, Nuclear Organization and Genome Function, Annual Review of Cell and Developmental Biology, vol.28, issue.1, pp.163-87, 2012.
DOI : 10.1146/annurev-cellbio-101011-155824
, Building silent compartments at the nuclear periphery: a recurrent theme, Current Opinion in Genetics & Development, vol.23, issue.2, pp.96-103, 2013.
DOI : 10.1016/j.gde.2012.12.001
, Epigenetic Regulation of Condensin-Mediated Genome Organization during the Cell Cycle and upon DNA Damage through Histone H3 Lysine 56 Acetylation, Molecular Cell, vol.48, issue.4, pp.532-578, 2012.
DOI : 10.1016/j.molcel.2012.09.011
, Heterochromatin instability in cancer: From the Barr body to satellites and the nuclear periphery, Seminars in Cancer Biology, vol.23, issue.2, p.99, 2012.
DOI : 10.1016/j.semcancer.2012.06.008
, Perinuclear localization of chromatin facilitates transcriptional silencing, Nature, vol.61, issue.6693, pp.592-597, 1998.
DOI : 10.1016/0092-8674(90)90483-U
, The clustering of telomeres and colocalization with Rap1, Sir3, and Sir4 proteins in wild-type Saccharomyces cerevisiae, The Journal of Cell Biology, vol.134, issue.6, pp.1349-63, 1996.
DOI : 10.1083/jcb.134.6.1349
, Evidence for silencing compartments within the yeast nucleus: a role for telomere proximity and Sir protein concentration in silencer-mediated repression., Genes & Development, vol.10, issue.14, pp.1796-811, 1996.
DOI : 10.1101/gad.10.14.1796
, The functional importance of telomere clustering: Global changes in gene expression result from SIR factor dispersion, Genome Research, vol.19, issue.4, pp.611-636, 2009.
DOI : 10.1101/gr.083881.108
, The PIAS homologue Siz2 regulates perinuclear telomere position and telomerase activity in budding??yeast, Nature Cell Biology, vol.17, issue.7, pp.867-74, 2011.
DOI : 10.1002/(SICI)1097-0061(199807)14:10<953::AID-YEA293>3.0.CO;2-U
, Yeast telomerase and the SUN domain protein Mps3 anchor telomeres and repress subtelomeric recombination, Genes & Development, vol.23, issue.8, pp.928-966, 2009.
DOI : 10.1101/gad.1787509
, A three-dimensional model of the yeast genome, Nature, vol.465, issue.7296, pp.363-370, 2010.
DOI : 10.1073/pnas.0402766101
, Structure and Function in the Budding Yeast Nucleus, Genetics, vol.192, issue.1, pp.107-136, 2012.
DOI : 10.1534/genetics.112.140608
, Physical tethering and volume exclusion determine higher-order genome organization in budding yeast, Genome Research, vol.22, issue.7, pp.1295-305, 2012.
DOI : 10.1101/gr.129437.111
, Dynamical Modeling of Three-Dimensional Genome Organization in??Interphase Budding Yeast, Biophysical Journal, vol.102, issue.2, pp.296-304, 2012.
DOI : 10.1016/j.bpj.2011.12.005
, A Predictive Computational Model of the Dynamic 3D Interphase Yeast Nucleus, Current Biology, vol.22, issue.20, pp.1881-90, 2012.
DOI : 10.1016/j.cub.2012.07.069
URL : https://hal.archives-ouvertes.fr/pasteur-01420017
, Nutritional Control of Growth and Development in Yeast, Genetics, vol.192, issue.1, pp.73-105, 2012.
DOI : 10.1534/genetics.111.135731
, Genomic Analysis of Stationary-Phase and Exit in Saccharomyces cerevisiae: Gene Expression and Identification of Novel Essential Genes, Molecular Biology of the Cell, vol.15, issue.12, pp.5295-305, 2004.
DOI : 10.1091/mbc.E03-11-0856
, Genomic Expression Programs in the Response of Yeast Cells to Environmental Changes, Molecular Biology of the Cell, vol.11, issue.12, pp.4241-57, 2000.
DOI : 10.1091/mbc.11.12.4241
, Extending life span by increasing oxidative stress, Free Radical Biology and Medicine, vol.51, issue.2, pp.327-363, 2011.
DOI : 10.1016/j.freeradbiomed.2011.05.010
URL : https://doi.org/10.1016/j.freeradbiomed.2011.05.010
, Yeast cells can access distinct quiescent states, Genes & Development, vol.25, issue.4, pp.336-385, 2011.
DOI : 10.1101/gad.2011311
URL : http://genesdev.cshlp.org/content/25/4/336.full.pdf
, Clustering heterochromatin: Sir3 promotes telomere clustering independently of silencing in yeast, The Journal of Cell Biology, vol.149, issue.3, pp.417-448, 2011.
DOI : 10.1083/jcb.201008007.dv
URL : https://hal.archives-ouvertes.fr/hal-00631367
, Protein synthesis in long-term stationary-phase cultures of Saccharomyces cerevisiae., Journal of Bacteriology, vol.176, issue.18, pp.5802-5815, 1994.
DOI : 10.1128/jb.176.18.5802-5813.1994
, An array of nuclear microtubules reorganizes the budding yeast nucleus during quiescence, The Journal of Cell Biology, vol.93, issue.4, pp.585-94, 2013.
DOI : 10.1083/jcb.201306075.dv
URL : https://hal.archives-ouvertes.fr/hal-00940307
, Isolation of quiescent and nonquiescent cells from yeast stationary-phase cultures, The Journal of Cell Biology, vol.57, issue.1, pp.89-100, 2006.
