Project description:Detection of copy number dependent gene expression profiles in epithelial tumours has lead to the discovery of genes significant in diagnosis, prognosis and of therapeutic value. We sought to apply the technologies of gene expression profiling and copy number aberration detection by high density oligonucleotide microarray analysis to detect genes with expression profiles regulated by copy number. We surveyed copy number aberrations in 27 squamous cell carcinomas tissues and ten cervical carcinoma cell lines by Agilent 244k aCGH, and in a companion study of 77 tissues we obtained transcriptional profiles of a broader ranger of histologies. Briefly, for normal (NAD) and squamous intraepithelial lesions (SILs), DNA and RNA were extracted from approximately 5 - 25 x 5 mm thin sections of fresh frozen cervical tissue, respectively. Epithelial were microdissected, pooled and processed as follows. For RNA extraction, tissue was collected in Trizol (Invitrogen, UK) and subject to homogenization (Polytron), total RNA was recovered following standard processes, and quality assessed by BioAnalyzer (Agilent). DNA was recovered following Proteinase K digestion, phenol chloroform extraction, and ethanol precipitation. Contaminating RNA was removed by RNAse A treatment, and a second round of phenol chloroform extraction and ethanol precipitation. For SCCs, RNA and DNA was extracted from whole tumour (>85%), following similar strategies as previously described. This submission describes the copy number aberrations of 27 cervical SCC tissues and 10 common cervical SCC cell lines

Project description:167 Ull-samples 244k array Tumor tissue from a series of 212 primary breast cancers were sequentially collected at Ullevål University Hospital, Oslo, Norway between 1990 and 1994. Tissues were collected at the time of primary surgery and snap frozen. We performed aCGH on 167 of these samples. DNA was isolated using chloroform/phenol extraction, followed by ethanol precipitation. The aCGH-platform was the Agilent Human genome CGH Microarray 244k. The aim of this study was to investigate the genome wide genomic copy number alterations in a cohort of primary breast cancer patients.

Project description:Assuming that functional lncRNAs form larger ribonucleoprotein complex and thus are easily crosslinked to proteins upon UV-irradiation, we performed RNA-Seq analyses of RNAs recovered from the aqueous phase after the UV-irradiation and phenol chloroform extraction (UPA-Seq)

Project description:This dataset contains DRIP-seq data from 2 patients. DNA–RNA hybrids were extracted from tissue derived from ETMR patient-derived xenograft (PDX) models (BT183) that were treated using topotecan or saline as described previously27. Tumours were subsequently frozen and pelleted using ultracentrifugation. DNA–RNA hybrids were extracted as described previously using the same protocol that is applied for cultured cells21. DNA was extracted using proteinase K followed by phenol–chloroform extraction and ethanol precipitation. Subsequently the DNA was fragmented using the restriction enzymes HindIII, EcoRI, BsrGI, XbaI and SspI (New England Biolabs). Digested DNA was subsequently incubated with the anti-DNA–RNA hybrid anti- body S9.6 (Merck, MABE1095) and immunoprecipitated using agarose beads. Bound DNA–RNA hybrids were eluted and incubated with pro- teinase K and cleaned with an additional phenol–chloroform–ethanol extraction. The DNA was subsequently sonicated and sequenced using a Hiseq 2000 machine with a 50-bp single-read protocol. Each treat- ment condition was performed in duplicate and both RNase H and the input was included as negative controls resulting in 10 Fastq files.

