Measurements

ID experiment control background genotype manipulation diet temperature start mean median max num
109 Table 2. First-order interactors of LAGs in the HLN regulate lifespan in C. elegans. N2 Bristol F10B5.6 RNA Interference
194 Figure 3 | Reduced vacuolar acidity causes mitochondrial dysfunction by disrupting amino acid homeostasis. S288c AVT1(OE) 37.0 37.0 62.0 32
196 Figure 2 | Vacuolar acidity is reduced in ageing cells and regulates mitochondrial function and lifespan. S288c WT 28.0 28.0 50.0 50
213 Figure 4 | Calorie restriction extends lifespan by regulating vacuolar acidity. S288c WT 29.0 29.0 50.0 38
577 Table 1 Lifespan analyses frh-1 dsRNA constructs - summary statistics WT RNA Interference frh-1 IV(RNAi) 20.9 37.0 149
210 Figure 4 | Calorie restriction extends lifespan by regulating vacuolar acidity. S288c WT Dietary Restriction 45.0 45.0 75.0 31
197 Figure 2 | Vacuolar acidity is reduced in ageing cells and regulates mitochondrial function and lifespan. S288c VMA1(OE) 39.0 39.0 80.0 56
214 Figure 4 | Calorie restriction extends lifespan by regulating vacuolar acidity. S288c WT Dietary Restriction 44.0 43.5 76.0 40
193 Figure 3 | Reduced vacuolar acidity causes mitochondrial dysfunction by disrupting amino acid homeostasis. S288c WT 28.95 29.0 51.0 32
212 Figure 4 | Calorie restriction extends lifespan by regulating vacuolar acidity. S288c vma2 Dietary Restriction 2.0 2.0 12.0 52
120 Table 2. First-order interactors of LAGs in the HLN regulate lifespan in C. elegans. N2 Bristol D1014.3 RNA Interference
195 Figure 3 | Reduced vacuolar acidity causes mitochondrial dysfunction by disrupting amino acid homeostasis. S288c avt1 23.0 22.5 45.0 31
211 Figure 4 | Calorie restriction extends lifespan by regulating vacuolar acidity. S288c vma2 5.0 5.0 15.0 60
209 Figure 4 | Calorie restriction extends lifespan by regulating vacuolar acidity. S288c WT 31.0 31.5 50.0 32
121 Table 2. First-order interactors of LAGs in the HLN regulate lifespan in C. elegans. N2 Bristol K02D10.5 RNA Interference
114 Table 2. First-order interactors of LAGs in the HLN regulate lifespan in C. elegans. N2 Bristol F18A1.5 RNA Interference
113 Table 2. First-order interactors of LAGs in the HLN regulate lifespan in C. elegans. N2 Bristol F28D9.1 RNA Interference
112 Table 2. First-order interactors of LAGs in the HLN regulate lifespan in C. elegans. N2 Bristol F26F4.11 RNA Interference
116 Table 2. First-order interactors of LAGs in the HLN regulate lifespan in C. elegans. N2 Bristol Y40B1A.4 RNA Interference
118 Table 2. First-order interactors of LAGs in the HLN regulate lifespan in C. elegans. N2 Bristol C52E4.4 RNA Interference
117 Table 2. First-order interactors of LAGs in the HLN regulate lifespan in C. elegans. N2 Bristol ZK1058.2 RNA Interference
115 Table 2. First-order interactors of LAGs in the HLN regulate lifespan in C. elegans. N2 Bristol C01H6.5 RNA Interference
111 Table 2. First-order interactors of LAGs in the HLN regulate lifespan in C. elegans. N2 Bristol T09B4.10 RNA Interference
119 Table 2. First-order interactors of LAGs in the HLN regulate lifespan in C. elegans. N2 Bristol F26H9.6 RNA Interference
110 Table 2. First-order interactors of LAGs in the HLN regulate lifespan in C. elegans. N2 Bristol F29G9.3 RNA Interference