DOI : 10.1101/gr.225402
, Capturing Chromosome Conformation, Science, vol.295, issue.5558, pp.1306-1317, 2002.
DOI : 10.1126/science.1067799
, 3D genome reconstruction from chromosomal contacts, Nature Methods, vol.4, issue.11, pp.1141-1144, 2014.
DOI : 10.1103/PhysRevE.84.041112
, Chromosome arm length and nuclear constraints determine the dynamic relationship of yeast subtelomeres, Proceedings of the National Academy of Sciences, vol.44, issue.7197, pp.2025-2055, 2010.
DOI : 10.1016/S0167-9473(03)00030-6
, Key events during the transition from rapid growth to quiescence in budding yeast require posttranscriptional regulators, Molecular Biology of the Cell, vol.24, issue.23, pp.3697-709, 2013.
DOI : 10.1091/mbc.E13-05-0241
, Slow Growth Induces Heat-Shock Resistance in Normal and Respiratory-deficient Yeast, Molecular Biology of the Cell, vol.20, issue.3, pp.891-903, 2009.
DOI : 10.1091/mbc.E08-08-0852
, Mitohormesis, Cell Metabolism, vol.19, issue.5, pp.757-66, 2014.
DOI : 10.1016/j.cmet.2014.01.011
URL : https://doi.org/10.1016/j.cmet.2014.01.011
, Hydrogen Peroxide Sensing and Signaling, Molecular Cell, vol.26, issue.1, pp.1-14, 2007.
DOI : 10.1016/j.molcel.2007.03.016
, Caloric restriction or catalase inactivation extends yeast chronological lifespan by inducing H2O2 and superoxide dismutase activity, Proceedings of the National Academy of Sciences, vol.1762, issue.8, pp.15123-15131, 2010.
DOI : 10.1016/j.bbadis.2006.06.011
URL : http://www.pnas.org/content/107/34/15123.full.pdf
, SOD2 functions downstream of Sch9 to extend longevity in yeast, Genetics, vol.163, pp.35-46, 2003.
, SIR???nucleosome interactions: Structure???function relationships in yeast silent chromatin, Gene, vol.527, issue.1, pp.10-25, 2013.
DOI : 10.1016/j.gene.2013.05.088
, The proteomics of quiescent and nonquiescent cell differentiation in yeast stationary-phase cultures, Molecular Biology of the Cell, vol.22, issue.7, pp.988-98, 2011.
DOI : 10.1091/mbc.E10-06-0499
, Silent repair accounts for cell cycle specificity in the signaling of oxidative DNA lesions, The EMBO Journal, vol.20, issue.11, pp.2896-906, 2001.
DOI : 10.1093/emboj/20.11.2896
, Epigenetic Silencing Mediates Mitochondria Stress-Induced Longevity, Cell Metabolism, vol.17, issue.6, pp.954-64, 2013.
DOI : 10.1016/j.cmet.2013.04.003
URL : https://doi.org/10.1016/j.cmet.2013.04.003
, Superoxide dismutase 1 acts as a nuclear transcription factor to regulate oxidative stress resistance, Nature Communications, vol.22, p.3446, 2014.
DOI : 10.1093/emboj/cdg578
, Chromatin architecture reorganization during stem cell differentiation, Nature, vol.482, issue.7539, pp.331-337, 2015.
DOI : 10.1038/nature10808
URL : http://www.nature.com/nature/journal/v518/n7539/pdf/nature14222.pdf
, Re-modelling of nuclear architecture in quiescent and senescent human fibroblasts, Current Biology, vol.10, issue.3, pp.149-52, 2000.
DOI : 10.1016/S0960-9822(00)00312-2
, Chromatin maintenance and dynamics in senescence: a spotlight on SAHF formation and the epigenome of senescent cells, Chromosoma, vol.83, issue.Pt 20, p.423, 2014.
DOI : 10.1016/j.lfs.2008.07.015
, Nuclear Architecture of Rod Photoreceptor Cells Adapts to Vision in Mammalian Evolution, Cell, vol.137, issue.2, pp.356-68, 2009.
DOI : 10.1016/j.cell.2009.01.052
, Sir2 Blocks Extreme Life-Span Extension, Cell, vol.123, issue.4, pp.655-67, 2005.
DOI : 10.1016/j.cell.2005.08.042
URL : https://hal.archives-ouvertes.fr/ensl-00705803
, Lack of Sir2 increases acetate consumption and decreases extracellular pro-aging factors, Biochimica et Biophysica Acta (BBA) - Molecular Cell Research, vol.1833, issue.3, pp.593-601, 2013.
DOI : 10.1016/j.bbamcr.2012.11.008
, Elevated recombination rates in transcriptionally active DNA, Cell, vol.56, issue.4, pp.619-649, 1989.
DOI : 10.1016/0092-8674(89)90584-9
, Additional modules for versatile and economical PCR-based gene deletion and modification in Saccharomyces cerevisiae, Yeast, vol.13, issue.10, pp.953-61, 1998.
DOI : 10.1128/MCB.4.8.1440
, species through an optimized centrifugal elutriation procedure, Yeast, vol.21, issue.5, pp.159-66, 2014.
DOI : 10.1101/gr.122267.111
URL : https://hal.archives-ouvertes.fr/pasteur-01420008
, Filling annotation gaps in yeast genomes using genome-wide contact maps, Bioinformatics, vol.30, issue.15, pp.2105-2118, 2014.
