Project description:A genome-wide analysis of gene expression of the root-colonizing bacterium Pseudomonas putida KT2440 in the rhizosphere of corn (Zea mays var. Girona). To identify reliable rhizosphere differentially expressed genes by this bacterium, populations of P. putida KT2440 previously exposed to a rhizospheric life style for seven days in the rhizosphere of corn were compared with populations previously exposed to a rhizospheric life style for a long period of 138 days.
Project description:The purpose of this set of arrays is to provide a third replicate to use in data analysis addition to the 2 previous replicates for all samples already generated on this project. Our hypothesis is that adaptation to a calcareous environment will be reflected in altered gene expression including genes encoding transporters, ion channels, transcription factors, etc. To test this hypothesis we grew a laboratory non-calcicole (Col-4) and a laboratory calcicole (Cal-0) ecotypes of A. thaliana at low (1 mM) and high (12.5 mM) rhizospheric Ca2+ and compare the patterns of gene expression by microarray analysis. We then collected from the wild, a putative calcicole ecotype (Elland)and a putative non-calcicole (Penicuik) and grew both at low (1 mM) and high (12.5 mM) rhizospheric Ca2+ and compared expression profiles to the laboratory ecotypes. Experimenter name = Bev Abram; Experimenter phone = 01524 592931; Experimenter address = Dept Biological Sciences; Experimenter address = Lancaster University; Experimenter address = Bailrigg; Experimenter address = Lancaster; Experimenter zip/postal_code = LA1 4YQ; Experimenter country = UK Experiment Overall Design: 8 samples were used in this experiment
Project description:The purpose of this set of arrays is to provide a third replicate to use in data analysis addition to the 2 previous replicates for all samples already generated on this project. Our hypothesis is that adaptation to a calcareous environment will be reflected in altered gene expression including genes encoding transporters, ion channels, transcription factors, etc. To test this hypothesis we grew a laboratory non-calcicole (Col-4) and a laboratory calcicole (Cal-0) ecotypes of A. thaliana at low (1 mM) and high (12.5 mM) rhizospheric Ca2+ and compare the patterns of gene expression by microarray analysis. We then collected from the wild, a putative calcicole ecotype (Elland)and a putative non-calcicole (Penicuik) and grew both at low (1 mM) and high (12.5 mM) rhizospheric Ca2+ and compared expression profiles to the laboratory ecotypes. Experimenter name = Bev Abram Experimenter phone = 01524 592931 Experimenter address = Dept Biological Sciences Experimenter address = Lancaster University Experimenter address = Bailrigg Experimenter address = Lancaster Experimenter zip/postal_code = LA1 4YQ Experimenter country = UK Keywords: growth_condition_design; strain_or_line_design
Project description:A Cartes d'Identit des Tumeurs (CIT) project from the french Ligue Nationale Contre le Cancer (http://cit.ligue-cancer.net): Pancreatic adenocarcinoma (PDAC) is one of the most lethal human malignancies and a major health problem. Patient-derived xenografts (PDX) are appearing as a prime approach for preclinical studies despite being insufficiently characterized as a model of the human disease and its diversity. We generated subcutaneous PDX from PDAC samples obtained either surgically or using diagnostic biopsies (endoscopic ultrasound guided fine needle aspirate). The extensive multiomics characterization of the xenografts demonstrated that PDX is a suitable model for preclinical studies, representing the diversity of the primary cancers. the MultiOmicClassification variable indicates groups resulting from the analysis, and the CIMPclass, the CpG Island Methylator Phenotype as estimated by the methylation analysis. This dataset, describes the miRNA-Seq data used in the multiOmics analysis.
