Project description:To identify protein constituents of the structures at the tip of the trypanosome flagellum

Project description:Bloodstream-form trypanosomes (Lister 427) constitutively expressing ZC3H5-TAP (Tb927.3.740) were used. The protein was pulled down with an IgG column , then the protein and bound RNA was eluted using TEV protease. RNA was then sequenced from unbound (flow-through) and bound (eluate) fractions.

Project description:The protozoan parasite Trypanosoma evansi is responsible for causing Surra in a variety of mammalian hosts over a wide geographical area. In order to identify which genes and processes are required to establish disease in mice, parasites were irradiated over a range using a Cobalt60 gamma source. A custom Trypanosome spp. array that covers the genomes of three trypanosome species, T. brucei, T. evansi and T. congolense was designed by Affymetrix with an average of 9300 whole gene transcripts from all three species were targeted. Irradiation differentially affected the abundance of gene transcripts in a dose-dependent trend. We present these genes as necessary for repair from irradiation damage, and essential for disease establishment in mice post irradiation.

Project description:Intrauterine growth restriction (IUGR) represents a major obstetric challenge with perinatal complications and a risk factor of developing disease in adult life. Placental insufficiency is one of the common features accompanying IUGR. The aim of this study was to evaluate global placental gene expression profile in IUGR compared to normal pregnancies. Placental samples were collected by eight IUGR pregnancies with placental insufficiency ascertained by Doppler and eight healthy controls. A 30K Human Genome Survey Microarray v.2.0 (Applied Biosystems) was used to evaluate global gene expression profile. Principal component analysis showed good separation in terms of gene expression patterns between the groups. Pathway analysis with Bonferroni correction for multiple testing showed significant (p<0.05) up-regulation of inflammation mediated by chemokine and cytokine signalling pathway in the IUGR placentas. Genes involved in metabolism of glucocorticoids (HSD11B1 and DHRS2) were found differentially expressed. We found no imprinted genes to be differentially expressed and only one gene involved in epigenetic modifications (MBD3) to be down-regulated in the IUGR placentas, indicating that IUGR due to placental insufficiency is not associated to placental imprinting. Subgroup analysis between pure IUGR and IUGR with preeclampsia placentas showed only 27 differentially expressed genes suggesting common pathophysiology. Eight placental samples from normal human placenta compared to eight human placental samples from patients with intrauterine growth restrictions due to placental insufficiency

Project description:The series is composed of thirty hybridizations for analysis of differentially expressed genes in normal placenta tissues from patients with normal labor and placenta tissues from patients with severe preeclampsia. Patients tissues samples were obtained from (Vasilis. Total RNA extraction was performed by using the MagNa Pure Compact RNA Isolation Kit (Roche Applied Science). Keywords: Gene expression study, Disease state Twenty-six out of 50 normal placentas were randomly selected to match with 17 preeclamptic placentas, accounting for parity. Microarrays were performed applying a direct comparison design.

Project description:The human placenta is a rapidly developing organ with a relatively short life span that performs multiple functions until birth. Investigations into molecular mechanisms that control placental plasticity during its maturation might be useful in understanding patho-physiology of pregnancy-specific disorders. We hypothesized that molecular rearrangements and phenotypic adaptations that are necessary for normal placental development and maturation are reflected in its genotype. Our objective was to investigate global gene expression profile in the first and third trimester normal human placentas. 21 women were recruited with uncomplicated pregnancies that were delivered at term and 16 healthy women undergoing surgical abortion at 9-12 weeks gestation. We compared global placental gene expression profile by Human Genome Survey Microarray v.2.0 (Applied Biosystems). A total of 37 hybridisations were performed applying direct comparison design.

Project description:To analyse the impact of URT1-mediated uridylation on miRNA and siRNA tailing, we deep-sequenced small RNA libraries for WT and urt1 duplicate samples at the same developmental stage that was analyzed by TAIL-seq, i.e., two-week-old seedlings. Examination of miRNA and siRNA tailing in WT and urt1 samples.

Project description:We have analysed the genome-wide distribution of RNA polymerase in mechanosenstive deletion strains of E.coli upon hyperosmotic stress. We have used ChIP-chip of the ß subunit of RNA polymerase and we have assessed changes in RNA polymerase distribution in Frag1 MJF612 and MJF641 strains that are deleted for incresing numbers of mechanosensitive channels in response to hyperosmotic stress .

Project description:A disproportionate number of predicted proteins from the genome sequence of the protozoan parasite Trypanosoma brucei, an important human and animal pathogen, are hypothetical proteins of unknown function. This work describes a protein correlation profiling mass spectrometry approach, using two size exclusion and one ion exchange chromatography systems, to derive sets of predicted protein complexes in this organism by hierarchical clustering and machine learning methods. We provide examples of both potential new subunits of known protein complexes and of novel trypanosome complexes of suggested function, contributing to improving the functional annotation of the trypanosome proteome. These hypothesis-generating proteomic data are provided in an open access online data visualisation environment (http://134.36.66.166:8083/complex_explorer)

Project description:Although the locations of promoters and enhancers have been identified in several cell types, we have yet limited information on their connectivity. We developed HiCap, which combines Hi-C with promoter sequence capture, to enable genome-wide identification of regulatory interactions with single-enhancer resolution. HiCap analyses of mouse embryonic stem cells (mESC) identified promoter-enhancer interactions predictive of gene expression change upon perturbation, opening up for genomic analyses of long-range gene regulation. HiCap was designed by combining Hi-C with with sequence capture (for all promoters) and carried out in mouse embryonic stem cells (mESC)