Telomere DNA length regulation is influenced by seasonal temperature differences in short-lived but not in long-lived reef-building corals
暂无分享,去创建一个
S. Sunagawa | J. Poulain | P. Wincker | R. V. Thurber | S. Pesant | J. Aury | B. Banaigs | S. Romac | C. de Vargas | Ryan McMinds | S. Planes | P. Galand | C. Voolstra | Hans-Joachim Ruscheweyh | S. Reynaud | É. Röttinger | S. Agostini | Q. Carradec | F. Lombard | E. Armstrong | E. Douville | D. Zoccola | P. Furla | Nadir Djerbi | M. Giraud-Panis | D. Forcioli | A. Pey | E. Boss | Barbara Porro | B. Hume | A. Ottaviani | R. Troublé | D. A. Paz-García | C. Moulin | Alice Rouan | E. Gilson | O. Thomas | D. Allemand | Mélanie Pousse | Julie Lê-Hoang | G. Iwankow | Michel Flores | É. Boissin | Chris Bowler | Guillaume Bourdin | Clémentine Moulin | Romane Deshuraud | Guillem Salazar | Didier Forcioli | Lycia Die Morini | Camille Leone | Lia Wurzer | Jessica Tran | D. A. Paz‐García
[1] Corinne Da Silva,et al. Pervasive tandem duplications and convergent evolution shape coral genomes , 2023, Genome Biology.
[2] S. Sunagawa,et al. Diversity of the Pacific Ocean coral reef microbiome , 2023, Nature communications.
[3] P. Aragón,et al. Ammonium effects on oxidative stress, telomere length, and locomotion across life stages of an anuran from habitats with contrasting land-use histories. , 2022, Science of the Total Environment.
[4] Silvio C. E. Tosatto,et al. InterPro in 2022 , 2022, Nucleic Acids Res..
[5] S. Sunagawa,et al. Disparate patterns of genetic divergence in three widespread corals across a pan-Pacific environmental gradient highlights species-specific adaptation trajectories , 2022, bioRxiv.
[6] S. Sunagawa,et al. From genome wide SNPs to genomic islands of differentiation: the quest for species diagnostic markers in two scleractinian corals, Pocillopora and Porites , 2022, bioRxiv.
[7] Navinder J. Singh,et al. Large mammal telomere length variation across ecoregions , 2022, BMC Ecology and Evolution.
[8] J. Clobert,et al. Lizards from warm and declining populations are born with extremely short telomeres , 2022, Proceedings of the National Academy of Sciences of the United States of America.
[9] Corinne Da Silva,et al. Integrative omics framework for characterization of coral reef ecosystems from the Tara Pacific expedition , 2022, Scientific data.
[10] M. Hall,et al. Hot and dry conditions predict shorter nestling telomeres in an endangered songbird: Implications for population persistence , 2022, Proceedings of the National Academy of Sciences of the United States of America.
[11] S. Sunagawa,et al. Open science resources from the Tara Pacific expedition across coral reef and surface ocean ecosystems , 2022, bioRxiv.
[12] E. Gilson,et al. Telomeres are shorter in wild Saccharomyces cerevisiae isolates than in domesticated ones , 2022, bioRxiv.
[13] R. Blažek,et al. Lifespan and telomere length variation across populations of wild‐derived African killifish , 2021, Molecular ecology.
[14] J. Poulain,et al. Transcriptomic plasticity and symbiont shuffling underpin Pocillopora acclimatization across heat-stress regimes in the Pacific Ocean , 2021, bioRxiv.
[15] P. Salmón,et al. Telomeres in a spatial context: a tool for understanding ageing pattern variation in wild populations , 2021, Ecography.
[16] E. Gilson,et al. Telomere dysfunction is associated with dark‐induced bleaching in the reef coral Stylophora pistillata , 2021, Molecular ecology.
[17] R. Thomson,et al. Population differences in the length and early‐life dynamics of telomeres among European pied flycatchers , 2021, bioRxiv.
[18] E. Wapstra,et al. Of telomeres and temperature: Measuring thermal effects on telomeres in ectothermic animals , 2021, Molecular ecology.
[19] J. Gaillard,et al. Decline in telomere length with increasing age across nonhuman vertebrates: A meta‐analysis , 2021, Molecular ecology.