DOI : 10.1093/bioinformatics/btu162
URL : https://hal.archives-ouvertes.fr/pasteur-01488132
, Fast gapped-read alignment with Bowtie 2, Nature Methods, vol.9, issue.4, pp.357-366, 2012.
DOI : 10.1093/bioinformatics/btp352
URL : https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3322381/pdf
, Normalization of a chromosomal contact map, BMC Genomics, vol.13, issue.1, p.436, 2012.
DOI : 10.1186/gb-2009-10-3-r25
URL : https://hal.archives-ouvertes.fr/pasteur-00769663
, Chromosome Dynamics in the Yeast Interphase Nucleus, Science, vol.294, issue.5549, pp.2181-2187, 2001.
DOI : 10.1126/science.1065366
, Saccharomyces cerevisiae strain:BY4741/W303 (bakerí s yeast)
, 10 20 30" 40" 50" 60" 70" 0" 1" 2" 3" 4" 5" 6" 7" 8" 0" 10" 20" 30" 40" 50" 60" 70" 0" 1" 2" 3" 4" 5" 6" 7" 8" 0" 10
, Regulation of Subtelomeric Silencing during Stress Response, Molecular Cell, vol.10, issue.6, 2002.
DOI : 10.1016/S1097-2765(02)00695-0
, The nuclear envelope and transcriptional control, Nature Reviews Genetics, vol.24, issue.7, 2007.
DOI : 10.1242/jcs.00964
, ! Isolation! of! quiescent! and! nonquiescent! cells! from!, 2006.
, ACETYLATION AND METHYLATION OF HISTONES AND THEIR POSSIBLE ROLE IN THE REGULATION OF RNA SYNTHESIS, Proceedings of the National Academy of Sciences, vol.51, issue.5, 1964.
DOI : 10.1073/pnas.51.5.786
, ! Nuclear! and! chromatin! reorganization! in! the! MHCDOct3/4! locus! at! developmental! phases! of! embryonic!stem!cell!differentiation, 2006.
, !Characterization!of! differentiated! quiescent! and! nonquiescent! cells, 2008.
, ! Structural!basis!of!silencing, 2011.
, !The!NDterminal!acetylation!of!Sir3!stabilizes!its!binding!to!the! nucleosome!core!particle, !Nature!structural!&!molecular!biology!, vol.20, 2000.
, ! Nucleosomes,! linker! DNA,! and! linker! histone! form! a! unique! structural! motif! that! directs! the! higherDorder! folding! and! compaction!of!chromatin, 1998.
, ! Nicotinamide! riboside! promotes! Sir2! silencing! and! extends! lifespan! via! Nrk!and!Urh1, 2007.
DOI : 10.1016/j.cell.2007.03.024
URL : https://doi.org/10.1016/j.cell.2007.03.024
, !Inhibition!of!silencing!and!accelerated!aging!by!nicotinamide,!a!putative! negative! regulator! of! yeast! sir2! and! human! SIRT1.! The! Journal! of! biological! chemistry!277, ! Semin!Cell!Dev!Biol, 2002.
, ! The! spatial! organization! of! human! chromosomes! within! the! nuclei! of! normal!and!emerinDmutant!cells.!Human!molecular!genetics!10,! Changes! in! chromosome!organization!during!PHADactivation!of!resting!human!lymphocytes! measured!by!cryoDFISH.!Chromosome!research!:!an!international!journal!on!the! molecular,!supramolecular!and!evolutionary!aspects!of!chromosome!biology!16! Nutritional! control! of! growth! and! development! in! yeast, Genetics!, vol.192, issue.!, 1999.
, ! The! nuclear! lamins:! flexibility! in! function! A! molecular!mechanism!of!chronological!aging!in!yeast! Chromosome! looping! in! yeast, Cell!Cycle!8, 2005.
, !AcetylDCoA!induces!cell!growth!and! proliferation! by! promoting! the! acetylation! of! histones! at! growth! genes.! Molecular!cell!42! NAD+! as! a! signaling! molecule! modulating! metabolism.!Cold!Spring!Harbor!symposia!on!quantitative!biology!76,! NAD(+)! Metabolism! and! the! Control!of!Energy!Homeostasis:!A!Balancing!Act!between!Mitochondria!and!the! Nucleus! Cell! differentiation! within! a! yeast! colony:! metabolic! and! regulatory! parallels! with! a! tumorDaffected!organism.!Molecular!cell!46, !Cell!metabolism!, vol.22, issue.!, 2005.
, ! Lack! of! Sir2! increases! acetate! consumption! and! decreases! extracellular! proDaging! factors, ! Biochimica!et!, 2013.
, !Active!segregation! of! yeast! mitochondria! by! Myo2! is! essential! and! mediated! by! Mmr1! and! Ypt11! ChromatinDdriven! behavior! of! topologically! associating!domains!Nuclear!aggregation!of!olfactory!receptor!genes!governs!their!monogenic! expression, Yeast! Cells.! Proceedings!of!the!National!Academy!of!Sciences!of!the!United!States!of!America!! Curr!Biol!!Journal!of!molecular!biology!!Cell!, vol.5123427151, 1964.
, ! Structure! and! function! of! the! Saccharomyces! cerevisiae! Sir3! BAH! domain.! Molecular!and!cellular!biology!26! Chromatin! maintenance! and! dynamics! in! senescence:!a!, 2006.
, ! NonDrandom! radial! higherDorder! chromatin!arrangements!in!nuclei!of!diploid!human!cells.!Chromosome!research! :! an! international! journal! on! the! molecular, 2001.
