Thermal evolution of gene expression profiles in Drosophila subobscura

[1]  Andrew P. Robinson,et al.  Randomization, Bootstrap and Monte Carlo Methods in Biology , 2007 .

[2]  A. Hoffmann,et al.  Global Warming: Fly Populations Are Responding Rapidly to Climate Change , 2007, Current Biology.

[3]  Z. Bochdanovits,et al.  Latitudinal clines inDrosophila melanogaster: Body size, allozyme frequencies, inversion frequencies, and the insulin-signalling pathway , 2003, Journal of Genetics.

[4]  E. Müller,,et al.  Weitere Untersuchungen über die chromosomale Struktur und die naturlichen Strukturtypen von Drosophila subobscura coll , 1957, Chromosoma.

[5]  G. Churchill,et al.  Statistical design and the analysis of gene expression microarray data. , 2007, Genetical research.

[6]  Ary A. Hoffmann,et al.  Climatic selection on genes and traits after a 100 year-old invasion: a critical look at the temperate-tropical clines in Drosophila melanogaster from eastern Australia , 2007, Genetica.

[7]  Mauro Santos,et al.  Thermal evolution of pre‐adult life history traits, geometric size and shape, and developmental stability in Drosophila subobscura , 2006, Journal of evolutionary biology.

[8]  R. Huey,et al.  Global Genetic Change Tracks Global Climate Warming in Drosophila subobscura , 2006, Science.

[9]  M. Kruhøffer,et al.  Inbreeding by Environmental Interactions Affect Gene Expression in Drosophila melanogaster , 2006, Genetics.

[10]  T. Mackay,et al.  Quantitative trait loci for thermotolerance phenotypes in Drosophila melanogaster , 2006, Heredity.

[11]  C. A. Machado,et al.  Uncovering evolutionary patterns of gene expression using microarrays. , 2006, Trends in ecology & evolution.

[12]  B. Weir,et al.  The quantitative genetics of transcription. , 2005, Trends in genetics : TIG.

[13]  M. Feder,et al.  The biological limitations of transcriptomics in elucidating stress and stress responses , 2005, Journal of evolutionary biology.

[14]  M R Kearney,et al.  A Rapid Shift in a Classic Clinal Pattern in Drosophila Reflecting Climate Change , 2005, Science.

[15]  A. Joshi,et al.  Density-dependent natural selection inDrosophila: Trade-offs between larval food acquisition and utilization , 1996, Evolutionary Ecology.

[16]  R. Huey,et al.  Using invasive species to study evolution. Case studies with Drosophila and salmon , 2005 .

[17]  W. Etges,et al.  Climate change and recent genetic flux in populations of Drosophila robusta , 2005, BMC Evolutionary Biology.

[18]  Mauro Santos,et al.  Temperature‐Related Genetic Changes in Laboratory Populations of Drosophila subobscura: Evidence against Simple Climatic‐Based Explanations for Latitudinal Clines , 2004, The American Naturalist.

[19]  L. Matzkin,et al.  Single-Locus Latitudinal Clines and Their Relationship to Temperate Adaptation in Metabolic Genes and Derived Alleles in Drosophila melanogaster , 2004, Genetics.

[20]  A. Weeks,et al.  Chromosomal inversion polymorphisms and adaptation. , 2004, Trends in ecology & evolution.

[21]  M. Noor,et al.  Association of Misexpression with Sterility in Hybrids of Drosophila simulansand D. mauritiana , 2004, Journal of Molecular Evolution.

[22]  Hans A Hofmann,et al.  Biologically meaningful expression profiling across species using heterologous hybridization to a cDNA microarray , 2004, BMC Genomics.

[23]  Mauro Santos,et al.  Swift laboratory thermal evolution of wing shape (but not size) in Drosophila subobscura and its relationship with chromosomal inversion polymorphism , 2004, Journal of evolutionary biology.

[24]  S. Pääbo,et al.  A Neutral Model of Transcriptome Evolution , 2004, PLoS biology.

[25]  R. Huey,et al.  A TIME SERIES OF EVOLUTION IN ACTION: A LATITUDINAL CLINE IN WING SIZE IN SOUTH AMERICAN DROSOPHILA SUBOBSCURA , 2004, Evolution; international journal of organic evolution.