[20] N. Metcalfe,et al. Habitat restoration weakens negative environmental effects on telomere dynamics , 2021, Molecular ecology.
[21] E. Gilson,et al. The Power of Stress: The Telo-Hormesis Hypothesis , 2021, Cells.
[22] E. Gilson,et al. Naked mole rat TRF1 safeguards glycolytic capacity and telomere replication under low oxygen , 2021, Science Advances.
[23] Bastien Saint-Leandre,et al. Adaptive evolution of an essential telomere protein restricts telomeric retrotransposons , 2020, eLife.
[24] D. Levy,et al. A Mechanism for Severity of Disease in Older Patients with COVID-19: The Nexus between Telomere Length and Lymphopenia , 2020, medRxiv.
[25] D. Barshis,et al. Standardized short‐term acute heat stress assays resolve historical differences in coral thermotolerance across microhabitat reef sites , 2020, Global change biology.
[26] S. Drobniak,et al. The association between stressors and telomeres in non-human vertebrates: a meta-analysis. , 2019, Ecology letters.
[27] S. Sunagawa,et al. The Tara Pacific expedition—A pan-ecosystemic approach of the “-omics” complexity of coral reef holobionts across the Pacific Ocean , 2019, PLoS Biology.
[28] A. J. Young,et al. Telomere attrition predicts reduced survival in a wild social bird, but short telomeres do not , 2019, Molecular ecology.
[29] M. Blasco,et al. Telomere shortening rate predicts species life span , 2019, Proceedings of the National Academy of Sciences.
[30] M. Hau,et al. Telomere attrition: metabolic regulation and signalling function? , 2019, Biology Letters.
[31] D. Burkepile,et al. A global analysis of coral bleaching over the past two decades , 2019, Nature Communications.
[32] M. Hall,et al. Early‐life telomere length predicts lifespan and lifetime reproductive success in a wild bird , 2019, Molecular ecology.
[33] H. Seimiya,et al. Revisiting Telomere Shortening in Cancer , 2019, Cells.
[34] C. López-Otín,et al. Mouse Models to Disentangle the Hallmarks of Human Aging , 2018, Circulation research.
[35] E. Treml,et al. The Eastern Tropical Pacific coral population connectivity and the role of the Eastern Pacific Barrier , 2018, Scientific Reports.
[36] T. Kirkwood,et al. Do reef corals age? , 2018, Biological reviews of the Cambridge Philosophical Society.
[37] S. Ozanne,et al. Somatic growth and telomere dynamics in vertebrates: relationships, mechanisms and consequences , 2018, Philosophical Transactions of the Royal Society B: Biological Sciences.
[38] H. Yamano,et al. High-resolution modeling of thermal thresholds and environmental influences on coral bleaching for local and regional reef management , 2018, PeerJ.
[39] E. Wapstra,et al. Ectothermic telomeres: it's time they came in from the cold , 2018, Philosophical Transactions of the Royal Society B: Biological Sciences.
[40] C. Walling,et al. The relationship between telomere length and mortality risk in non-model vertebrate systems: a meta-analysis , 2018, Philosophical Transactions of the Royal Society B: Biological Sciences.
[41] A. J. Young. The role of telomeres in the mechanisms and evolution of life-history trade-offs and ageing , 2018, Philosophical Transactions of the Royal Society B: Biological Sciences.
[42] A. Aviv,et al. Reflections on telomere dynamics and ageing-related diseases in humans , 2018, Philosophical Transactions of the Royal Society B: Biological Sciences.
[43] J. Armstrong,et al. Shorter juvenile telomere length is associated with higher survival to spawning in migratory Atlantic salmon , 2017 .
[44] J. Gaillard,et al. Age-dependent associations between telomere length and environmental conditions in roe deer , 2017, Biology Letters.
[45] K. Anderson,et al. Variation in growth rates of branching corals along Australia’s Great Barrier Reef , 2017, Scientific Reports.
[46] Kim-Anh Lê Cao,et al. mixOmics: An R package for ‘omics feature selection and multiple data integration , 2017, bioRxiv.
[47] O. Hoegh‐Guldberg,et al. Photoacclimatory and photoprotective responses to cold versus heat stress in high latitude reef corals , 2017, Journal of phycology.