, !Rabl's!model!of!the!interphase!chromosome!arrangement!tested! in!Chinese!hamster!cells!by!premature!chromosome!condensation!and!laserDUVD microbeam!experiments.!Human!genetics!60!Chromosome!territories.!Cold!Spring!Harbor! perspectives!in!biology!2,!a003889! Differences! in! the! localization! and! morphology! of! chromosomes! in! the! human! nucleus.!The!Journal!of!cell!biology!145!A!brief!review!of!nucleosome!structure, Proc!Natl!Acad!Sci! U!S!A!89 Proliferation/Quiescence:! When! to! start?!Where!to!stop?!What!to!stock?!Cell!Div!6, 1982.
, ! The! proteomics! of! quiescent! and! nonquiescent! cell! differentiation, 2011.
, !The!Crabtree!effect:!a!regulatory!system!in!yeast.!Journal! of!general!microbiology!44, 1966.
, ! The! essence! of! yeast! quiescence.! FEMS! microbiology! reviews!36,! A! decade! of! 3C! technologies:! insights! into! nuclear!organization!Capturing!chromosome! conformation, !Genes!&!development!, vol.26, 2002.
, ! Topological! domains! in! mammalian! genomes! identified! by! analysis! of! chromatin!interactions.!Nature!485! Nucleosome! arrays! reveal! the! twoDstart! organization! of! the! chromatin! fiber!Structural!basis! for! the! role! of! the! Sir3! AAA+! domain! in! silencing:! interaction! with! Sir4! and! unmethylated!histone!H3K79, !Science!!Subtelomeres!!Genes!&!development!, vol.30625, 2004.
, !Superoxide!is!a!mediator!of!an! altruistic!aging!program!in!Saccharomyces!cerevisiae.!The!Journal!of!cell!biology! 166,!Sir2!blocks!extreme!lifeDspan!extension, !Cell!, vol.123, 2004.
, ! Regulation!of!longevity!and!stress!resistance!by!Sch9!in!yeast.!Science!292,!288D 290!The!Cell, ! Fawcett!, 1966.
, ! Systematic! protein! location! mapping! reveals! five! principal! chromatin! types! in! Drosophila!cells.!Cell!143,! Chromatin! states! in! pluripotent,! differentiated,!and!reprogrammed!cells! Extending! healthy! life! spanDD from!yeast!to!humans, !Curr!Opin!Genet!Dev!!Science!, vol.21328, 1999.
, !Nuclear!organization!of!the!genome!and!the! potential!for!gene!regulation.!Nature!447,! Frequent! ectopic! recombination!of!virulence!factor!genes!in!telomeric!chromosome!clusters!of!P.! falciparum.!Nature!407! Protein! synthesis! in! longDterm! stationaryDphase! cultures! of! Saccharomyces! cerevisiae, ! Journal! of! bacteriology!, vol.176, 1993.
, ABSTRACT, Eukaryotic Cell, vol.13, issue.12, 2014.
DOI : 10.1128/EC.00189-14
, !Live!cell!imaging!of!telomerase!RNA!dynamics!reveals! cell!cycleDdependent!clustering!of!telomerase!at!elongating!telomeres, J.S.!, 2004.
, Genomic Expression Programs in the Response of Yeast Cells to Environmental Changes, Molecular Biology of the Cell, vol.11, issue.12, 2000.
DOI : 10.1091/mbc.11.12.4241
, !Chromatin!organization!and! differentiation! in! embryonic! stem! cell! models.! Current! opinion! in! genetics! &! development!17,!Exploring!the!lag!phase! and!growth!initiation!of!a!yeast!culture!by!means!of!an!individualDbased!model.! Food!microbiology!28, The! 3D! genome! in! transcriptional! regulation!and!pluripotency.!Cell!Stem!Cell!14,!762D775, 2007.
, !The!clustering!of!telomeres!and!colocalization!with!Rap1,!Sir3, 1996.
, ! Functional! characterization! of! the!N!terminus!of!Sir3p.!Molecular!and!cellular!biology!18,!Position! effect!at!S.!cerevisiae!telomeres:!reversible!repression!of!Pol!II!transcription.!Cell! 63,! Pericentric! heterochromatin! reprogramming! by! new! histone! variants! during! mouse! spermiogenesis.! The! Journal!of!cell!biology!176! Histone! variants! and! sensing! of! chromatin! functional!states, Sleeping! beauty":! quiescence! in! Saccharomyces! cerevisiae.!Microbiology!and!molecular!biology!reviews!:!MMBR!68,!187D206, 1990.
, ! DamID:! mapping! of! in! vivo! proteinDgenome! interactions! using! tethered! DNA! adenine! methyltransferase.! Methods!in!enzymology!410,!AcylDCoA!metabolism!and! partitioning.!Annual!review!of!nutrition!34, 2006.
, ! The! logic! linking! protein! acetylation! and! metabolism.! Cell! metabolism!14,!151D153, 2011.
DOI : 10.1016/j.cmet.2011.07.007
URL : https://doi.org/10.1016/j.cmet.2011.07.007
, ! Spatial! reorganization! of! telomeres! in! longDlived! quiescent! cells.! Genome! biology! 16,! 206!Histone!modifications!and!a!choice! of!variant:!a!language!that!helps!the!genome!express!itself.!F1000prime!reports! 6,!76! The! nexus! of! chromatin! regulation! and! intermediary!metabolism, DNA!Repair!(Amst)!3,!769D776.! !! ! 143, 2004.
, ! Role! of! Swi6/HP1! selfDassociationDmediated! recruitment! of! Clr4/Suv39! in! establishment! and! maintenance! of! heterochromatin! in! fission! yeast, 2011.
