Biotechnology and the domestication of forest trees.
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[1] I. Bosdet,et al. Suppressed recombination around the MXC3 locus, a major gene for resistance to poplar leaf rust , 2001, Theoretical and Applied Genetics.
[2] M. Van Montagu,et al. Fine Mapping and Identification of Nucleotide Binding Site/Leucine-Rich Repeat Sequences at the MER Locus in Populus deltoides 'S9-2'. , 2001, Phytopathology.
[3] G. Taylor. Populus: arabidopsis for forestry. Do we need a model tree? , 2002, Annals of botany.
[4] W. Boerjan,et al. Field and pulping performances of transgenic trees with altered lignification , 2002, Nature Biotechnology.
[5] J. Gershenzon,et al. Where will the wood come from? Plantation forests and the role of biotechnology. , 2002, Trends in biotechnology.
[6] M. Van Montagu,et al. PtABI3 Impinges on the Growth and Differentiation of Embryonic Leaves during Bud Set in Poplar Article, publication date, and citation information can be found at www.plantcell.org/cgi/doi/10.1105/tpc.003186. , 2002, The Plant Cell Online.
[7] J. Dean,et al. SAGE profiling and demonstration of differential gene expression along the axial developmental gradient of lignifying xylem in loblolly pine (Pinus taeda). , 2002, Tree physiology.
[8] N. Chaffey,et al. Sampling of cambial region tissues for high resolution analysis. , 2002 .
[9] N. Chaffey,et al. Secondary xylem development in Arabidopsis: a model for wood formation. , 2002, Physiologia plantarum.
[10] S. Strauss,et al. Stability of Herbicide Resistance and GUS Expression in Transgenic Hybrid Poplars (Populus sp.) During Four Years of Field Trials and Vegetative Propagation , 2002 .
[11] A. Kohler,et al. The poplar root transcriptome: analysis of 7000 expressed sequence tags , 2003, FEBS letters.
[12] Garth R. Brown,et al. A sequence mutation in the cinnamyl alcohol dehydrogenase gene associated with altered lignification in loblolly pine. , 2003, Plant biotechnology journal.
[13] Wout Boerjan,et al. Stacking transgenes in forest trees. , 2003, Trends in plant science.
[14] C. Plomion,et al. Analysis of Protein Expression along the Normal to Tension Wood Gradient in Eucalyptus gunnii , 2003 .
[15] R. Sederoff,et al. Apparent homology of expressed genes from wood-forming tissues of loblolly pine (Pinus taeda L.) with Arabidopsis thaliana , 2003, Proceedings of the National Academy of Sciences of the United States of America.
[16] Anders F. Andersson,et al. A transcriptional timetable of autumn senescence , 2004, Genome Biology.
[17] G. Tuskan,et al. Comparative sequence analysis between orthologous regions of the Arabidopsis and Populus genomes reveals substantial synteny and microcollinearity , 2003 .
[18] J. Ralph,et al. Combinatorial modification of multiple lignin traits in trees through multigene cotransformation , 2003, Proceedings of the National Academy of Sciences of the United States of America.
[19] C. Chapple,et al. Significant increases in pulping efficiency in C4H-F5H-transformed poplars: improved chemical savings and reduced environmental toxins. , 2003, Journal of agricultural and food chemistry.
[20] R. Meagher,et al. Expression of mercuric ion reductase in Eastern cottonwood (Populus deltoides) confers mercuric ion reduction and resistance. , 2003, Plant biotechnology journal.
[21] J. Lundeberg,et al. Gene Expression in Autumn Leaves1 , 2003, Plant Physiology.
[22] Wout Boerjan,et al. Lignin: genetic engineering and impact on pulping. , 2003, Critical reviews in biochemistry and molecular biology.
[23] Wei Tang,et al. Transgenic loblolly pine (Pinus taeda L.) plants expressing a modified delta-endotoxin gene of Bacillus thuringiensis with enhanced resistance to Dendrolimus punctatus Walker and Crypyothelea formosicola Staud. , 2003, Journal of experimental botany.
[24] D. Pot,et al. Seasonal variation in transcript accumulation in wood-forming tissues of maritime pine (Pinus pinaster Ait.) with emphasis on a cell wall glycine-rich protein , 2003, Planta.