[48] M. Miller,et al. How old are you? Genet age estimates in a clonal animal , 2016, Molecular ecology.
[49] Daniel E. Cook,et al. The Genetic Basis of Natural Variation in Caenorhabditis elegans Telomere Length , 2016, Genetics.
[50] Miguel Godinho Ferreira,et al. Telomeres in aging and disease: lessons from zebrafish , 2016, Disease Models & Mechanisms.
[51] Corinne Da Silva,et al. Gmove a tool for eukaryotic gene predictions using various evidences , 2016 .
[52] Matthew E. B. Hansen,et al. Shorter telomere length in Europeans than in Africans due to polygenetic adaptation. , 2016, Human molecular genetics.
[53] Eric E. Schadt,et al. variancePartition: interpreting drivers of variation in complex gene expression studies , 2016, BMC Bioinformatics.
[54] M. Sweet,et al. Age-Related Shifts in Bacterial Diversity in a Reef Coral , 2015, PloS one.
[55] E. Epel,et al. Human telomere biology: A contributory and interactive factor in aging, disease risks, and protection , 2015, Science.
[56] C. Palacín,et al. Long telomeres are associated with clonality in wild populations of the fissiparous starfish Coscinasterias tenuispina , 2015, Heredity.
[57] Thomas M. DeCarlo,et al. Changes in coral reef communities across a natural gradient in seawater pH , 2015, Science Advances.
[58] Param Priya Singh,et al. A Platform for Rapid Exploration of Aging and Diseases in a Naturally Short-Lived Vertebrate , 2015, Cell.
[59] Simon Verhulst,et al. Nestling telomere shortening, but not telomere length, reflects developmental stress and predicts survival in wild birds , 2014, Proceedings of the Royal Society B: Biological Sciences.
[60] Kim Nimon,et al. Using commonality analysis in multiple regressions: a tool to decompose regression effects in the face of multicollinearity , 2014 .
[61] E. Blackburn,et al. Shorter telomeres with high telomerase activity are associated with raised allostatic load and impoverished psychosocial resources , 2014, Proceedings of the National Academy of Sciences.
[62] N. Satoh,et al. Telomere Shortening in the Colonial Coral Acropora digitifera During Development , 2014, Zoological science.
[63] M. Kupiec. Biology of telomeres: lessons from budding yeast. , 2014, FEMS microbiology reviews.
[64] M. Kupiec,et al. Genome-wide studies of telomere biology in budding yeast , 2014, Microbial cell.
[65] E. Teeling,et al. Molecular adaptation of telomere associated genes in mammals , 2013, BMC Evolutionary Biology.
[66] D. Pe’er,et al. Environmental Stresses Disrupt Telomere Length Homeostasis , 2013, PLoS genetics.
[67] B. Lang,et al. A Broad Phylogenetic Survey Unveils the Diversity and Evolution of Telomeres in Eukaryotes , 2013, Genome biology and evolution.
[68] A. Jacinto,et al. Telomerase Is Required for Zebrafish Lifespan , 2013, PLoS genetics.
[69] D. Bellwood,et al. Evaluating life-history strategies of reef corals from species traits. , 2012, Ecology letters.
[70] Y. Loya,et al. Sperm of the Solitary Coral Ctenactis Echinata Exhibit Longer Telomeres than that of Somatic Tissues , 2012 .
[71] M. Blasco,et al. The rate of increase of short telomeres predicts longevity in mammals. , 2012, Cell reports.
[72] R. Mayeux,et al. Association of shorter leukocyte telomere repeat length with dementia and mortality. , 2012, Archives of neurology.
[73] E. Blackburn,et al. The telomere syndromes , 2012, Nature Reviews Genetics.
[74] P. Lansdorp,et al. Collapse of Telomere Homeostasis in Hematopoietic Cells Caused by Heterozygous Mutations in Telomerase Genes , 2012, PLoS genetics.
[75] Pat Monaghan,et al. Telomere length in early life predicts lifespan , 2012, Proceedings of the National Academy of Sciences.
[76] Syed Haider,et al. Ensembl BioMarts: a hub for data retrieval across taxonomic space , 2011, Database J. Biol. Databases Curation.