[26]  G. Chambers,et al.  Population genetics of the metabolically related Adh, Gpdh and Tpi polymorphisms in Drosophila melanogaster I. Geographic variation in Gpdh and Tpi allele frequencies in different continents , 1984, Genetica.

[27]  F. Mainx,et al.  Untersuchungen Über die Chromosomale Struktur Europäischer Vertreter der Drosophila Obscura-Gruppe , 2004, Zeitschrift für Induktive Abstammungs- und Vererbungslehre.

[28]  Jennifer R. Moran,et al.  Ecological Adaptation During Incipient Speciation Revealed by Precise Gene Replacement , 2003, Science.

[29]  Matthew W. Hahn,et al.  The evolution of transcriptional regulation in eukaryotes. , 2003, Molecular biology and evolution.

[30]  R. Huey,et al.  EVOLUTIONARY PACE OF CHROMOSOMAL POLYMORPHISM IN COLONIZING POPULATIONS OF DROSOPHILA SUBOBSCURA: AN EVOLUTIONARY TIME SERIES , 2003, Evolution; international journal of organic evolution.

[31]  V. Loeschcke,et al.  DNA sequence variation and latitudinal associations in hsp23, hsp26 and hsp27 from natural populations of Drosophila melanogaster , 2003, Molecular ecology.

[32]  Z. Bochdanovits,et al.  EXPERIMENTAL EVOLUTION IN DROSOPHILA MELANOGASTER: INTERACTION OF TEMPERATURE AND FOOD QUALITY SELECTION REGIMES , 2003, Evolution; international journal of organic evolution.

[33]  John D. Storey,et al.  Statistical significance for genomewide studies , 2003, Proceedings of the National Academy of Sciences of the United States of America.

[34]  P. Schmidt,et al.  Clines and adaptive evolution in the methuselah gene region in Drosophila melanogaster , 2003, Molecular ecology.

[35]  Ary A. Hoffmann,et al.  Adaptation of Drosophila to temperature extremes: bringing together quantitative and molecular approaches , 2003 .

[36]  F. Rodríguez-Trelles SEASONAL CYCLES OF ALLOZYME-BY-CHROMOSOMAL-INVERSION GAMETIC DISEQUILIBRIUM IN DROSOPHILA SUBOBSCURA , 2003, Evolution; international journal of organic evolution.

[37]  J. Collinge,et al.  Thermal tolerance trade-offs associated with the right arm of chromosome 3 and marked by the hsr-omega gene in Drosophila melanogaster , 2003, Heredity.

[38]  A I Saeed,et al.  TM4: a free, open-source system for microarray data management and analysis. , 2003, BioTechniques.

[39]  Scott A. Rifkin,et al.  Evolution of gene expression in the Drosophila melanogaster subgroup , 2003, Nature Genetics.

[40]  M. Feder,et al.  RESPONSE TO NATURAL AND LABORATORY SELECTION AT THE DROSOPHILA HSP70 GENES , 2002, Evolution; international journal of organic evolution.

[41]  S. Goto A novel gene that is up-regulated during recovery from cold shock in Drosophila melanogaster. , 2001, Gene.

[42]  D. Goldstein,et al.  Nonclinality of molecular variation implicates selection in maintaining a morphological cline of Drosophila melanogaster. , 2001, Genetics.

[43]  Ferran Casals,et al.  How malleable is the eukaryotic genome? Extreme rate of chromosomal rearrangement in the genus Drosophila. , 2001, Genome research.

[44]  H. Laayouni,et al.  Toward a physical map of Drosophila buzzatii. Use of randomly amplified polymorphic dna polymorphisms and sequence-tagged site landmarks. , 2000, Genetics.

[45]  M. Ashburner,et al.  Gene Ontology: tool for the unification of biology , 2000, Nature Genetics.

[46]  Stephen M. Mount,et al.  The genome sequence of Drosophila melanogaster. , 2000, Science.

[47]  R. A. Krebs A comparison of Hsp70 expression and thermotolerance in adults and larvae of three Drosophila species. , 1999, Cell stress & chaperones.

[48]  P. Brown,et al.  DNA arrays for analysis of gene expression. , 1999, Methods in enzymology.

