glucose restriction and results under DR also into a shorter replicative lifespan than under AL [18690010]. | Budding yeast |
| YDL180W | — | YDL180W deletion impairs DR-mediated replicative lifespan extension, but does not change lifespan on AL significantly [22912585]. | Budding yeast |
| Sirt1 | sirtuin 1 (silent mating type information regulation 2, homolog) 1 (S. cerevisiae) | Whole-body deletion of Sirt1 in the adulthood results in mice which are seemingly normal in every way. When mice were given low doses of resveratrol after Sirt1 was disabled, there were no discernible improvement in mitochondrial function or any parameter, while mice with normal Sirt1 function given reservatrol showed dramatic increases in energy, mitochondrial biogenesis and function, AMPK activation and increased NAD+ levels in skeletal muscle. When mice lacking Sirt1 were given low doses of reserveratrol, AMPK was unaffected. When doses were significantly increased in these mice, AMPK was activated in a SIRT1-indepent manner, but still no benefit to mitochondrial function resulted [22560220]. Sirt1 overexpression mimicks the effect on reservatrol on mitochondrial function, but failed to extend lifespan [22560220].
SIRT1 knock-out mouse embryonic fibroblasts (MEFs) have a significant greater replicative capacity in culture. p19ARF levels are significantly reduced in SIRT1 knock-out MEFs [16054100].
Sirt1-null mice do not exhibit lifespan extension upon Dietary Restriction [18335035].
Sirt1 is required for high-magnitude circadian transcription of several core clock genes. It deacetylates Per2, Arntl and histones of clock-controlled genes [18662546].
SIRT1 directly [21187328] and indirectly [20450879] prevents telomere shortening. | House mouse |
| VPS30 | Vacuolar Protein Sorting 30 | VPS30 deletion prevents chronological lifespan extension induced by amino-acid DR [20421943]. | Budding yeast |
| VPS20 | Vacuolar Protein Sorting 20 | VPS20 deletion decreases mean and maximum replicative lifespan by 16% and 19%, respectively, and additionally cancels out the DR-induced replicative lifespan extension [22912585]. | Budding yeast |
| vps-34 | related to yeast Vacuolar Protein Sorting factor 34 | vps-34 RNAi does not significantly change lifespan of wild-type, but cancels out the lifespan extension effect of eat-2 mutation [18282106]. | Nematode |
| VMA2 | Vacuolar Membrane Atpase 2 | VMA2 deletion mutants have a reduced ΔΨ and mitochondrial morphology similar to aged cells. The restoration of the vacuolar acidity in daughter cells requires V-ATPase activity as it is eliminated in VMA2 deletion mutant cells [23172144]. VMA2 deletion mutation decreases the mean replicative lifespan by 80% in the alpha strain [18340043]. Deletion of VMA2 decreases mean, median and maximum replicative lifespan by 84%, 84% and 70%, respectively. DR (0.5% glucose restriction) does not extend the replicative lifespan of VMA2 and shortens it even more [23172144]. | Budding yeast |
| VAM7 | VAcuolar Morphogenesis 7 | VAM7 deletion decreases replicative lifespan under AL and blocked DR-mediated lifespan extension. Replicative lifespan decreases by 70% on DR in VAM7 deletion mutant [18690010]. | Budding yeast |
| ATG16 | AuTophaGy related 16 | Under AL atg16 mutation shortens chronological, but not replicative lifespan. 0.5% glucose DR extends chronological lifespan of atg16 mutants, but amino-acid DR does not extend the short chronological lifespan of atg16 mutants (similar to several other autophagy mutants). ADE4 deletion in atg16 mutants results only in a partial extension of chronological lifespan by 0.5% glucose DR. The long chronological lifespan of tor1 mutants requires ATG16 [20421943]. | Budding yeast |
| unc-51 | UNCoordinated-51 | unc-51(e369) mutation reduces mean but extends maximum lifespan. unc-51(e369) mutation reduces lifespan of eat-2(ad1116) mutants to that of wild-type [18219227]. | Nematode |
| S6k | RPS6-p70-protein kinase | Ubiquitous overexpression of a dominant-negative form of S6k (alias dS6K) increases mean lifespan by 22% and overexpression of a constitutively active form of S6k decreases mean lifespan by 34% at 29°C. Overexpression of a dominant-negative form of S6k protects mutants from deleterious effects of rich food, as if mimicking the effect of DR [15186745]. | Fruit fly |
| Cbs | — | Ubiquitous or neuron-specific transgenic overexpression of Cbs enhances longevity in fully-fed animals. Cbs RNAi partially abrogates increased lifespan by DR, but has no effect on fully fed animals. Cbs upregulation is required for increased lifespan under low-nutrient conditions. Response of male flies to DR is muted in comparison with females. Adult-specific ubiquitous expression of Cbs is sufficient to increase female mean and maximum lifespan by 12 - 43% and 10%, respectively. Males, whose lifespan is relatively less affected by DR, exhibite a smaller, but still significant increase in lifespan by 7% upon Cbs overexpression. Neuronal overexpression also increases lifespan, albeit modestly (approximately 12% mean and 15% maximum lifespan extension), whereas overexpression in the fat body and in the gut has no effect [21930912]. | Fruit fly |
| ubc-18 | UBiquitin Conjugating enzyme 18 | ubc-18 overexpression is unable to extend lifespan (possibly, UBC-18 is not limiting for WWP-1 function in lifespan). Loss of ubc-18 function by mutation or RNAi reduces lifespan at 25 degree Celsius, but only slightly at 20 degree Celsius. RNAi depletion of ubc-18 completely suppresses increased longevity of eat-2 mutants. RNAi depletion of ubc-18 has no effect on long lifespan of isp-1 or daf-2 mutants. Combined knockdown of wwp-1 and ubc-18 by RNAi does not shorten lifespan any further than RNAi of either single gene. Knockdown of ubc-18 suppresses extended lifespan of wwp-1 overexpression [19553937]. | Nematode |
| 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 |
| 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 |
| trx-1 | ThioRedoXin 1 | Thioredoxins regulate many cellular redox processes. trx-1 is mainly associated with neurons and is expressed in ASJ ciliated sensory neurons and to some extent also on the posterior-most internal cells. trx-1 reduces protein disulfides in the presence of a heterologous thioredoxin reductase. trx-1 null mutant display reduced mean and maximum lifespan [16387300]. Mutants with a deletion in the trx-1 gene display a decrease in lifespan and are sensitive to oxidative stress [16324156]. trx-1 overexpression extends lifespan in wild-type but not in eat-2 mutants. trx-1 deletion completely suppresses the lifespan extension caused by eat-2 mutation, but only partially suppresses that by daf-2 or osm-5 mutations. Ectopic expression of trx-1 in ASJ neurons (but not in the intestine) in trx-1 mutants rescues the lifespan-extension conferred by eat-2 mutation. trx-1 overexpression extends lifespan of wild-type but not in eat-2 mutants. trx-1 deletion almost completely suppresses lifespan extension induced by dietary deprivation (DD). DD upregulates trx-1 expression in ASJ neurons. DR activates trx-1 in ASJ neurons which in turn triggers a trx-1-dependent non-cell autonomous mechanism to extend adult lifespan [21334311].
