Project description:Sex-specific gene expression in sensory organs may play an important role in mating and foraging behavior. We used long-oligonucleotide microarrays to compare gene expression profiles of males and females in three adult appendages that carry large numbers of chemosensory organs – antenna, proboscis, and front leg. Keywords: tissue-specific expression profiles Drosophila isogenic line WI89 was used. Adult male and female antennae (a3+arista), front legs (from distal tibia down), and proboscises were dissected at 1-2 hours after eclosion. Total RNA was extracted and the mRNA fraction was amplified by reverse transcription followed by in vitro transcription with T7 RNA polymerase.

Project description:Comparing the genetic content of strains JIR1201, JIR1212, JIR1244, JIR1461, JIR1474, JIR3209, JIR3350, JIR3356 and JIR3528 to wild-type strain JIR3356. Comparison of JIR3356 with itself to eliminate any variation that may occur with the technique. This experiment should not produce any statistically significant expression changes. Two biological replicates were analysed per strain, which included a dye swap. Raw data was compiled using IMAGENE. Normalisation and statistical analysis was undertaken using BASE. Statistics were performed using the Wilcoxon signed ranked test.

Project description:This study aimed to identify genes that were differentially expressed when D. nodosus was grown on agar media supplemented with ground hoof compared to the standard agar media. Bacteria were grown on EYE agar or EYE agar with 2% ground hoof agar plates for 2 days before Trizol extraction of RNA. Four biological replicates including two dye swaps were analysed. Raw data was compiled using IMAGENE. Normalisation and statistical analysis was undertaken using BASE. Statistics were performed using the Wilcoxon signed ranked test.

Project description:We used long-oligonucleotide microarrays to investigate whether alternative splicing in Drosophila is regulated in a sex-, stage-, or tissue-specific manner. To examine sex-specific splicing, we compared gene expression profiles of male and female pupae 12 hours after pupariation. To examine stage-specific splicing, we compared expression profiles of mixed-sex, 0-24 hour old embryos and mixed-sex, 12 hour old pupae. To examine tissue-specific splicing, we compared expression profiles of adult male heads and abdomens 24-48 hours after eclosion. To examine tissue-specific splicing, we compared expression profiles of adult male heads and abdomens at 24-48 hours after eclosion. Keywords: tissue-specific expression profiles

Project description:Ureaplasma are widespread parasites colonizing the mucosal surface of the human urogenital tract, and it has been suspected as a causative agent of nongonococcal urethritis, pregnancy complications and prenatal infections. Ureaplasma may also cause central nervous system infections and affect the lower respiratory tract of newborn babies. However, Ureaplasma spp. have also been detected in the urogenital tracts of clinically healthy patients, and their role in the development of infections thus remains unclear. Like in other organisms, virulence of Ureaplasma is determined by the presence of virulence factors - adhesions, human IgA protease, phospholipase and urease. However, the existence of interrelationships between the presence of these genes in the Ureaplasma genome and the incidence of diseases in man has not been demonstrated. Difficulties in the elucidation of these interrelationships may arise from significant macro- (gene mutation, chromosomal rearrangements) and micro- (nucleotide polymorphism) genomic heterogeneity. It is possible that the combination of the variable strain-specific genes in Ureaplasma with generally known virulence factors determine the development of pathological processes on the mucosal surface of the human urogenital tract. In our research we used 10 clinical and 1 laboratory strain

Project description:The aims of this study were to determine the impact of different levels of RNA degradation as well as to ascertain if the gene expression profiles obtained from bladder washing correlates to that obtained from the related bladder tumor. We obtained tissue tumor and bladder washing tumor samples from the same individual. We degraded each intact RNA to 3 different degradation states with dye swap (2x4x2 arrays). All tumor RNAs were compared against a pool of 4 healthy control samples with intact RNA (named as C0).