[25] Gerald A Tuskan,et al. Identification of quantitative trait loci influencing wood property traits in loblolly pine (Pinus taeda L.). III. QTL Verification and candidate gene mapping. , 2003, Genetics.
[26] A. Séguin,et al. Bacterial disease resistance of transgenic hybrid poplar expressing the synthetic antimicrobial peptide D4E1. , 2003, Tree physiology.
[27] J. Leplé,et al. Stability of transgene expression in poplar: A model forest tree species , 2003 .
[28] H. Ebinuma,et al. Ectopic Expression of a Horseradish Peroxidase Enhances Growth Rate and Increases Oxidative Stress Resistance in Hybrid Aspen , 2003, Plant Physiology.
[29] S. Strauss,et al. Activation Tagging of a Dominant Gibberellin Catabolism Gene (GA 2-oxidase) from Poplar That Regulates Tree Stature1 , 2003, Plant Physiology.
[30] L. Hoffmann,et al. Responses of poplar to chilling temperatures: proteomic and physiological aspects. , 2004, Plant biology.
[31] G. Tuskan,et al. Poplar genomics is getting popular: the impact of the poplar genome project on tree research. , 2004, Plant biology.
[32] R. Sederoff,et al. Coordinated Genetic Regulation of Growth and Lignin Revealed by Quantitative Trait Locus Analysis of cDNA Microarray Data in an Interspecific Backcross of Eucalyptus1 , 2004, Plant Physiology.
[33] P. Nilsson,et al. Cambial meristem dormancy in trees involves extensive remodelling of the transcriptome. , 2004, The Plant journal : for cell and molecular biology.
[34] Ziv Shani,et al. Growth enhancement of transgenic poplar plants by overexpression of Arabidopsis thaliana endo-1,4–β-glucanase (cel1) , 2004, Molecular Breeding.
[35] Fernando Gallardo,et al. Improved growth in a field trial of transgenic hybrid poplar overexpressing glutamine synthetase. , 2004, The New phytologist.
[36] P. Keim,et al. Conserving plant genetic diversity for dependent animal communities , 2004 .
[37] P. Nilsson,et al. A High-Resolution Transcript Profile across the Wood-Forming Meristem of Poplar Identifies Potential Regulators of Cambial Stem Cell Identityw⃞ , 2004, The Plant Cell Online.
[38] J. Grima-Pettenati,et al. Identification of genes preferentially expressed during wood formation in Eucalyptus , 2004, Plant Molecular Biology.
[39] Chung-Jui Tsai,et al. Cryopreservation in Populus functional genomics. , 2004, The New phytologist.
[40] J. Leplé,et al. High tolerance against Chrysomela tremulae of transgenic poplar plants expressing a synthetic cry3Aa gene from Bacillus thuringiensis ssp tenebrionis , 2003, Molecular Breeding.
[41] J. Gion,et al. Proteomics for genetics and physiological studies in forest trees: application in maritime pine , 2004 .
[42] G. Tuskan,et al. Characterization of microsatellites revealed by genomic sequencing of Populus trichocarpa , 2004 .
[43] Garth R. Brown,et al. Comparative Mapping in the Pinaceae , 2004, Genetics.
[44] C. Plomion,et al. Identification of water-deficit responsive genes in maritime pine (Pinus pinaster Ait.) roots , 2004, Plant Molecular Biology.
[45] S. Strauss,et al. Ten lessons from 15 years of transgenic Populus research , 2004 .
[46] P. Nilsson,et al. Changes in gene expression in the wood-forming tissue of transgenic hybrid aspen with increased secondary growth , 2003, Plant Molecular Biology.
[47] S. Henikoff,et al. Efficient discovery of DNA polymorphisms in natural populations by Ecotilling. , 2004, The Plant journal : for cell and molecular biology.
[48] P. Herdewijn,et al. Phenolic Profiling of Caffeic Acid O-Methyltransferase-Deficient Poplar Reveals Novel Benzodioxane Oligolignols1 , 2004, Plant Physiology.
[49] Sunchung Park,et al. Plant Body Weight-Induced Secondary Growth in Arabidopsis and Its Transcription Phenotype Revealed by Whole-Transcriptome Profiling1[w] , 2004, Plant Physiology.
