Project description:The total RNA from control and POAG optic nerve lamina cribrosa region was isolated and subjected to analysis on U133A 2.0 affymetrix microarray chip. The results from these two analysis was compared to determine whether PAD II RNA level is altered. Purpose of the study. This study was done to determine which RNA transcripts undergo significant changes in the optic nerve between normal and cadaver primary open-angle glaucoma donors. Using donor tissues from NDRI we have performed proteomic analyses (which will be published shortly), we intend a comparison between the proteomic and RNA changes for select proteins in our study. Sample Collection and Preparation of Labeled Copy RNA; The total RNA from optic nerve was obtained using TRIZOL (Invitrogen Inc., Carlsbad, CA) with modification of recommended protocols. The optic nerve from donor eyes were carefully excised and minced into small pieces first using a scissor and then a scalpel. Prior to use tissue was washed with DEPC water and all solutions were prepared in DEPC water. The minced tissue was placed in a glass homogenizer with 1 ml TRIZOL per 100 mg of tissue and homogenized in a glass homogenizer DUALL 20 (Kimble Kontes Glass Co, Vineland, NJ) with 10 strokes cycles each at room temperature and after freezing with liquid nitrogen for 1 min for 40 cycles. This RNA was extracted with chloroform, isoamylalcohol and precipitated with sodium citrate/sodium chloride and isopropanol. The final air-dried RNA precipitate was suspended in DEPC water and stored in â??80oC prior to use. RNA was prepared for hybridization according to the GeneChip Expression Analysis Technical Manual (Affymetrix, Santa Clara, CA). The hybridization was performed at Gene Expression Array Core Facility at Case Western Reserve University (www.geacf.net). The RNA sample was cleaned using a column from a Qiagen RNeasy kit, (part # 74104 ) in accordance with the manufacturerâ??s instructions. The volume of DEPC water used to elute the RNA from the Qiagen column was dictated by the nominal mass of the loaded RNA sample. Samples were eluted in 100ml of water, precipitated with 0.5 volume of 7.5M Ammonium Acetate and 2.5 volumes of 100% ethanol at -20oC for 1 hr and centrifuged for 10 min at room temperature. The pellet was drained and washed twice in 500µl of 70% ethanol. Supernatant was aspirated. The pellet was dried briefly (less than 1 min) in a speeedvac (Savant) and re-suspended in a small volume (~ 12â??15ml) of DEPC water. A small aliquot (2ml) of the sample was used for quantitation. Cleaned RNA samples were annotated as â??clnRNAâ?? and stored at -20oC. cDNA Synthesis; The protocol recommended by Affymetrix Inc. for cDNA synthesis was used at all times. The reaction was primed by annealing an oligo-dT primer coupled to a T7 RNA polymerase promoter to the RNA sample. Whenever possible, 8 mg of clnRNA were reverse transcribed using Superscript II reverse transcriptase in a 20ml reaction at 42oC for 1 hr. Second strand synthesis was carried out immediately in a total reaction volume of 150ml in the presence of E. coli DNA polymerase I, RNAse H and DNA ligase. The reaction mixture incubated for 2 hrs at 16oC and for a further 5 min in the presence of T4 DNA pol.. The reaction was terminated by the addition of EDTA. The sample was cleaned with a Qiagen cDNA clean-up column according to the manufacturers directions. The elution buffer volume was 14ml. The eluted samples were stored overnight at -20oC. In-Vitro Transcription (IVT) reaction; In a 0.5ml microfuge tube, complementary RNA (cRNA) was generated in an IVT reaction using a BioArray High Yield ENZO kit (Affymetrix). The 40ml reaction contained 10ml of cDNA sample and was incubated at 37oC in the heating block for 4-5hrs. Samples were mixed by flicking, pulse-centrifuged and returned to the incubator once every 40 minutes. Upon completion of the reaction, IVT samples were adjusted to a volume of 100ml with DEPC-treated water and cleaned using Qiagen RNA clean-up columns. Samples were eluted in 45ml of DEPC-treated water. A 2ml-aliquot was used for quantitation. Corrected concentrations of cRNA (minus the input clnRNA) were determined. A standard fragmentation reaction volume was 40ml in a 0.5 ml microfuge tube and used 20mg of overall IVT RNA in 1X fragmentation buffer (40mM Tris acetate, pH 8.1, 100mM KOAc, 30mM MgOAc). The reaction was incubated at 94oC for 35min in a heat block. After the 35 min incubation the fragmented samples were placed on ice. The standard hybridization cocktail volume was 300ml. 150ml of 2X hybridization buffer was added (final concentrations : 100mM MES, 1M [Na+], 20mM EDTA, 0.01% Tween 20) Herring sperm and acetylated BSA were added to a final concentration of 0.1 and 0.5mg/ml respectively. The amount of fragmentation reaction containing 15mg of cRNA was added to the cocktail and the remaining volume