Project description:Phenol Toluol extraction (PTex) carried out two steps organic-phase separation: first pH neutral phenol–Toluol extraction separated RNA and protein from DNA: RNA and proteins to the top aqueous phase but DNA and membranes in the interface. Aqueous phase then went through two rounds acid-phenol extraction, resulting RNA in the top aqueous phase, proteins bottom organic phase and RNA-protein complexes in the interface. After carefully isolated the interface, ethanol precipitation was carried on for purifying RNA-protein adducts (Urdaneta et al, 2019; Smith et al, 2020)

Project description:LK cells of each mouse genotype were fixed with 1% formaldehyde for 15 min and quenched with 0.125 M glycine. Chromatin was isolated by the addition of lysis buffer, followed by shearing with Bioruptor Pico with water cooler (Diagenode, Seraing, Belgium). The DNA was sheared to an average length of 300-500 bp. Genomic DNA regions of interest were isolated using antibodies against H3K27ac (Diagenode, C15410196), H3K4me1 (C15410194), and H3K4me2 (Abcam, ab32356). Complexes were washed, eluted from the beads with SDS buffer, and subjected to RNase and proteinase K treatment. Crosslinks were reversed by incubation overnight at 65°C, and ChIP DNA was purified by phenol-chloroform extraction and ethanol precipitation. After the measurement of DNA concentration with Qubit3.0, the libraries were prepared and sequenced on an Illumina NextSeq 500.

Project description:Comparison of wild-type (2.4.1) R. sphaeroides gene expression in 30% O2 aerobic respiration vs. photosynthesis 10W/m2 light, to identify candidate photosynthesis genes. RNA preparation: pellet cells from exponential phase cultures using 5% phenol in ethanol stop solution; lysozyme + SDS to lyse; phenol/chloroform extraction + DNase treatment + RNeasy kit clean up. Manuscript in preparation. The below normalized data was generated using GeneSpring software with the following settings: A data: Data Transformation: set all values less than 0.01 to 0.01 Per Chip: normalize to 50th percentile, and then Per Gene: normalize to median B data: Data Transformation: set all values less than 0.01 to 0.01 Per Chip: normalize to 50th percentile Values from independent replicates were averaged Keywords = Rhodobacter sphaeroides Keywords = photosynthesis Keywords = purple bacteria Keywords: other

Project description:This dataset contains miRNA-seq data from 10 patients. Small RNAs were isolated as described previously57,58 from fresh-frozen tumour material. In brief, total RNA was extracted using guanidinium isothiocyanate/phenol extraction followed by 3′-adaptor ligation of barcoded adenylated adaptors. Samples were pooled in two sets of five samples. Subsequently, gel electrophoresis was used to isolate small RNAs (19–35 nt) and purified using ethanol precipitation. Fragments were then amplified using standard PCR, isolated using gel electropho- resis and purified using ethanol precipitation. Samples were sequenced on a HiSeq 2000 v.4 machine resulting in 10 Fastq files.

Project description:RNA and whole-genome DNA were isolated from control and dnmt1 morphants zebrafish cells using the TRIzol (Tiangen) reagent and phenol-chloroform extraction by following the manual, respectively. The cDNA library for RNA-seq and DNA library for MeDIP-seq were sequenced using HiSeq2000 (Illumina) in single-end read and paired-read mode, reapectively.

Project description:An Infinium microarray platform (GPL28271, HorvathMammalMethylChip40) was used to generate DNA methylation data from several tissues from prairie voles (Microtus ochrogaster). Ear, liver, and brain samples from the Cornell University prairie vole colony were collected from 48 male and female prairie voles at various life stages: neonatal (<1 month old), sub-adult (2-4 months old), mature adult (4-10 months old), and middle aged/old adult (>10 months old). The pair bonded male and female prairie voles used in our study cohabitated with their partners for several months and produced at least three generations of litters. Animals were euthanized via rapid decapitation, their tissues rapidly extracted and frozen on dry ice before being stored at -80C until further processing for genomic DNA extraction. Brains were coronally sectioned and brain regions from the pair bonding circuit (PBC) were micro-dissected and pooled for each animal. The PBC brain regions included the prefrontal cortex, nucleus accumbens, lateral septum, ventral pallidum, and medial amygdala, and ventral tegmental area. Genomic DNA was isolated and purified using the phenol-chloroform extraction and ethanol precipitation method. A total of 144 tissue samples were collected and processed for DNA methylation analysis. Tissues: Brain, Ear, Liver