Project description: Not available

Project description:Although immune mechanisms have been described for Peyer’s patch function, in discriminating food nutrients and commensal microflora from pathogenic challenge, an understanding of gene expression patterns associated with normal intestinal homeostasis is lacking. The effects of commensal bacterial colonization on global gene expression in the small intestine of germ-free mice have been described (1, 2). However, no studies have compared expression patterns of various healthy lymphoid tissues in conventionally-raised pigs or other species. The objective of this study was to investigate the pattern of normal gene expression in jejunal Peyer’s patches (JPP) of healthy pigs. We hypothesized that gene expression of intact jejunal Peyer's patch is characterized by genes associated with absorption and secretory functions as well as genes associated with GALT-specific immune functions. Eight hybridizations were performed, with dye swaps of JPP mRNA from four juvenile pigs. Each hybridization compared JPP from an individual pig to the jejunal mesenteric lymph node reference sample, which was pooled from all juvenile pigs in the study. However, two of the hybridizations resulted in poor quality data, and were excluded from further analysis. Normalization, hierarchical clustering, data visualization, and statistical analysis were performed by GeneSpring version 6.2 (Silicon Genetics, Redwood, CA). GeneSpring standardized the intensities for each spot by subtracting the local background, and then normalized globally by locally weighted linear regression (Lowess). A Lowess curve was fit to the log-intensity versus log-ratio plot. 20.0% of the data was used to calculate the Lowess fit at each point. This curve was used to adjust the control value for each measurement. If the control channel was lower than 10 then 10 was used instead. Spots with a flag value of “0” were excluded. The intensity of negative control DNA-containing spots was used to additionally exclude low intensity data. Negative controls include the gene for Arabidopsis thaliana homeodomain-like protein (AY054571); 200 ng/microl Poly(dA) (Amersham, Piscataway, NJ); a 461 bp fragment of the kanamycin-resistant gene, amplified from the pET24b+ plasmid (Novagen, Madison, WI); PRRS virus strain VR-2332 (PRU87392) ORFs 2, 3, 4, 5, 6 and 7; pCMVSport 6 plasmid (Invitrogen, Carlsbad, CA); and pGEM-T plasmid (Promega, Madison WI). The mean intensity of the negative controls for both Cy3 and Cy5 was calculated for each slide, and spots with a mean intensity less than the mean intensity + 2SD were excluded from further analysis. After normalization, GeneSpring averaged replicate spots for each clone across hybridizations. GeneSpring used the Cross Gene Error Model, which was based on replicate values. A Student’s t-test with the Benjamini and Hochberg false discovery rate multiple testing correction (MTC) verified the difference between the natural log of the normalized gene expression ratio (JPP:j-MLN) and a ratio of 1.0. p-values less than 0.05 were considered significant. Series_references: 1.Fukushima K, Ogawa H, Takahashi K, Naito H, Funayama Y, Kitayama T, Yonezawa H, and Sasaki I. Non-pathogenic bacteria modulate colonic epithelial gene expression in germ-free mice. Scand J Gastroenterol 38: 626-634, 2003. 2. Hooper LV, Wong MH, Thelin A, Hansson L, Falk PG, and Gordon JI. Molecular analysis of commensal host-microbial relationships in the intestine. Science 291: 881-884, 2001.

Project description:RNA from all normal tissues were pooled in equal amounts and used to create the normal tissue library. RNA from all immune stimulated tissues (Salmonella infection, CT+LPS, and PBC, with and without cycloheximide) were pooled in equal amounts and used to create the immune stimulated tissue library. The subtracted library was created by combining the normal and immune stimulated libraries and by subtracting porcine fibroblast RNA.

Project description:CLAMP transcription factor is a GA binding protein that recruits the male dosage compensation complex MSL to male X-chromosome, thus upregulating transcription level twice that of female X-chromosomes. Interestingly, CLAMP is essential for survival of both male and female individuals. However, what function it plays at the autosomes, especially in females is not known. It is well establised that GA-rich sequences to which CLAMP bind have evolved from polypyrimidine tracts that regulate splicing. Also, MALDI-MS data shows that CLAMP binds to RNA binding proteins involved in sex-specific splicing like, Squid. Furthermore, as part of MSL complex CLAMP interacts with MLE, a RNA helicase which is a known component of spliceosome complex conserved from flies to humans. Thus, we hypothesized that CLAMP plays a role in sex-spcific splicing. Given that CLAMP is a transcription factor, understanding mechanism of how it regulates splicing will add to our understanding about how regulators of gene expression shape the transcriptome differentially between males and females. We tested our hypothesis by identifying CLAMP dependent female and male sex-specific splicing events by analysing RNA-seq data from control as well as clampnull mutant male and female third instar larvae (L3) using suppa based time2splice pipeline (https://github.com/ashleymaeconard/time2splice). We identified 189 and 211 CLAMP dependent splicing events in female and male L3. Out of these 139 were female sex-specific splicing whereas 161 was male-sex-specific splicing. 50 splicing events identified as CLAMP dependent were non-specific to any particular sex, and were affect in both the sexes. Interestingly, we identified splicing of master regulator of sex-determination sxl affected by absence of CLAMP in females whereas splicing of one of the sex-determination pathway effectors, tra regulated by CLAMP in males. These findings indicate CLAMP plays important role in determining sex-specific transcript diversity in Drosophila.