, !Genetic!and!epigenetic! regulation! of! the! FLO! gene! family! generates! cellDsurface! variation! in! yeast, 2004.
, ! AMPK:! positive! and! negative! regulation,! and! its! role! in! wholeDbody!energy!homeostasis.!Current!opinion!in!cell!biology!33,!1D7, 1974.
, ! Distinct! epigenomic! landscapes! of! pluripotent!and!lineageDcommitted!human!cells! Spreading! of! transcriptional!repressor!SIR3!from!telomeric!heterochromatin.!Nature!383,!92D 96, !Cell!Stem!Cell!, vol.6, 1996.
, ! Spatial! telomere!organization!and!clustering!in!yeast!Saccharomyces!cerevisiae!nucleus! is! generated! by! a! random! dynamics! of! aggregationDdissociation! Mapping!Nucleosome!Resolution!Chromosome!Folding!in!Yeast!by!MicroDC.!Cell! 162, The!histone!H1!family:!specific! members,!specific!functions?!Biological!chemistry!389,!333D343, 2008.
, ! Differentiation! and! large! scale! spatial!organization!of!the!genome! Heterochromatin! and! gene! positioning:!inside,!outside,!any!side?!Chromosoma!121! Genome! architectures! revealed! by! tethered! chromosome! conformation! capture! and! populationDbased!modeling.!Nature!biotechnology!30, Curr!Opin!Genet!Dev!, vol.20, 2010.
, ! Regulation! of! NAD+! metabolism,! signaling! and! compartmentalization!in!the!yeast!Saccharomyces!cerevisiae.!DNA!repair!23,!49D 58! Epigenetics! and! metabolism.! Circulation! research!116! Epigenetic! transmission! of! Holocaust! trauma:! can! nightmares!be!inherited?!Isr, J!Psychiatry!Relat!Sci!! J! Cell! Biol!, vol.50127, 1994.
, !Redistribution!of!silencing! proteins!from!telomeres!to!the!nucleolus!is!associated!with!extension!of!life!span! Yeast! cells! can! access! distinct! quiescent! states!SIR!proteins!and!the!assembly! of!silent!chromatin!in!budding!yeast.!Annual!review!of!genetics!47! Biology! of! telomeres:! lessons! from! budding! yeast.! FEMS! microbiology!reviews!38, 1997.
, ! The! silencing! protein! SIR2! and! its! homologs! are! NADD dependent! protein! deacetylases, 2000.
, An array of nuclear microtubules reorganizes the budding yeast nucleus during quiescence, The Journal of Cell Biology, vol.93, issue.4, 2013.
DOI : 10.1083/jcb.201306075.dv
URL : https://hal.archives-ouvertes.fr/hal-00940307
, Metabolic status rather than cell cycle signals control quiescence entry and exit, The Journal of Cell Biology, vol.53, issue.6, 2011.
DOI : 10.1038/msb.2009.2
URL : https://hal.archives-ouvertes.fr/hal-00581392
, Reversible cytoplasmic localization of the proteasome in quiescent yeast cells, The Journal of Cell Biology, vol.4, issue.5, 2008.
DOI : 10.1016/S1357-2725(02)00380-1
URL : https://hal.archives-ouvertes.fr/hal-00287603
, ! HighDresolution! mapping!of!the!spatial!organization!of!a!bacterial!chromosome.!Science!342,!731D 734!Chromatin!at!the!nuclear!periphery!and! the! regulation! of! genome! functions, 2013.
, Silent repair accounts for cell cycle specificity in the signaling of oxidative DNA lesions, The EMBO Journal, vol.20, issue.11, 1978.
DOI : 10.1093/emboj/20.11.2896
, ! Structure! and! organization! of! chromatin! fiber! in! the! nucleus.!FEBS!letters!589, 2015.
, !Key! events! during! the! transition! from! rapid! growth! to! quiescence! in! budding! yeast! require! posttranscriptional! regulators.! Molecular! biology! of! the! cell! 24,! 3697D 3709! The! histone! H3K36! demethylase! Rph1/KDM4! regulates! the! expression! of! the! photoreactivation! gene! PHR1, ! Nucleic! Acids! Res!! Mol! Biol!Cell!, vol.3924, 2011.
, !Calorie!restriction! extends!yeast!life!span!by!lowering!the!level!of!Nicotinamide!adenine!dinucleotide,!a!metabolic! regulator!of!transcription,!longevity!and!disease! Protein! acetylation! microarray! reveals! that! NuA4! controls!key!metabolic!target!regulating!gluconeogenesis.!Cell!136,!Assembly!of! the! SIR! complex! and! its! regulation! by! ODacetylDADPDribose,! a! product! of! NADD dependent!histone!deacetylation! Population! genomics! of! domestic!and!wild!yeasts.!Nature!458! Target! of! rapamycin! (TOR)! in! nutrient! signaling!and!growth!control! Scoring! and! manipulating! gene! position! and! dynamics! using! FROS! in! budding! yeast, Reserve! carbohydrate! metabolism! in! Saccharomyces! cerevisiae:! responses! to! nutrient! limitation.! Journal! of! bacteriology!143, Chronological! aging! in! Saccharomyces! cerevisiae.!SubDcellular!biochemistry!57,!101D121.! !! ! 146, 1980.
