| ARO7 deletion | Under starvation/extreme DR deletion of ARO7 increases mean chronological lifespan and confers higher resistance to heat-shock, but made cell more sensitive to acetic acid and leads to growth defects. In W303-1A background ARO7 deletion causes an even more severe growth defect and mutants are short-lived [20657825]. | Yeast | — | — | — |
| FAR3 deletion | Deletion of FAR3 significantly reduces mean chronological lifespan under starvation/extreme DR relatively to wild-type [20657825]. | Yeast | — | — | — |
| FAR11 deletion | Deletion of FAR11 significantly reduces mean chronological lifespan under starvation/extreme DR relatively to wild-type [20657825]. | Yeast | — | — | — |
| PPG1 deletion | PPG1 deletion reduces significantly mean chronological lifespan under starvation/extreme DR [20657825]. | Yeast | — | — | — |
| BUL1 deletion | Deletion of BUL1 does non-significantly reduces mean chronological lifespan under starvation/extreme DR [20657825]. | Yeast | — | — | — |
| PAN2 deletion | Deletion mutant of PAN2 live approximately as long as wild-type under starvation/extreme DR [20657825]. | Yeast | — | — | — |
| BRE5 deletion | Deletion of BRE5 increases mean replicative lifespan by 30% [16293764] and mean chronological lifespan in diploid cells [21447998] | Yeast | +30 | — | — |
| CCR4 deletion | Deletion of CCR4 increases mean chronological lifespan by 20 - 41% (20, 33, 41) in diploid cells [21447998]. In W303R CCR4 deletion shortens replicative lifespan by approximately 80% and results in temperature sensitivity that is suppressed by SSD1-V. SSD1-V partially suppresses the short-lifespan of ccr4 mutant. CCR4 mutation is synthetically lethal in combination with deletion of MPT5 in the absence of SSD1-V [11805047]. | Yeast | -80 to +20 | — | — |
| HPR1 deletion | Deletion of HPR1 decreases replicative lifespan [11756539] | Yeast | — | — | — |
| CIT2 deletion | Deletion of CIT2 has no effect on replicative lifespan [10224252]. | Yeast | — | — | — |
| COQ3 deletion | Deletion of COQ3 decreases chronological lifespan and renders cells respiratory deficient and sensitive to hydrogen peroxide [12586694]. | Yeast | — | — | — |
| CPR7 deletion | Deletion of CPR7 has no effect on lifespan replicative lifespan, but increases chronological lifespan [11361336] | Yeast | — | — | — |
| CTF4 deletion | Deletion of CTF4 results in an approximately 75% reduced mean replicative lifespan [12024027]. | Yeast | — | — | — |
| CYT1 deletion | Deletion of CYT1 increases replicative lifespan by 15% in the alpha strain and decreases replicative lifespan by 20% in a strain. Deletion of CYT1 decreases replicative lifespan and cancels out replicative lifespan extension by HAP4 overexpression. Initially, it was shown that deletion of CYT1 also prevents lifespan extension by 0.5% glucose restriction [12124627], but later it was shown that either 0.5 or 0.05 % glucose restriction increases replicative lifespan of cyt1Delta cells [16311627]. | Yeast | — | — | — |
| DNA2 deletion | Mutants in DNA2 exhibit an accelerated ageing phenotype including extended cell cycle time, age-related transcriptional silencing defects, and nucleolar reorganization, which are all phenotypes of old wild-type cells. Lifespan of DNA2 mutants is extended by expression of an additional copy of SIR2 or by deletion of FOB1 and therefore the lifespan shortening partially suppressed. Three different alleles of DNA2 (dna2-1, dna2-2, and dna2-20) result in a significant shortened lifespan up to 85%. DNA2 mutation shorten the already short lifespan of SGS1 mutants [12024027]. | Yeast | — | — | — |
| FOB1 deletion | Mutation in FOB1 extends replicative lifespan by 30-50% [10230397]. FOB1 mutation increases replicative lifespan by 25% in the alpha strain and by 10% in a strain [19030232]. FOB1 mutant exhibit an about 20% mean replicative lifespan increase [15722108]. Deletion of FOB1 causes extension in the short life span of the sir2 mutant by around 50% [10521401]. Mutation of the FOB1 gene slows the generation of rDNA circles and thus extends life span by approximately 30% in W303 and 50% in K2307 [10230397]. Even in cells lacking both Sir2 and Fob1, nicotinamide prevents the lifespan extension by DR [16311627]. | Yeast | — | — | — |
| GPA2 deletion | Deletion of GPA2 increases mean and maximum replicative lifespan by 40% and 26%, respectively. GPA2 deletion extends replicative lifespan by reducing cAMP-PKA activity and provides a genetic model for DR [11000115]. | Yeast | +40 | — | +26 |
| GPD1 deletion | GPD1 deletion shortens replicative lifespan by 25% and prevents lifespan extension by high osmolarity [12391171]. | Yeast | +25 | — | — |
| GPR1 deletion | 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]. | Yeast | +41 | — | +26 |
| HAP5 deletion | Deletion of HAP5 shortens replicative lifespan by approximately 40%. This is not a premature aging phenotype as "old" HAP5 cells do not become premature sterile or exhibit other biomarkers of yeast aging [9271578]. HAP5 null mutants are unable to grow on a non-fermentable carbon source [7828851]. | Yeast | -40 | — | — |
| HDA1 deletion | Deletion of HDA1 has no effect on longevity under AL, but acts synergistically with 0.1% glucose restriction to increase replicative lifespan [12213553]. Deletion of HDA1 leads to a slightly increased chronological lifespan [19801973]. Deletion of HDA1 has no effect on the wild-type lifespan in the short-lifespan of YSK771 strain, but suppresses the short-lifespan of SIR3 mutants [10512855]. Null mutation results in increased telomeric silencing and increased histone acetylation [8962081]. | Yeast | — | — | — |
| YKU70 deletion | Deletion fo YKU70 shortens lifespan, but does not accelerate the normal aging process [10521401]. YKU70 null mutants are defective for non-homologous end-joining [8754818] and for telomeric silencing [9635192]. | Yeast | — | — | — |
| YKU80 deletion | Deletion of YKU80 shortens replicative lifespan, but does not accelerate the normal aging process [10521401]. YKU80 null mutant is defective for non-homologous end-joining [8754818] and for telomere silincing [9501103; 9635192] | Yeast | — | — | — |
| HOG1 deletion | Deletion of HOG1 shortens replicative lifespan by 25% and prevents lifespan extension by high osmolarity [12391171]. HOG1 deletion slightly decreases chronological lifespan and partially suppresses the premature aging phenotype and short lifespan of ISC1 deletion [22445853]. | Yeast | -25 | — | — |
| SRS2 deletion | Deletion of SRS2 shortens mean replicative lifespan by 50% [11290710]. Overexpression of SGS1 increases maximum, but not mean lifespan of SRS2 mutants [11861900]. Deletion of SRS2 is synthetical lethal in combination with deletion of SGS1 [11290710]. | Yeast | -50 | — | — |
GenAge
GenDR