| Nematode |
| CYR1 | CYclic AMP Requirement 1 | The CDC35-1 allele of the adenylate cyclase CYR1 confers a 75% extension of replicative lifespan at 25 degree Celsius [11000115]. Transposon-mutagenized CYR1 increases resistance to oxidants and extends chronological lifespan by up to 90%. Stress-resistance transcription factors Msn2/Msn4 and protein kinase Rim15 are required for this lifespan extension [11292860]. CYR1 mutation is assumed to act as genetic DR mimetic [11000115]. The CDC35-1 allele of the adenylate cyclase CYR1 confers a 75% extension of replicative lifespan at 25 degree Celsius [11000115]. cyr1-1 mutation extends median chronological lifespan by 28-47% and is non-addative with lifespan extension conferred by overxpression of human MAPK1 [17662940]. | 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 |
| 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 |
| SWH1 | — | SWH1 (alias OSH1) deletion mutants have an extended replicative lifespan (p=0.02) and DR does not increase the long lifespan of SWH1 deletion mutants [Xia et al. unpublished]. | Budding yeast |
| SLM4 | Synthetic Lethal with Mss4 4 | SLM4 deletion blocks replicative lifespan extension by moderate DR, but does affect lifespan on AL significantly [22912585]. | Budding yeast |
| slcf-1 | SoLute Carrier Family 1 | slcf-1 RNAi or mutation extends the lifespan. slcf-1 mutation increases average lifespan by 40%. DR (by dilution of bacteria on solid medium or by bacterial deprivation) failes to extend slcf-1 mutant's long lifespan and lifespan is even reduced by lowering bacteria concentration (i.e. higher strength of DR) [21040400]. | Nematode |
| sir-2.1 | Yeast SIR related 1 | sir-2.1 deletion slightly reduces lifespan of wild-type [16860373]. sir-2.1 overexpression extends lifespan by about 50% and this lifespan extension depends on DAF-16 activity as it is suppressed by mutation in daf-16 and it does not synergize with daf-2 [11242085]. sir-2.1 suppresses longevity of unc-13 and eat-2, but not daf-2 or unc-64 mutants. sir-2.1 is therefore partially required for lifespan extension from mutation of eat-2 [16860373], but is completely independent for lifespan extension from DR using a reduced feeding protocol [Kaeberlein et al. in press]. sDR increases lifespan of wild-type and sir-2.1 mutants to the same extent [19239417].
Overrexpression of sir-2.1 synergizes with TGF-beta mutation (daf-4 and daf-1) for dauer formation [11242085]. | Nematode |
| shk-1 | SHaKer family of potassium channels 1 | shk-1 encodes a shaker family of potassium channel which functions in muscle [21059759], is expressed in sensory neurons [16899454], and downregulated in space. Mutation or RNA interference of shk-1 extends lifespan on NGM agar covered with killed or live bacteria as well as in liquid culture medium. shk-1 RNAi extends mean, 75%ile, and maximum lifespan by 16, 15, and 22%. shk-1(RB1392) mutation extends mean, 75%ile, and maximum lifespan by 19-22, 19-21, and 20-24%. Lifespan extension by unc-17 mutation is totally abolished by RNAi inactivation of either daf-16 or skn-1. eat-2 RNAi shortens the lifespan of shk-1 mutants. RNAi inactivation of shk-1 reduces Q35 aggregation [22768380].
Mutation and RNAi of shk-1 enhance pheromone-induced dauer formation [22768380].
| Nematode |
| SFA1 | Sensitive to FormAldehyde 1 | sfa1;yhb1 double mutant cancels out the ability of moderate DR to extend replicative lifespan, but not chronological lifespan. Indicating that NO homeostasis is crucial during DR-induced replicative lifespan extension. Deleting YHB1 partially abolishes the DR-induced replicative lifespan extension, whereas deleting SFA1 alone had no effect. Yhb1 and Sfa1 may play redundant roles [21584246]. | Budding yeast |
