Project description:Azelaic acid (AzA) is a candidate systemic resistance inducing phloem mobile signal in Aarabidopsis thaliana, but whether it interacts with immune signalling and how is not known. Here we investigated the crosstalk between phloem signal AzA and immune inducing phytohormone salicylic acid (SA). We show that pretreatment with AzA modulates the SA-inducible transcriptome, wherein some SA-expressed genes show enhanced SA-sensitivity, but many more show reduced SA-sensitivity. 12 day old wild type (col-0) seedlings grown on MS media were treated with 1mM AzA or 5mM MES overnight, then 0.5mM SA or 5mM MES for 6 hours by immersion in 10ml of the respective chemicals. ~50 seedlings were pooled into one biological repeat, with three biological repeats total for this experiment. Seedlings were patted dry with tissue paper and frozen in liquid nitrogen for RNA extraction.

Project description:N-hydroxy-pipecolic acid (NHP) primes Aarabidopsis thaliana to confer faster and stronger activation of immune responses, but how NHP interacts with other immune-inducing phytohormones is unknown. Here we investigated the crosstalk between priming phytohormone NHP and immune inducing phytohormone salicylic acid (SA). We show that pretreatment with NHP modulates the SA-inducible transcriptome, wherein some SA-expressed genes show enhanced SA-sensitivity and some show reduced SA-sensitivity. 12 day old wild type (col-0) seedlings grown on MS media were treated with 1mM NHP or water overnight, then 0.5mM SA or water for 6 hours by immersion in 10ml of the respective chemicals. ~50 seedlings were pooled into one biological repeat, with three biological repeats total for this experiment. Seedlings were patted dry with tissue paper and frozen in liquid nitrogen for RNA extraction.

Project description:The plant immune hormone salicylic acid (SA) modulates transcriptional reprogramming via controlling the master transcriptional coactivator, NPR1. Here we examined the role of HECT-type ubiquitin ligases, UPL1 and UPL5, in SA/NPR1-dependent transcriptional control. We showed that UPL1 and UPL5 are essential regulators of SA-responsive genes, and regulate SA-induced transcriptional reprogramming in a NPR1-dependent manner. Four-week old Arabidopsis thaliana plants of wild-type Col-0, mutant upl1, mutant upl5, and mutant npr1-1 genotypes were germinated on soil in 100% relative humidity. Plants were continuously grown in an environmental chamber with 16/8 hour day/night light regime (120 mol m-2 s-1 light intensity), 21/18 degrees celcius day/night cycle and 65% relative humidity. 4-week-old plants were sprayed with water or 0.5 mM SA until all leaves were thoroughly covered with fine droplets, samples were collected after 24 hours treatment. In total two independent biological repeats were collected.

Project description:Activation of plant immunity is associated with dramatic transcriptome reprogramming to prioritise immune responses over normal cellular functions. Changes in gene expression are coordinated by the immune hormone salicylic acid (SA). Here we investigated the involvement of the E4 ubiquitin ligase UBE4/MUSE3 in SA-induced transcriptional reprogramming. We show that loss of UBE4 function results in amplified expression of SA-induced, NPR1-dependent gene expression. Twelve-day old Arabidopsis thaliana seedlings of wild-type Col-0, mutant ube4 (SAIL_713_A12) and mutant npr1-1 genotypes were grown on MS media supplemented with 1X Gamborg vitamins in an environmental chamber with 16/8 hour day/night light regime (120 mol m-2 s-1 light intensity) and 22 degrees Celcius. Seedlings were then transferred to 6-well plates and immersed in 10 ml of 0.5 mM SA or water. After 12 hours seedlings were harvested and for each treatment ~50 seedlings were pooled together into a single biological repeat. In total two independent biological repeats were collected. After harvesting seedlings were briefly dried on tissue and immediately frozen in liquid nitrogen until further analysis.

Project description:The plant hormone ethylene is involved in plant developmental, stress and environmental signalling. The ethylene signalling pathway is modulated by the master transcription factor EIN3. Here we examined the involvement of proteasome-associated UPL3 and UPL4 ubiquitin ligases in ethylene-responsive gene expression. We reveal that in absence of functional UPL3 and UPL4, plants show constitutive and enhanced activation or repression of ethylene-responsive genes in an EIN3-dependent manner. Ten-day old Arabidopsis thaliana seedlings of wild-type Col-0, mutant upl3 upl4, mutant ein3-1, and mutant upl3 upl4 ein3-1 were grown on MS media in an environmental chamber with 16/8 hour day/night light regime (120 mol m-2 s-1 light intensity) and 22 degrees Celsius. Seedlings were then transferred to 6-well plates and floated on the surface of water or 50 uM 1-aminocyclopropane-1-carboxylic acid (ACC). After 3 hours seedlings were harvested and for each treatment ~50 seedlings were pooled together into a single biological repeat. In total three independent biological repeats were collected. After harvesting seedlings were briefly dried on tissue and immediately frozen in liquid nitrogen until further analysis.

Project description:Study of genes expressed early during differentiation of L.donovani promastigotes into amastiogotes. In this experiment, gene expression changes were studied between and promastigotes and an intermediate stage of differentiation PA24(promastigotes after shifting to amastigote culture conditions for 24 hrs. PA24 RNA sample was labeled with Cy5 and pro sample was treated with Cy3.

Project description:Microarray technology was used to identify new predictive biomarkers in samples of clinically homogeneus patients.

Project description:Microarray technology was used to monitor the level of expression of 7,657 human genes in a set of 35 nodal peripheral T-cell lymphomas.

Project description:Identification of gene expression signatures associated with favourable or unfavourable treatment response and clinical outcome of Hodgkin lymphoma patients.

Project description:Mature grapevine berries at the harvesting stage (MB) are very susceptible to the gray mold fungus Botrytis cinerea while veraison berries (VB) are not. We conducted simultaneous microscopic and transcriptomic analyses of the pathogen and the host to investigate the infectious process developed by B. cinerea on MB versus VB, and the plant defense mechanisms deployed to stop the fungus development. On the pathogen side, our genome-wide transcriptomic data revealed that B. cinerea genes up-regulated during infection of MB are enriched in functional categories related to necrotrophy such as degradation of plant cell wall, proteolysis, membrane transport, reactive oxygen species generation and detoxification. Quantitative-PCR on a set of representative genes related to virulence and microscopic observations further demonstrated that the infection is also initiated on VB but stops at the penetration stage. On the plant side, genome-wide transcriptomic analysis and metabolic data revealed a defense pathways switch during berry ripening. In response to B. cinerea infection, VB activated a burst of reactive oxygen species (ROS), the salicylate (SA)-dependent defense pathway, the synthesis of the resveratrol phytoalexin and cell-wall strengthening. In opposite, infected MB activated the jasmonate (JA)-dependent pathway which does not stop the fungal necrotrophic process. Grapevine berries at veraison (VB) and harvesting stages (MB) were inoculated with Botrytis cinerea B05-10 and samples were taken at 24h and 48h post-inoculation. An additional uninfected control sample taken at 0h post-inoculation was included in the experimental design. 3 replicates per sample were performed. The total-RNA samples were labeled and used for hybridization on NimbleGen 12plex Vitis vinifera gene expression array.