, !Replicative!and! chronological!aging!in!Saccharomyces!cerevisiae.!Cell!metabolism!16,! Slow! growth! induces! heatDshock! resistance!in!normal!and!respiratoryDdeficient!yeast!Assimilation!of!endogenous!nicotinamide! riboside! is! essential! for! calorie! restrictionDmediated! life! span! extension! in! Saccharomyces! cerevisiae.! The! Journal! of! biological! chemistry! 284,! 17110D 17119!Regulation!of!yeast!sirtuins!by!NAD(+)!metabolism! and!calorie!restriction!PhosphateDresponsive!signaling!pathway!is!a!novel! component! of! NAD+! metabolism! in! Saccharomyces! cerevisiae.! The! Journal! of! biological!chemistry!286! New! insights! into! nucleosome! and! chromatin! structure:! an! ordered! state! or! a! disordered! affair?! Nature!reviews!Molecular!cell!biology!13, !Molecular!biology!of!the!cell!, vol.20, 1997.
DOI : 10.1016/j.cmet.2012.06.002
URL : https://doi.org/10.1016/j.cmet.2012.06.002
, !The!Rat1p! 5'! to! 3'! exonuclease! degrades! telomeric! repeatDcontaining! RNA! and! promotes! telomere!elongation!in!Saccharomyces!cerevisiae.!Molecular!cell!32! SelfDregulated! viscous! channel! in! the! nuclear! pore! complex, ! Proceedings! of! the! National! Academy! of! Sciences!of!the!United!States!of!America!, vol.109, 2008.
, !Evidence!for!silencing!compartments!within!the!yeast!nucleus:!a!role!for! telomere! proximity! and! Sir! protein! concentration! in! silencerDmediated! repression! Telomere!length!regulation!in!budding!yeasts.!FEBS!letters!588,! Progressive! cisDinhibition! of! telomerase!upon!telomere!elongation.!The!EMBO!journal!Silencing!of! genes! at! nontelomeric! sites! in! yeast! is! controlled! by! sequestration! of! silencing! factors!, yeast.!Science!275,!986D990.! !! ! 147, 1996.
, ! Genomic! analysis! of! stationaryDphase! and! exit! in! Saccharomyces! cerevisiae:!gene!expression!and!identification!of!novel!essential!genes.!Molecular! biology!of!the!cell!15,! Reconstitution! of! yeast! silent! chromatin:! multiple! contact! sites! and! ODAADPR! binding! load! SIR! complexes! onto! nucleosomes! in! vitro! A! microarrayDbased! genetic! screen! for! yeast! chronological! aging! factors! Highly! condensed! chromatins! are! formed! adjacent! to! subtelomeric! and! decondensed! silent! chromatin! in! fission! yeast, PLoS!Genet!Nature!communications!, vol.66, 2004.
, ! The! silent! information!regulator!3!protein, 2008.
, !Isonicotinamide! enhances! Sir2! proteinDmediated! silencing! and! longevity! in! yeast! by! raising! intracellular! NAD+! concentration! Mitochondrial! quality! control! during! inheritance! is! associated! with! lifespan! and! motherDdaughter! age! asymmetry! in! budding!yeast! Global! Promoter! Targeting! of! a! Conserved! Lysine! Deacetylase! for! Transcriptional! Shutoff!during!Quiescence!Entry.!Molecular!cell!59! Building! silent! compartments! at! the! nuclear! periphery:!a!recurrent!theme.!Current!opinion!in!genetics!&!development!23,!96D 103, The! nuclear! envelope! in! genome! organization,!expression!and!stability.!Nature!reviews!Molecular!cell!biology!11,! 317D328.! !! ! 148, 2010.
, ! Caloric! restriction! or! catalase! inactivation! extends! yeast! chronological! lifespan! by! inducing! H2O2! and! superoxide! dismutase! activity! Saccharomyces! cerevisiae! colony! growth! and!ageing:!biphasic!growth!accompanied!by!changes!in!gene!expression! Histone! methylation! has! dynamics! distinct! from! those! of! histone! acetylation! in! cell!cycle!reentry!from!quiescence! Xbp1! directs! global! repression! of! budding! yeast! transcription! during! the! transition! to! quiescence! and!is!important!for!the!longevity!and!reversibility!of!the!quiescent!state.!PLoS! genetics!9,!e1003854!Approaches!to!study!yeast! cell!aging!and!death.!FEMS!yeast!research!14,! Acetic! acid! and! acidification! accelerate! chronological!and!replicative!aging!in!yeast.!Cell!cycle!11,! CohesinD dependent! globules! and! heterochromatin! shape! 3D! genome! architecture! in! S.! pombe.!Nature!516! Life! span! of! individual! yeast! cells.! Nature!183,! GlycolysisD mediated! changes! in! acetylDCoA! and! histone! acetylation! control! the! early! differentiation!of!embryonic!stem!cells.!Cell!metabolism!21! Functional! targeting! of! DNA! damage! to! a! nuclear! poreDassociated! SUMODdependent! ubiquitin!ligase! Widespread! reorganization! of! metabolic! enzymes! into! reversible! assemblies! upon! nutrient! starvation! Initial! genomics! of! the! human!nucleolus, Proceedings! of! the! National! Academy!of!Sciences!of!the!United!States!of!America!!Molecular!and!cellular!biology!!Proceedings!of!the!National!Academy!of!Sciences!of!the!United!States! of!America!!PLoS!genetics!, vol.107341066, 1959.
, !Silent!information!regulator!3:!the!Goldilocks! of!the!silencing!complex! Spheroid! chromatin! units! (v! bodies)! Science! 183,!SIRDnucleosome!interactions:! structureDfunction!relationships!in!yeast!silent!chromatin!Dimerization!of!Sir3!via!its!CDterminal!winged!helix!domain! is!essential!for!yeast!heterochromatin!formation!Ethanol!and!acetate!acting! as!carbon/energy!sources!negatively!affect!yeast!chronological!aging.!Oxid!Med! Cell!Longev!2013,!802870, !Genes!&!development!, vol.24, 1974.
