Project description:1.) Background: Gene expression profiling is a highly sensitive technique which is used for profiling of tumor samples for medical prognosis. RNA quality and degradation influences the analysis results of gene expression profiles. The impact of this influence on the profiles and its medical impact is not fully understood. As patient samples are very valuable for clinical studies, it is necessary to establish criteria for the RNA quality to use these samples in later analysis. 2.) Methods: To investigate the effects of RNA integrity on gene expression profiling whole genome expression arrays were used. We therefore used tumor biopsies from patients diagnosed with locally advanced rectal cancer. To simulate degradation, the isolated total RNA of all patients was subjected to heat-induced degradation in a time-dependent manner. Expression profiling was then performed and data were analyzed bioinformatically to assess the differences. 3.) Results: The biological differences between the patients largely over-weighed the differences introduced by RNA degradation. Only a relatively small number of probes (275 out of 41000) show a significant effect due to degradation. The genes that show the strongest effect due to RNA degradation were especially those with short mRNAs and probe positions near the 5' end. 4.) Conclusions: RNA from tumor samples with differing realistic qualities (> 5) can still be used to perform gene expression analysis. A much higher biological variance between patients is observed compared to the effect that is imposed by degradation of RNA. Nevertheless there are genes that are prone to degradation, especially very short ones and those with the probe binding side close to the 5´-end. Therefore, these genes should be excluded from gene expression analysis when working with degradated RNA. Biopsies were taken from 3 different patients with 4 time-points of degradation per patient. The resulting 12 samples were separately hybridised (OneColor Array Design).

Project description:Genome wide DNA methylation profiling of decidua samples from unexplained recurrent spontaneous abortion patients and controls with induced abortions. The Infinium Human Methylation 850K BeadChip was used to obtain DNA methylation profiles across approximately 853,307 CpGs in decidua samples . Samples included 2 normal pregnant women (non-medical reasons for abortion) and 4 unexplained recurrent spontaneous abortion patients.

Project description:Genome wide DNA methylation profiling of spontaneous meningiomas and meningiomas from patients who had received radiotherapy for previous medical condition. The Illumina Infinium 450k Human DNA methylation Beadchip was used to obtain DNA methylation profiles across approximately 450,000 CpGs. Samples include 18 radiation induced meningiomas and 19 spontaneous meningiomas.

Project description:PROgECT (ClinicalTrials.gov Identifier: NCT01988961) was a multicenter, open-label study evaluating the accuracy of a probe-set panel in predicting response to golimumab treatment in participants with moderately to severely active ulcerative colitis (UC). Biopsy samples (collected 15 to 20 cm from the anal verge) were taken at screening from 84 patients and used for RNA extraction and profiling by microarrays. All patients enrolled in the study received the approved induction dose regimen of subcutaneous (SC) golimumab.

Project description:Abstract Oxford Nanopore direct RNA sequencing (DRS) is capable of sequencing complete RNA molecules and accurately measuring gene and isoform expression. However, as DRS is designed to profile intact RNA, expression quantification may be more heavily dependent upon RNA integrity than alternate RNA-seq methodologies. It is currently unclear how RNA degradation impacts DRS or if it can be corrected for. To assess the impact of RNA integrity on DRS we performed a degradation time-series using SH-SY5Y neuroblastoma cells. Our results demonstrate that degradation is a significant and pervasive factor that can bias DRS measurements, including a reduction in library complexity resulting in an overrepresentation of short genes and isoforms. Degradation also biases differential expression analyses; however, we find explicit correction can almost fully recover meaningful biological signal. In addition, DRS provided less biased profiling of partially degraded samples than nanopore cDNA-PCR sequencing. Overall, we find samples with RIN > 9.5 can be treated as undegraded and samples with RIN > 7 can be utilised for DRS with appropriate correction. These results establish the suitability of DRS for a wide range of samples, including partially degraded in-vivo clinical and post-mortem samples, whilst limiting the confounding effect of degradation on expression quantification.

