Project description:Although evidence accumulates on the role of plant peptides in the response to external conditions, the number of peptide-encoding genes in the genome is still underestimated. In order to identify novel oxidative stress-induced peptides in Arabidopsis thaliana a tiling array analysis (GeneChipM-BM-. Arabidopsis Tiling 1.0R Arrays ) was performed on mRNA extracted from leaves treated with paraquat (PQ), an reactive oxygen species inducer and water (control), resulting in the identification of 92,844 and 86,272 transcriptionally active regions (TARs), respectively. Normalized log signals were obtained using the Affymetrix Tiling Analysis Software - Version 1.1, Build 2. ON and OFF probes were selected using a treshold, based on positive controls. Next, groups of 4-13 successive ON probes were combined into short TARs and a selection was made of TARs having an average signal intensity at least 2.6-fold higher after PQ treatment compared to the control treatment, resulting in 176 TARS induced by PQ. paraquat treated A. thaliana leaves (2 replicates) vs control (water) treated A. thaliana leaves (2 replicates), (4 samples in total)

Project description:To study protein-RNA interactions at single amino acid and single nucleotide resolution we developed a new approach, termed cross-linking of segmentally isotope labeled RNA and tandem mass spectrometry (CLIR-MS/MS). The method was developed using the PTBP1-EMCV IRES complex as a model system and additionally applied to the U1 snRNP complex. Data from both complexes are included in this submission.

Project description:Transcriptome analysis of different tissues in different materials

Project description:Trophoblast giant cell underrepresentation

Project description:We characterized regions of underrepresentation that are specific to mouse polyploid trophoblast giant cells. We performed array Comparative Genomics Hybridization (aCGH) to examine copy number variation (CNV) in mouse polyploid trophoblast giant cells (TGCs). We performed the following experiments in duplicates to examine CNV during various stages of in vivo and in vitro TGC development: e9.5 TGCs vs. embryonic controls, e11.5 TGCs vs. embryonic controls, e13.5 TGCs vs. embryonic controls, e16.5 TGCs vs. embryonic controls, as well as TGCs cultured 3, 5 and 7 days vs. 2N trophoblast stem cells. We also performed the following controls to show that underrepresentation is only found in polypoid trophoblast giant cells and not in either 2N placental cell types nor in other types of polyploid cells: 2N placenta disk vs. embryonic controls, 2N trophoblast stem cells vs. embryonic stem cells, and polyploid Megakaryocytes vs. embryonic controls. When possible, we performed arrays with the test and control samples of opposite sex (F-female, M-male), as an internal control for the array.

Project description:We characterized regions of underrepresentation that are specific to mouse polyploid trophoblast giant cells.

Project description:The present work aims to compare two acetification profiles coming from the same starter culture but using different raw materials. For this purpose, the composition and natural behavior of the microbiota present throughout both processes were compared employing a metaproteomic analysis and, especially, focusing on the protein profile of K. europaeus from anexhaustive quantitative approach. A comparison of vinegar profiles using two natural raw materials (fine wine and craft beer) under a strategy that employs a submerged culture and a semi-continuous operating mode could improve the current knowledge about the influence of the raw materials on the organoleptic properties and quality of industrially elaborated vinegars.

Project description:Rhizosphere bacterial community in different C materials

Project description:Although evidence accumulates on the role of plant peptides in the response to external conditions, the number of peptide-encoding genes in the genome is still underestimated. In order to identify novel oxidative stress-induced peptides in Arabidopsis thaliana a tiling array analysis (GeneChip® Arabidopsis Tiling 1.0R Arrays ) was performed on mRNA extracted from leaves treated with paraquat (PQ), an reactive oxygen species inducer and water (control), resulting in the identification of 92,844 and 86,272 transcriptionally active regions (TARs), respectively. Normalized log signals were obtained using the Affymetrix Tiling Analysis Software - Version 1.1, Build 2. ON and OFF probes were selected using a treshold, based on positive controls. Next, groups of 4-13 successive ON probes were combined into short TARs and a selection was made of TARs having an average signal intensity at least 2.6-fold higher after PQ treatment compared to the control treatment, resulting in 176 TARS induced by PQ.

Project description:Trophoblast giant cell underrepresentation (CGH)