[50] A. Groover,et al. Gene and Enhancer Trap Tagging of Vascular-Expressed Genes in Poplar Trees , 2004, Plant Physiology.
[51] Ikuho Iida,et al. Enhancement of growth and cellulose accumulation by overexpression of xyloglucanase in poplar , 2004, FEBS letters.
[52] G. Tuskan,et al. Genetic and physical mapping of Melampsora rust resistance genes in Populus and characterization of linkage disequilibrium and flanking genomic sequence. , 2004, The New phytologist.
[53] John Ralph,et al. Profiling of Oligolignols Reveals Monolignol Coupling Conditions in Lignifying Poplar Xylem1[w] , 2004, Plant Physiology.
[54] Mariusz Kowalczyk,et al. A strategy for identifying differences in large series of metabolomic samples analyzed by GC/MS. , 2004, Analytical chemistry.
[55] P. Rouzé,et al. Annotation of a 95-kb Populus deltoides genomic sequence reveals a disease resistance gene cluster and novel class I and class II transposable elements , 2004, Theoretical and Applied Genetics.
[56] Garth R. Brown,et al. Nucleotide diversity and linkage disequilibrium in loblolly pine. , 2004, Proceedings of the National Academy of Sciences of the United States of America.
[57] S. Strauss,et al. The Populus PTD promoter imparts floral-predominant expression and enables high levels of floral-organ ablation in Populus, Nicotiana and Arabidopsis , 2003, Molecular Breeding.
[58] A. Déjardin,et al. Expressed sequence tags from poplar wood tissues--a comparative analysis from multiple libraries. , 2004, Plant biology.
[59] J. B. Reid,et al. Sequence variation in two lignin biosynthesis genes, cinnamoyl CoA reductase (CCR) and cinnamyl alcohol dehydrogenase 2 (CAD2) , 2003, Molecular Breeding.
[60] B. Sundberg,et al. A Populus EST resource for plant functional genomics. , 2004, Proceedings of the National Academy of Sciences of the United States of America.
[61] O. Nilsson,et al. Revisiting tree maturation and floral initiation in the poplar functional genomics era. , 2004, The New phytologist.
[62] R. Sederoff,et al. Gene expression during formation of earlywood and latewood in loblolly pine: expression profiles of 350 genes. , 2004, Plant biology.
[63] Chung-Jui Tsai,et al. Suppression subtractive hybridization-mediated transcriptome analysis from multiple tissues of aspen (Populus tremuloides) altered in phenylpropanoid metabolism , 2004, Planta.
[64] B. Ellis,et al. Tryptamine-Induced Resistance in Tryptophan Decarboxylase Transgenic Poplar and Tobacco Plants Against Their Specific Herbivores , 2003, Journal of Chemical Ecology.
[65] A. Déjardin,et al. Tension wood as a model for functional genomics of wood formation. , 2004, The New phytologist.
[66] M. Fladung,et al. Molecular Genetics and Breeding of Forest Trees , 2004 .
[67] D. Neale,et al. Association genetics of complex traits in conifers. , 2004, Trends in plant science.
[68] Jan Karlsson,et al. The response of the poplar transcriptome to wounding and subsequent infection by a viral pathogen. , 2004, The New phytologist.
[69] M. Fladung,et al. T-DNA and transposon tagging in aspen. , 2004, Plant biology.
[70] S. Strauss,et al. Poplar genome sequence: functional genomics in an ecologically dominant plant species. , 2004, Trends in plant science.
[71] R. Sederoff,et al. Metabolic profiling: a new tool in the study of wood formation. , 2004, Journal of agricultural and food chemistry.
[72] A. Déjardin,et al. Poplar genes encoding fasciclin-like arabinogalactan proteins are highly expressed in tension wood. , 2004, The New phytologist.
[73] P. Ingvarsson. Nucleotide Polymorphism and Linkage Disequilibrium Within and Among Natural Populations of European Aspen (Populus tremula L., Salicaceae) , 2005, Genetics.
[74] J. Gion,et al. The proteome of maritime pine wood forming tissue , 2005, Proteomics.