, !Molecular! maps! of! the! reorganization! of! genomeDnuclear! lamina! interactions! during! differentiation! LongDrange! silencing! and! position! effects! at! telomeres!and!centromeres:!parallels!and!differences.!Cellular!and!molecular!life! sciences!:!CMLS!60!The!presence!of!acetyl!groups!of!histones.!The!Biochemical! journal!87,!258D263!Architectural!protein! !! ! 150! subclasses! shape! 3D! organization! of! genomes! during! lineage! commitment.! Cell! 153,!Folded!chromosomes!in!nonDcycling!yeast!cells:!evidence!for!a! characteristic!g0!form! Preadaptation! to! efficient! respiratory! maintenance! is! essential! both! for! maximal! longevity! and! the! retention!of!replicative!potential!in!chronologically!ageing!yeast! How! did! Saccharomyces! evolve! to! become! a! good! brewer?! Trends! in! genetics! :! TIG!22,! CellDofDorigin!chromatin!organization!shapes!the!mutational!landscape!of!cancer.! Nature!518! ThreeDdimensional! genome! architecture:! players!and!mechanisms.!Nature!reviews!Molecular!cell!biology!16! Kinetics! of! growth! and! glucose! transport! in! glucoseDlimited! chemostat! cultures! of! Saccharomyces! cerevisiae!CBS!8066! SubD telomeric!core!X!and!Y'!elements!in!S.!cerevisiae!suppress!extreme!variations!in! gene!silencing! Polarization! of! cell! growth! in! yeast.! I.! Establishment!and!maintenance!of!polarity!states!Dynamics!of!Sir3!spreading!in!budding!yeast:!secondary!recruitment! sites!and!euchromatic!localization.!The!EMBO!journal!30, Journal!of!cell!science!113!(!Pt! 3),!365D375.! Ptashne Transcriptional! activation! by! recruitment.! Nature!386,!569D577.! RadmanDLivaja, 1963.
, ! Silent! domains! are! assembled! continuously! from! the! !! ! 151! telomere! and! are! defined! by! promoter! distance! and! strength,! and! by! SIR3! dosage.!Genes!&!development!7,! Unraveling! the! truth! about! antioxidants:! mitohormesis! explains!ROSDinduced!health!benefits!Extending!life!span!by!increasing!oxidative! stress!EM!measurements! define! the! dimensions! of! the! "30Dnm"! chromatin! fiber:! evidence! for! a! compact,! interdigitated!structure, !Free!Radic!Biol!Med!!Proceedings!of!the!National!Academy!of!Sciences!of!the! United!States!of!America!, vol.51103, 1993.
, ! Environmental! stresses!disrupt!telomere!length!homeostasis! Histone! Acylation! beyond! Acetylation:! Terra!Incognita!in!Chromatin!Biology! Epigenetic! reprogramming! of! the! male! genome! during! gametogenesis! and!in!the!zygote.!Reproductive!biomedicine!online!16!Parallel!evolution!of!the!makeD accumulateDconsume! strategy! in! Saccharomyces! and! Dekkera! yeasts, !PLoS!Genet Nature! communications!, vol.92302, 2008.
, ! The! yeast! genome! undergoes! significant! topological! reorganization! in! quiescence.! Nucleic!acids!research!43, 2015.
, ! Actin! bodies! in! yeast!quiescent!cells:!an!immediately!available!actin!reserve?!Molecular!biology! of!the!cell, 2006.
, ! Enforcement! of! a! lifespanDsustaining! distribution! of! Sir2! between! telomeres,! matingDtype!loci, 2013.
, !Chemical!activation! of!Sir2Ddependent!silencing!by!relief!of!nicotinamide!inhibition! The! Saccharomyces! cerevisiae! linker! histone! Hho1p! is! essential! for! chromatin! compaction! in! !! ! 152! stationary! phase! and! is! displaced! by! transcription, !Mol!Cell!, vol.17, 2005.
, ! Yeast! telomerase! and! the! SUN! domain! protein! Mps3! anchor! telomeres! and! repress! subtelomeric!recombination.!Genes!&!development!23,! Epigenetic! silencing! mediates!mitochondria!stressDinduced!longevity.!Cell!metabolism!17! The! role! of! chromosome! domains! in! shaping! the!functional!genome, !Cell!, vol.160, 2007.
, ! ThreeDdimensional! folding! and! functional!organization!principles!of!the!Drosophila!genome.!Cell!148,!A!mechanism! for!asymmetric!segregation!of!age!during!yeast!budding.!Nature!454, Chromatin! Dynamics! in! Lineage! Commitment! and! Cellular! Reprogramming.! Genes! 6, pp.641-661, 2008.
, ! AcetylDCoA! and! the! regulation! of! metabolism:! mechanisms!and!consequences.!Current!opinion!in!cell!biology!33!Transcriptional!enhancers:!from! properties!to!genomeDwide!predictions.!Nature!reviews!Genetics!15,! Life! in! the! midst! of! scarcity:! adaptations! to! nutrient! availability!in!Saccharomyces!cerevisiae.!Current!genetics!56,! Calorie! restriction! extends! the! chronological! lifespan! of! Saccharomyces! cerevisiae! independently!of!the!Sirtuins, !Aging!Cell!, vol.6, 1998.
, !Nuclear!architecture!of!rod!photoreceptor!cells!adapts!to!vision! in!mammalian!evolution, !Cell!, vol.137, 2009.