Project description:<p>A mechanistic understanding of the health benefits conferred by consumption of probiotic bacteria has been limited by our knowledge of the resident gut microbiota and its interaction with the host. We used fecal samples from a study of twelve healthy individuals aged 65-80 to characterize the structure and functional dynamics of the gut microbiota associated with consumption of the single-organism probiotic, Lactobacillus rhamnosus GG ATCC 53103 (LGG). Samples were collected prior to probiotic consumption (day 0), on day 28 immediately after consuming 10^10 CFU of LGG twice daily for 28 days and day 56, one month after stopping LGG consumption. Our integrative approach incorporated bacterial 16S rRNA gene sequencing, whole-community expression profiling using RNA-seq, and metagenomic sequencing. We highlight the value of combinatorial &#39;omics methods and concomitant high-resolution informatics to probe the role that probiotics may play on the structure and function of the resident microbiota.</p>

Project description:The requirement of frozen tissues for microarray experiments limits the clinical usage of genome-wide expression profiling using microarray technology. Keywords: Lung Cancer Prognosis, Gene Expression Signature, Formalin Fixed Paraffin Embedded Samples The goal of this study is to test the feasibility of developing lung cancer prognosis gene signatures using genome-wide expression profiling of formalin-fixed paraffin-embedded (FFPE) samples, which are widely available and provide a valuable rich source for studying the association of molecular changes in cancer and associated clinical outcomes. FFPE tumor specimens were collected, and total RNA was processed for analysis on the Affymetrix U133 plus 2.0 arrays according to Affymetrix protocols. The quality control procedure for microarray data analysis was based on the percentage of present calls calculated by the MAS5 package. We selected 55 arrays with at least 15% of probe sets present, and we selected 1400 probe sets that present on all 55 arrays for data analysis. After microarray analysis QC, we used the RMA background correction algorithm to remove non-specific background noise. A robust regression model was fitted to the probe level data, and the fitted expression values for the probes at the 3' end were used to summarize the probe set expression values. Quantile-quantile normalization was used to normalize all the arrays. The 55 samples and the derived gene expression values for 1400 genes based on the robust regression model were used to develop gene signatures and were uploaded as supplementary data (GSE29013_fitted_1400_probes.txt).

Project description:Background: To date, few studies have systematically characterized microarray gene expression signal performance with degraded RNA from formalin-fixed paraffin-embedded (FFPE) specimens in comparison to intact RNA from unfixed fresh-frozen (FF) specimens. Methodology: RNA was extracted and isolated from paired tumor and normal samples from both FFPE and FF kidney, lung and colon tissue specimens. Microarray signal dynamics on both the raw probe and probeset level were evaluated. A contrast metric was developed to directly compare microarray signal derived from RNA extracted from matched FFPE and FF specimens. Gene-level summaries were then compared to determine the degree of overlap in expression profiles. Results: RNA extracted from FFPE material was more degraded and fragmented than FF, resulting in reduced dynamic range of expression signal. It was found that probe performance is not affected uniformly and declines sharply toward 5’ end of genes. The most significant differences in FFPE vs. FF signal were consistent across three tissue types and enriched with ribosomal genes. Significance: Our results show that archived FFPE samples can be used to profile for expression signatures and assess differential expression similar to unfixed tissue sources. This study provides guidelines for application of these methods in the discovery, validation, and clinical application of microarray expression profiling with FFPE material.

Project description:Glycoarrays are used to identify differences in the expression of enzymes involved in gag synthesis and degradation in cartilage aging and arthritis. This experiment includes 3 samples from donors with and without growth factor stimulation. Samples are from human biopsy/necropsy origin.

Project description:Comparison of probe-target dissociations of probe Eub338 and Gam42a with native RNA of P. putida, in vitro transcribed 16s rRNA of P. putida, in vitro transcribed 16S rRNA of a 2,4,6-trinitrotoluene contaminated soil and an uncontaminated soil sample. Functional ANOVA revealed no significant differences in the dissociation curves of probe Eub338 when hybridised to the different samples. On the opposite, the dissociation curve of probe Gam42a with native RNA of P. putida was significantly different than the dissociation curves obtained with in vitro transcribed 16S rRNA samples. Keywords: Microbial diversity, thermal dissociation analysis, CodeLink microarray