Poplar under drought: comparison of leaf and cambial proteomic responses.

[1]  H. Cochard,et al.  Common trade-offs between xylem resistance to cavitation and other physiological traits do not hold among unrelated Populus deltoides x Populus nigra hybrids. , 2010, Plant, cell & environment.

[2]  S. Zhang,et al.  Comparative physiological, ultrastructural and proteomic analyses reveal sexual differences in the responses of Populus cathayana under drought stress , 2010, Proteomics.

[3]  F. Sebastiani,et al.  Transcriptome changes in the cambial region of poplar (Populus alba L.) in response to water deficit. , 2010, Plant biology.

[4]  J. Renaut,et al.  Acute metal stress in Populus tremula×P. alba (717‐1B4 genotype): Leaf and cambial proteome changes induced by cadmium2+ , 2010, Proteomics.

[5]  M. Villar,et al.  Productivity, water-use efficiency and tolerance to moderate water deficit correlate in 33 poplar genotypes from a Populus deltoides x Populus trichocarpa F1 progeny. , 2009, Tree physiology.

[6]  C. Plomion,et al.  Leaf proteome analysis of eight Populus ×euramericana genotypes: Genetic variation in drought response and in water‐use efficiency involves photosynthesis‐related proteins , 2009, Proteomics.

[7]  S. Thanisawanyangkura,et al.  Carbohydrate storage in wood and bark of rubber trees submitted to different level of C demand induced by latex tapping. , 2009, Tree physiology.

[8]  S. Zhang,et al.  Physiological and proteomic responses of two contrasting Populus cathayana populations to drought stress. , 2009, Physiologia plantarum.

[9]  S. Silim,et al.  Leaf gas exchange and water potential responses to drought in nine poplar (Populus spp.) clones with contrasting drought tolerance , 2009, Trees.

[10]  F. J. Barnes,et al.  Tree die-off in response to global change-type drought: mortality insights from a decade of plant water potential measurements. , 2009 .

[11]  V. Labas,et al.  Genetic variation and drought response in two Populus x euramericana genotypes through 2-DE proteomic analysis of leaves from field and glasshouse cultivated plants. , 2009, Phytochemistry.

[12]  A. Giovannelli,et al.  Type 3 metallothioneins respond to water deficit in leaf and in the cambial zone of white poplar (Populus alba). , 2009, Journal of plant physiology.

[13]  D. Le Thiec,et al.  Ozone-induced changes in photosynthesis and photorespiration of hybrid poplar in relation to the developmental stage of the leaves. , 2008, Physiologia plantarum.

[14]  K. Paek,et al.  GDSL-lipase1 (CaGL1) contributes to wound stress resistance by modulation of CaPR-4 expression in hot pepper. , 2008, Biochemical and biophysical research communications.

[15]  John P. Moore,et al.  Adaptations of higher plant cell walls to water loss: drought vs desiccation. , 2008, Physiologia plantarum.

[16]  M. Rocco,et al.  Unravelling the response of poplar (Populus nigra) roots to mechanical stress imposed by bending , 2008 .

[17]  G. Bonan Forests and Climate Change: Forcings, Feedbacks, and the Climate Benefits of Forests , 2008, Science.

[18]  Caiyun He,et al.  Proteins responding to drought and high-temperature stress in Populus × euramericana cv. ‘74/76’ , 2008, Trees.

[19]  Maurizio Mencuccini,et al.  Xylem vulnerability to cavitation varies among poplar and willow clones and correlates with yield. , 2007, Tree physiology.

[20]  U. Kües,et al.  Early drought-induced changes to the needle proteome of Norway spruce. , 2007, Tree physiology.

[21]  M. Agarwal,et al.  Molecular characterization of a novel isoform of rice (Oryza sativa L.) glycine rich-RNA binding protein and evidence for its involvement in high temperature stress response , 2007 .

[22]  R. Rosenkranz,et al.  Mitochondrial glycolate oxidation contributes to photorespiration in higher plants. , 2007, Journal of experimental botany.

[23]  Y. Gibon,et al.  The enigmatic contribution of mitochondrial function in photosynthesis. , 2007, Journal of experimental botany.

[24]  S. Allakhverdiev,et al.  Photoinhibition of photosystem II under environmental stress. , 2007, Biochimica et biophysica acta.

[25]  A. Parida,et al.  Identification of stress-induced genes from the drought-tolerant plant Prosopis juliflora (Swartz) DC. through analysis of expressed sequence tags. , 2007, Genome.

[26]  L. Hoffmann,et al.  A DIGE analysis of developing poplar leaves subjected to ozone reveals major changes in carbon metabolism , 2007, Proteomics.

[27]  K. Laukens,et al.  Gradual Soil Water Depletion Results in Reversible Changes of Gene Expression, Protein Profiles, Ecophysiology, and Growth Performance in Populus euphratica, a Poplar Growing in Arid Regions1[W][OA] , 2006, Plant Physiology.

[28]  C. Keller,et al.  Localization and effects of cadmium in leaves of a cadmium-tolerant willow (Salix viminalis L.) I. Macrolocalization and phytotoxic effects of cadmium , 2006 .

[29]  A. de Daruvar,et al.  Mapping the proteome of poplar and application to the discovery of drought‐stress responsive proteins , 2006, Proteomics.