, ! Activation! of! an! MAP! kinase! cascade! leads! to! Sir3p!hyperphosphorylation!and!strengthens!transcriptional!silencing! The! language! of! covalent! histone! modifications.!Nature!403, !J!Cell!Biol!, vol.135, 1996.
, The fine line between lifespan extension and shortening in response to caloric restriction, Nucleus, vol.18, issue.1, 2012.
DOI : 10.2460/javma.2002.220.1315
, ! The! function! of! nuclear!architecture:!a!genetic!approach.!Annual!review!of!genetics!38, 2001.
, !The!budding!yeast!nucleus.!Cold! Spring!Harbor!perspectives!in!biology!2,!a000612, 2010.
, !The!functional!importance!of!telomere!clustering:!global!changes!in!gene! expression!result!from!SIR!factor!dispersion.!Genome!research!19,! Nucleocytosolic!acetylDcoenzyme!a!synthetase!is!required!for!histone!acetylation! and!global!transcription!Identification!of!67!histone!marks!and! histone! lysine! crotonylation! as! a! new! type! of! histone! modification! Coupling! of! histone! deacetylation! to! NAD! breakdown!by!the!yeast!silencing!protein!Sir2:!Evidence!for!acetyl!transfer!from! substrate!to!an!NAD!breakdown!product, !Molecular!cell!! Cell!!Proceedings!of!the!National!Academy! of!Sciences!of!the!United!States!of!America! J.!, vol.2398, issue.97!, 2000.
, !Looping! and! interaction! between! hypersensitive! sites! in! the! active! betaDglobin! locus.! Molecular!cell!10! Histone! H3! lysine! 36! methylation! antagonizes! silencing! in! Saccharomyces! cerevisiae! independently!Function!and!metabolism!of!sirtuin!metabolite!OD acetylDADPDribose!Metabolic!memory!and! diabetic!nephropathy:!potential!role!for!epigenetic!mechanisms, Nature!reviews! Nephrology!, vol.6, 2002.
, Superoxide dismutase 1 acts as a nuclear transcription factor to regulate oxidative stress resistance, Nature Communications, vol.22, 2014.
DOI : 10.1093/emboj/cdg578
, Logic of the Yeast Metabolic Cycle: Temporal Compartmentalization of Cellular Processes, Science, vol.310, issue.5751, 2005.
DOI : 10.1126/science.1120499
, ! Identification! of! histone! demethylases! in! Saccharomyces!cerevisiae! Architecture! of! developing! multicellular! yeast! colony:! spatioDtemporal! expression! of! Ato1p! ammonium! exporter.!Environmental!microbiology!11,! Rapidly! developing! yeast! microcolonies! differentiate! in! a! similar! way! to! aging! giant! colonies.!Oxidative!medicine!and!cellular!longevity!2013,!102485! Metabolic! diversification! of! cells! during! the! development! of! yeast! colonies! HighDresolution! wholeD genome! sequencing! reveals! that! specific! chromatin! domains! from! most! human! chromosomes! associate! with! nucleoli! Chromatin:! constructing! the! big! picture, !J!Biol!Chem!! Environmental!microbiology!! Molecular! biology! of! the! cell!! van! Steensel,! B.!! The! EMBO! journal!, vol.2821130, issue.21, 2007.
, !Origins!of!variation!in!the! fungal!cell!surface.!Nature!reviews!Microbiology!2,! Multiple! histone! modifications! in! euchromatin! promote! heterochromatin! formation! by! redundant! mechanisms! in! Saccharomyces! cerevisiae.! BMC! molecular!biology!10,!76! Beyond! the! nucleosome:! epigenetic! aspects! of! positionD effect!variegation!in!Drosophila, !Cell!, vol.93, 1998.
, ! Chromosome! structure:! DNA! nucleotide! sequence! elements! of! a! subset! of! the! minichromosomes!of!the!protozoan!Trypanosoma!brucei.!Molecular!and!cellular! biology!11, 1991.
, ! Structure! of! the! yeast! nucleosome! core!particle!reveals!fundamental!changes!in!internucleosome!interactions!Yeast!sirtuins!and!the!regulation!of!aging.! FEMS!yeast!research!14,! A! predictive! computational! model! of! the! dynamic! 3D! interphase!yeast!nucleus, !The! EMBO!journal!!Curr!Biol!, vol.2022, 2001.
, !NalphaDacetylated!Sir3!stabilizes!the!conformation!of!a!nucleosomeD binding!loop!in!the!BAH!domain.!Nature!structural!&!molecular!biology!20,!1116D 1118!A!retention!mechanism! for!distribution!of!mitochondria!during!cell!division!in!budding!yeast, !Curr!Biol, vol.9, issue.!, 1999.
, The Role of Sirtuins in the Control of Metabolic Homeostasis, 3272D3283.! !! ! 156, 1173.
DOI : 10.1016/S1388-1981(01)00117-2
URL : https://hal.archives-ouvertes.fr/inserm-00438710
, ! A! suppressor! of! two! essential! checkpoint! genes! identifies! a! novel! protein! that! negatively! affects! dNTP! pools.! Molecular!cell!2, 1998.
, !OrganelleDbased!aggregation!and!retention!of! damaged!proteins!in!asymmetrically!dividing!cells.!Cell!159,! HighDresolution! DNAD binding! specificity! analysis! of! yeast! transcription! factors, ! Genome! Res!, vol.19, 2009.
, Nuclear structure in cancer cells, Nature Reviews Cancer, vol.43, issue.9, 2004.
DOI : 10.1159/000331347