[49]  M. Feder,et al.  Heat-shock proteins, molecular chaperones, and the stress response: evolutionary and ecological physiology. , 1999, Annual review of physiology.

[50]  S. Benzer,et al.  Extended life-span and stress resistance in the Drosophila mutant methuselah. , 1998, Science.

[51]  Mauro Santos,et al.  ANTAGONISTIC PLEIOTROPIC EFFECT OF SECOND‐CHROMOSOME INVERSIONS ON BODY SIZE AND EARLY LIFE‐HISTORY TRAITS IN DROSOPHILA BUZZATII , 1998, Evolution; international journal of organic evolution.

[52]  A. W. Kemp,et al.  Randomization, Bootstrap and Monte Carlo Methods in Biology , 1997 .

[53]  Jeffrey R. Powell,et al.  Progress and Prospects in Evolutionary Biology: The Drosophila Model , 1997 .

[54]  Mauro Santos,et al.  DENSITY‐DEPENDENT NATURAL SELECTION IN DROSOPHILA: EVOLUTION OF GROWTH RATE AND BODY SIZE , 1997, Evolution; international journal of organic evolution.

[55]  M. Aguadé,et al.  Differentiation of Muller's chromosomal elements D and E in the obscura group of Drosophila. , 1996, Genetics.

[56]  G. McColl,et al.  Response of two heat shock genes to selection for knockdown heat resistance in Drosophila melanogaster. , 1996, Genetics.

[57]  M. Nei,et al.  Molecular phylogeny and divergence times of drosophilid species. , 1995, Molecular biology and evolution.

[58]  E. Stanley,et al.  Shark, a Src homology 2, ankyrin repeat, tyrosine kinase, is expressed on the apical surfaces of ectodermal epithelia. , 1995, Proceedings of the National Academy of Sciences of the United States of America.

[59]  D. Hartl,et al.  The Drosophila Genome Map: A Practical Guide , 1995 .

[60]  Y. Benjamini,et al.  Controlling the false discovery rate: a practical and powerful approach to multiple testing , 1995 .

[61]  V. French,et al.  Thermal evolution of pre‐adult life history traits in Drosophila melanogaster , 1994 .

[62]  L. Goldstein,et al.  Drosophila Melanogaster: Practical Uses in Cell and Molecular Biology , 1994 .

[63]  C. Thummel,et al.  Methods for quantitative analysis of transcription in larvae and prepupae. , 1994, Methods in cell biology.

[64]  R. de Frutos,et al.  Transcriptional and translational study of the Drosophila subobscura hsp83 gene in normal and heat-shock conditions. , 1993, Genome.

[65]  S. Lindquist,et al.  The role of heat-shock proteins in thermotolerance. , 1993, Philosophical transactions of the Royal Society of London. Series B, Biological sciences.

[66]  Hj Norussis,et al.  SPSS for Windows , 1993 .

[67]  C. Kyriacou,et al.  A latitudinal cline in a Drosophila clock gene , 1992, Proceedings of the Royal Society of London. Series B: Biological Sciences.

[68]  J. Powell,et al.  Drosophila Inversion Polymorphism , 1992 .

[69]  M. Aguadé,et al.  Colonization of America by Drosophila subobscura: Experiment in natural populations that supports the adaptive role of chromosomal-inversion polymorphism. , 1988, Proceedings of the National Academy of Sciences of the United States of America.

[70]  R. Garber,et al.  An inversion that disrupts the Antennapedia gene causes abnormal structure and localization of RNAs , 1986, Cell.

[71]  A. Fontdevila,et al.  Genetic Coadaptation in the Chromosomal Polymorphism of DROSOPHILA SUBOBSCURA. I. Seasonal Changes of Gametic Disequilibrium in a Natural Population. , 1983, Genetics.

[72]  J. Oakeshott,et al.  ALCOHOL DEHYDROGENASE AND GLYCEROL‐3‐PHOSPHATE DEHYDROGENASE CLINES IN DROSOPHILA MELANOGASTER ON DIFFERENT CONTINENTS , 1982, Evolution; international journal of organic evolution.

[73]  Sokal Rr,et al.  Biometry: the principles and practice of statistics in biological research 2nd edition. , 1981 .

[74]  C. Krimbas,et al.  The Inversion Polymorphism of Drosophila subobscura , 1980 .