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  • Author: Tavernarakis N
  • References

Author: Tavernarakis N


References 28 references


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  • Hofer SJ, et al. (2024) Spermidine is essential for fasting-mediated autophagy and longevity. Nat Cell Biol 26(9):1571-1584 PMID:39117797
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  • Hofer SJ, et al. (2024) A surge in endogenous spermidine is essential for rapamycin-induced autophagy and longevity. Autophagy 20(12):2824-2826 PMID:39212197
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  • Konstantinidis G and Tavernarakis N (2021) Autophagy of the Nucleus in Health and Disease. Front Cell Dev Biol 9:814955 PMID:35047516
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  • Charmpilas N, et al. (2020) Acyl-CoA-binding protein (ACBP): a phylogenetically conserved appetite stimulator. Cell Death Dis 11(1):7 PMID:31907349
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  • Markaki M and Tavernarakis N (2020) Mitochondrial turnover and homeostasis in ageing and neurodegeneration. FEBS Lett 594(15):2370-2379 PMID:32350855
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  • Papandreou ME and Tavernarakis N (2020) Nucleophagy mediators and mechanisms. Prog Mol Biol Transl Sci 172:1-14 PMID:32620238
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  • Papandreou ME and Tavernarakis N (2019) Nucleophagy: from homeostasis to disease. Cell Death Differ 26(4):630-639 PMID:30647432
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  • Niso-Santano M, et al. (2015) Unsaturated fatty acids induce non-canonical autophagy. EMBO J 34(8):1025-41 PMID:25586377
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  • Nikoletopoulou V, et al. (2014) Cellular and molecular longevity pathways: the old and the new. Trends Endocrinol Metab 25(4):212-23 PMID:24388148
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  • Bauer MA, et al. (2013) Spermidine promotes mating and fertilization efficiency in model organisms. Cell Cycle 12(2):346-52 PMID:23255134
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  • Büttner S, et al. (2013) The Ca2+/Mn2+ ion-pump PMR1 links elevation of cytosolic Ca(2+) levels to α-synuclein toxicity in Parkinson's disease models. Cell Death Differ 20(3):465-77 PMID:23154387
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  • Markaki M and Tavernarakis N (2013) Metabolic control by target of rapamycin and autophagy during ageing - a mini-review. Gerontology 59(4):340-8 PMID:23594965
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  • Kourtis N and Tavernarakis N (2011) Cellular stress response pathways and ageing: intricate molecular relationships. EMBO J 30(13):2520-31 PMID:21587205
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  • Eisenberg T, et al. (2010) Necrosis in yeast. Apoptosis 15(3):257-68 PMID:20238475
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  • Madeo F, et al. (2010) Can autophagy promote longevity? Nat Cell Biol 12(9):842-6 PMID:20811357
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  • Artal-Sanz M and Tavernarakis N (2009) Prohibitin and mitochondrial biology. Trends Endocrinol Metab 20(8):394-401 PMID:19733482
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  • Eisenberg T, et al. (2009) Induction of autophagy by spermidine promotes longevity. Nat Cell Biol 11(11):1305-14 PMID:19801973
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  • Kourtis N and Tavernarakis N (2009) Autophagy and cell death in model organisms. Cell Death Differ 16(1):21-30 PMID:19079286
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  • Morselli E, et al. (2009) Autophagy mediates pharmacological lifespan extension by spermidine and resveratrol. Aging (Albany NY) 1(12):961-70 PMID:20157579
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  • Tavernarakis N (2008) Ageing and the regulation of protein synthesis: a balancing act? Trends Cell Biol 18(5):228-35 PMID:18346894
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  • Syntichaki P and Tavernarakis N (2006) Signaling pathways regulating protein synthesis during ageing. Exp Gerontol 41(10):1020-5 PMID:16829008
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  • Benos P, et al. (2000) Acquisition of a potential marker for insect transformation: isolation of a novel alcohol dehydrogenase gene from Bactrocera oleae by functional complementation in yeast. Mol Gen Genet 263(1):90-5 PMID:10732677
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  • Tavernarakis N and Thireos G (1997) The DNA target sequence influences the dependence of the yeast transcriptional activator Gcn4 on co-factors. Mol Gen Genet 253(6):766-9 PMID:9079889
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  • Katsoulou C, et al. (1996) Sequence analysis of a 40.7 kb segment from the left arm of yeast chromosome X reveals 14 known genes and 13 new open reading frames including homologues of genes clustered on the right arm of chromosome XI. Yeast 12(8):787-97 PMID:8813765
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  • Tavernarakis N and Thireos G (1996) Genetic evidence for functional specificity of the yeast GCN2 kinase. Mol Gen Genet 251(5):613-8 PMID:8709969
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  • Tavernarakis N, et al. (1996) Gene overexpression reveals alternative mechanisms that induce GCN4 mRNA translation. Gene 179(2):271-7 PMID:8972911
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  • Kyrpides N, et al. (1995) A transient GCN4 mRNA destabilization follows GCN4 translational derepression. J Biol Chem 270(29):17317-20 PMID:7615533
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  • Tavernarakis N and Thireos G (1995) Transcriptional interference caused by GCN4 overexpression reveals multiple interactions mediating transcriptional activation. Mol Gen Genet 247(5):571-8 PMID:7603436
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