Project description:We studied expression in roots of transgenic poplar (7171B4 genotype) plants expressing PcGA2ox1 or rgl1 under 35S promoter. Dwarf, semidwarf, wt-like and wt plants were used.

Project description:Thermospermine-induced transcriptomic changes were explored in Populus tremula x P. tremuloides. Transgenic hybrid aspen plants expressing 35S::POPACAULIS5 were compared to wild-type hybrid aspen under the influence of PGRs and depleted from PGRs.

Project description:We used whole-genome microarrays to identify differentially expressed genes in leaves of GA-deficient (35S::PcGA2ox) and/or GA-insensitive (35S::rgl1) transgenics as compared to WT poplar (717-1B4 genotype). Our work suggests that the molecular machinery that reduces gibberellins (GAs) concentration and signaling is a major route for restraining growth under both immediate and imminent adverse conditions. We show that inhibition of growth as a result of water deprivation and short days (SDs) coincides with up-regulation of several DELLA and GA2ox encoding genes in poplar. Likewise, GA-deficient and GA-insensitive transgenics, with up-regulated GA2ox and DELLA domain proteins, elicited a hypersensitive growth inhibition in response to both drought and SDs. Because the GA-modified transgenic showed accelerated response to drought and SD, we hypothesized that the mechanisms associated with these responses are constitutively elevated even under control conditions (well-watered, long day photoperiod). Therefore, we used whole-genome poplar microarray to study transcriptome level changes in the leaves of transgenic compared to WT plants grown under control environment. Genetic background for all plants was INRA 717-1B clone (Populus tremula x Populus alba). Expression analysis was preformed on three individual genotypes; wild-type (WT, untransformed control), 35S::PcGA2ox and 35S::rgl1. Leaves from two independent biological replicates per genotype were used, each pooled from 20 clonally propagated plants.

Project description:We used whole-genome microarrays to identify differentially expressed genes in leaves of GA-deficient (35S::PcGA2ox) and/or GA-insensitive (35S::rgl1) transgenics as compared to WT poplar (717-1B4 genotype). Our work suggests that the molecular machinery that reduces gibberellins (GAs) concentration and signaling is a major route for restraining growth under both immediate and imminent adverse conditions. We show that inhibition of growth as a result of water deprivation and short days (SDs) coincides with up-regulation of several DELLA and GA2ox encoding genes in poplar. Likewise, GA-deficient and GA-insensitive transgenics, with up-regulated GA2ox and DELLA domain proteins, elicited a hypersensitive growth inhibition in response to both drought and SDs. Because the GA-modified transgenic showed accelerated response to drought and SD, we hypothesized that the mechanisms associated with these responses are constitutively elevated even under control conditions (well-watered, long day photoperiod). Therefore, we used whole-genome poplar microarray to study transcriptome level changes in the leaves of transgenic compared to WT plants grown under control environment.

Project description:Downstream genes of PtVNS genes were explored with inducible expression system using glucocorticoid receptor (GR). Transgenic poplar plants expressing 35S:AtVND7-VP16-GR were treated with dexamethazone (DEX). A number of genes related to the formation of xylem vessels were induced by DEX.

Project description:Downstream genes of PtVNS genes were explored with inducible expression system using glucocorticoid receptor (GR). Transgenic poplar plants expressing 35S:AtVND7-VP16-GR were treated with dexamethazone (DEX). A number of genes related to the formation of xylem vessels were induced by DEX. Total RNAs of the transgenic plants carrying 35S:AtVND7-VP16-GR treated with and without DEX were compared.

Project description:affy_meja_arabidopsis - We want to determine if the presence of C2 modifies the cell transcriptome and its response to methyl jasmonate. Comparison of control lines and transgenic lines expressing C2 in basal conditions and after treatment with 50uM MeJA for 10 hours. C2 lines are expressing geminivirus C2 under a 35S promoter. PR1-LUC have a luciferase transgene under the control of the promoter of PR1; since the plants are not induced, these are the control plants (resistant to kanamycin, but not expressing anything else) Keywords: gene knock in (transgenic),treated vs untreated comparison

Project description:affy_pop_2011_08 - poplar bent study - genes regulated by PtaZFP2 in absence of mechanical stress - genes regulated by PtaZFP2 after one bending.Species: Populus tremula x Populus alba-- The laboratory previously established a poplar transgenic line overexpressing PtaZFP2 under the control of an estradiol-inducible promoter. - the experiment, conducted on 3-month-old hydroponically-grown poplars, consists in the comparison of WT poplars treated with estradiol and the PtaZFP2-overexpressing line treated with estradiol. We also compared unbent and bent PtaZFP2-overexpressing poplars. The applied strain is quantitatively controlled (Coutand & Moulia, 2000, JExpBot; coutand et al., 2009, Plant Physiology) - 27 arrays - poplar; gene knock in (transgenic)

Project description:A novel cold-inducible GSK3/Shaggy-like kinase cDNA (TaSK5) was isolated from winter wheat by a macroarray-based differential screening approach. Sequence analysis of TaSK5 revealed high similarity to Arabidopsis subgroup I GSK3/Shaggy-like kinases ASK-alpha, ASK-gamma and ASK-epsilon. Transgenic Arabidopsis plants overexpressing TaSK5 cDNA under the control of CaMV 35S promoter showed enhanced tolerance to salt and drought stresses. In contrast, the tolerance of the transgenic plants to freezing stress was not altered. To identify genes which are differentially regulated in the 35S:TaSK5 over-expressing Arabidopsis plants under non-stress conditions, we compared the genome-wide expression profiles of Col-0 and plants over-expressing TaSK5 using DNA microarrays. Sixty seven genes were found to be expressed at least 2-fold more strongly in 35S:TaSK5 plants than in Col-0, and 17 genes were found to be expressed at least 2-fold more strongly in Col-0 than in 35S:TaSK5 plants. Most of the TaSK5 up-regulated genes were also induced by abiotic stresses, including cold, salt and drought. These results support the involvement of TaSK5 in abiotic stress signal transduction. Keywords: transgenic vs wt Col.-0 comparison

Project description:affy_meja_arabidopsis - We want to determine if the presence of C2 modifies the cell transcriptome and its response to methyl jasmonate. Comparison of control lines and transgenic lines expressing C2 in basal conditions and after treatment with 50uM MeJA for 10 hours. C2 lines are expressing geminivirus C2 under a 35S promoter. PR1-LUC have a luciferase transgene under the control of the promoter of PR1; since the plants are not induced, these are the control plants (resistant to kanamycin, but not expressing anything else) Keywords: gene knock in (transgenic),treated vs untreated comparison 12 arrays - ATH1