[77] J. Shay,et al. Telomere biology in Metazoa , 2010, FEBS letters.
[78] E. Gilson,et al. Structural identity of telomeric complexes , 2010, FEBS letters.
[79] P. Monaghan. Telomeres and life histories: the long and the short of it , 2010, Annals of the New York Academy of Sciences.
[80] K. Ríha,et al. Telomeres, Aging, and Plants: From Weeds to Methuselah – A Mini-Review , 2010, Gerontology.
[81] A. Bodnar,et al. Telomeres and Telomerase Activity in Scleractinian Corals and Symbiodinium spp. , 2010, The Biological Bulletin.
[82] A. Bergman,et al. Genetic variation in human telomerase is associated with telomere length in Ashkenazi centenarians , 2009, Proceedings of the National Academy of Sciences.
[83] E. Gilson,et al. A two-step model for senescence triggered by a single critically short telomere , 2009, Nature Cell Biology.
[84] N. Metcalfe,et al. Telomere dynamics rather than age predict life expectancy in the wild , 2009, Proceedings of the Royal Society B: Biological Sciences.
[85] F. Schmidt. Meta-Analysis , 2008 .
[86] Michael Chang,et al. Telomerase repeat addition processivity is increased at critically short telomeres in a Tel1-dependent manner in Saccharomyces cerevisiae. , 2007, Genes & development.
[87] E. Gilson,et al. How telomeres are replicated , 2007, Nature Reviews Molecular Cell Biology.
[88] R. Richmond,et al. Characterization of the telomere regions of scleractinian coral, Acropora surculosa , 2007, Genetica.
[89] O. Hoegh-Guldberg,et al. Low temperatures cause coral bleaching , 2004, Coral Reefs.
[90] Martin Kupiec,et al. A genome-wide screen for Saccharomyces cerevisiae deletion mutants that affect telomere length. , 2004, Proceedings of the National Academy of Sciences of the United States of America.
[91] T. de Lange,et al. Rap1 affects the length and heterogeneity of human telomeres. , 2003, Molecular biology of the cell.
[92] C. Vleck,et al. Calibrating the telomere clock in common terns, Sterna hirundo , 2003, Experimental Gerontology.
[93] Christine Brun,et al. Targeting Assay To Study the cis Functions of Human Telomeric Proteins: Evidence for Inhibition of Telomerase by TRF1 and for Activation of Telomere Degradation by TRF2 , 2002, Molecular and Cellular Biology.
[94] Margaret A. Strong,et al. The Shortest Telomere, Not Average Telomere Length, Is Critical for Cell Viability and Chromosome Stability , 2001, Cell.
[95] Barnes,et al. Environmental controls on growth of the massive coral Porites. , 2000, Journal of experimental marine biology and ecology.
[96] J. Hodgkin,et al. MRT-2 checkpoint protein is required for germline immortality and telomere replication in C. elegans , 2000, Nature.
[97] S. Palumbi,et al. Molecular evolution of a portion of the mitochondrial 16S ribosomal gene region in scleractinian corals , 1997, Journal of Molecular Evolution.
[98] Bas van Steensel,et al. Control of telomere length by the human telomeric protein TRF1 , 1997, Nature.
[99] V. French,et al. The long and the short of it , 1993, Nature.
[100] E. Myers,et al. Basic local alignment search tool. , 1990, Journal of molecular biology.
[101] P. W. Glynn,et al. Experimental evidence for high temperature stress as the cause of El Niño-coincident coral mortality , 1990, Coral Reefs.
[102] J. B. Jackson,et al. Do Corals Lie About Their Age? Some Demographic Consequences of Partial Mortality, Fission, and Fusion , 1980, Science.
[103] E. Wieters,et al. Patterns in sexual reproduction of the dominant scleractinian corals at Rapa Nui (Easter Island): Pocillopora verrucosa and Porites lobata , 2017 .
[104] E. Gilson,et al. A two-step model for senescence triggered by a single critically short telomere , 2010, Nature Cell Biology.
[105] Thomas Lengauer,et al. Bioinformatics Original Paper Improved Scoring of Functional Groups from Gene Expression Data by Decorrelating Go Graph Structure , 2022 .