[30]  J. Forment,et al.  Overexpression of Arabidopsis thaliana LTL1, a salt-induced gene encoding a GDSL-motif lipase, increases salt tolerance in yeast and transgenic plants. , 2006, Plant, cell & environment.

[31]  A. Harfouche,et al.  The Arabidopsis Tetratricopeptide Repeat-Containing Protein TTL1 Is Required for Osmotic Stress Responses and Abscisic Acid Sensitivity1[W] , 2006, Plant Physiology.

[32]  M. Gribskov,et al.  The Genome of Black Cottonwood, Populus trichocarpa (Torr. & Gray) , 2006, Science.

[33]  C. Rinaldi,et al.  Impact of drought and leaf development stage on enzymatic antioxidant system of two Populus deltoides × nigra clones , 2006 .

[34]  P. Label,et al.  Cambial activity of Populus tremula × Populus alba clone 717-1B4 in hydroponic culture , 2006 .

[35]  M. Villar,et al.  Impact of drought on productivity and water use efficiency in 29 genotypes of Populus deltoides x Populus nigra. , 2006, The New phytologist.

[36]  D. Morabito,et al.  Osmotic stress sensing in Populus: Components identification of a phosphorelay system , 2006, FEBS letters.

[37]  S. Komatsu,et al.  Proteomic analysis of rice leaf sheath during drought stress. , 2006, Journal of proteome research.

[38]  J. A. Hernández,et al.  The apoplastic antioxidant enzymatic system in the wood-forming tissues of trees , 2006, Trees.

[39]  P. Ciais,et al.  Europe-wide reduction in primary productivity caused by the heat and drought in 2003 , 2005, Nature.

[40]  S. Baud,et al.  Structure and expression profile of the sucrose synthase multigene family in Arabidopsis. , 2004, Journal of experimental botany.

[41]  E. Dreyer,et al.  Impact of successive drought and re-watering cycles on growth and specific leaf area of two Populus x canadensis (Moench) clones, 'Dorskamp' and 'Luisa_Avanzo'. , 2003, Tree physiology.

[42]  D. Morabito,et al.  Dehydrin induction during drought and osmotic stress in Populus , 2002 .

[43]  E. Dreyer,et al.  Physiological traits of two Populus x euramericana clones, Luisa Avanzo and Dorskamp, during a water stress and re-watering cycle. , 2002, Tree physiology.

[44]  B. Ghareyazie,et al.  A proteomic approach to analyzing drought- and salt-responsiveness in rice , 2002 .

[45]  M. Ishitani,et al.  An Arabidopsis mutation in translation elongation factor 2 causes superinduction of CBF/DREB1 transcription factor genes but blocks the induction of their downstream targets under low temperatures , 2002, Proceedings of the National Academy of Sciences of the United States of America.

[46]  C. Timpte Auxin binding protein: curiouser and curiouser. , 2001, Trends in plant science.

[47]  K. Dietz,et al.  Significance of the V-type ATPase for the adaptation to stressful growth conditions and its regulation on the molecular and biochemical level. , 2001, Journal of experimental botany.

[48]  Björn Sundberg,et al.  Unravelling cell wall formation in the woody dicot stem , 2001, Plant Molecular Biology.

[49]  J. Moroney,et al.  Carbonic anhydrases in plants and algae , 2001 .

[50]  G. Meehl,et al.  Climate extremes: observations, modeling, and impacts. , 2000, Science.

[51]  Reinhart Ceulemans,et al.  Emerging Model Systems in Plant Biology: Poplar (Populus) as A Model Forest Tree , 2000, Journal of Plant Growth Regulation.

[52]  M. Caliskan Germin, an Oxalate Oxidase, Has a Function in Many Aspects of Plant Life , 2000 .

[53]  F. Brignolas,et al.  Compared water deficit response of two Populus x euramericana clones, Luisa Avanzo and Dorskamp , 2000 .

[54]  G Peltier,et al.  Over-expression of a pepper plastid lipid-associated protein in tobacco leads to changes in plastid ultrastructure and plant development upon stress. , 2000, The Plant journal : for cell and molecular biology.

[55]  A. Déjardin,et al.  Sugar/osmoticum levels modulate differential abscisic acid-independent expression of two stress-responsive sucrose synthase genes in Arabidopsis , 1999 .

[56]  A. Ohmiya,et al.  Cloning of genes encoding auxin-binding proteins (ABP19/20) from peach: significant peptide sequence similarity with germin-like proteins. , 1998, Plant & cell physiology.

[57]  THH. Chen,et al.  Poplar Bark Storage Protein and a Related Wound-Induced Gene Are Differentially Induced by Nitrogen , 1994, Plant physiology.

[58]  P. Bret Le dernier des procédés révolutionnaires: la fabrication et l'expertise de la poudre ronde (1795-1830) , 1993 .

[59]  J. Boyer Plant Productivity and Environment , 1982, Science.

[60]  R. Hedrich,et al.  Salt stress affects xylem differentiation of grey poplar (Populus × canescens) , 2008, Planta.

[61]  R. Ceulemans,et al.  Photosynthesis, leaf area and productivity of 5 poplar clones during their establishment year , 1994 .

[62]  J. Leplé,et al.  Genetic transformation: a short review of methods and their applications, results and perspectives for forest trees , 1993 .