was made up with molecular biology grade water. A 15ml aliquot of a 20X mixture of in-vitro transcripts of bacterial genes BioB BioC BioD and cre as external controls (spikes) were added to the cocktail to give final concentrations of 1.5, 5, 25 and 100pM respectively. Control oligonucleotide (5ml) was added to a final concentration of 50pM. Array Hybridization; Sample Hyridization cocktails (300ml) were removed from storage at â??20oC and thawed in a 45oC temperature block. The samples were incubated at 45oC for 5 min, incubated at 45oC for 5 min and then centrifuged at 15,000g for 5 min. This study used commercially available Affymetrix HG U133A 2.0 arrays only. These are in situ synthesized, high density oligonucleotide arrays which can interrogate 22,777 gene entities. The part number is 900444 more detailed information may be found at www.affymetrix.com website. Meanwhile, the affymetrix chip arrays were taken from their storage at 4oC and allowed to come to room temperature. The chamber was filled with 1X hybridization buffer (final concentrations : 100mM MES, 1M [Na+], 20mM EDTA, 0.01% Tween 20). The chip was then preconditioned by incubation in the hybridization oven at 45oC for 10 min. The chip was removed and the chamber drained. Sample cocktails (200ml) were then introduced into the chamber of the chips. The ports were sealed with tough-spots stickers and placed in the hybridization oven and incubated at 45oC with rotation overnight. Next day (16hr later), the incubation was terminated and the chips removed from the oven. Samples were retrieved from the chips and stored again in a freezer at -20oC. The chips were filled with buffer A and placed in a module of Fluidics 400 wash station. The chips were subjected to the Affymetrix â??EuKws4 ver 2â?? programmed series of stringent post hybridization washes, staining and post-staining washes in accordance with Affy protocols. Upon completion of the wash series (approximately 2 hrs), the chips were removed from the Fluidics station. The chips were inspected. Chips were scanned using an Agilent Gene Array scanner 3000 driven by Affymetrix GCOS software. Generation of Expression Values; Microarray Suite, version 5 (Affymetrix), was used to generate *.cel files, and a computer program (Probe Profiler, ver. 1.3.11; Corimbia Inc., Berkeley, CA) developed specifically for the GeneChip system (Affymetrix) was used to convert intensity data into quantitative estimates of gene expression for each probe set. The software identifies informative probe pairs, and down-weights the signal contribution of probe pairs that are subject to differential cross-hybridization effects or that consistently produce no signal. The software also detects and corrects for saturation artifacts, outliers, and chip defects. A probability statistic was generated for each probe set. The probability is associated with the null hypothesis that the expression level of the probe set is equal to zero (background). Genes not significantly expressed above background in any of the samples (P > 0.05) were

Project description:The miRNAs were purified from paraffin embedded liver biopsy samples of HCV and HCC patients, using an miRNeasy mini kit (Qiagen) according to manufacturer’s instructions. First, 25mg of liver biopsy tissues was homogenized in 700μl QIAzol lysis reagent, mixed, and shaken with chloroform. After that, the phases were separated by centrifugation at 12000´g for 15 min. The upper aqueous phase was collected in a fresh tube and the remaining DNA and organic protein organic phases was stored at -70°C until required. The RNA aqueous phase was washed further on the column and finally RNA was eluted into DEPC water (Ambion). Purified miRNAs were reverse transcribed into first strand cDNA using a miRNA first strand kit. (Qiagen). The reaction was carried out at 37ºC for 2 hours followed by heating at 95ºC for 5 min.

Project description:This data was generated by ENCODE. If you have questions about the data, contact the submitting laboratory directly (Richard Sandstrom mailto:sull@u.washington.edu). If you have questions about the Genome Browser track associated with this data, contact ENCODE (mailto:genome@soe.ucsc.edu). At cell harvest, a subset of cells was stored at -20oC in RNALater. Total RNA from 5 X 106 cells were purified using Ribopure (Ambion) according to vendor recommended protocols. Total RNA quality was assessed on RNA 6000 Nano Chips (Agilent) using a Bioanalyzer (Agilent). Approximately 3ug of total RNA for each cell type was sent to the Center for Array Technology (CAT) for labeling and hybridization to Affymetrix Human Exon 1.0 ST arrays. Briefly, a Whole Transcript Sense Target Labeling Assay (Affymetrix) was used by the CAT to reduce the rRNA, perform in vitro transcription (IVT) and create labeled sense strand DNA for hybridization to the arrays. Hybridizations were carried out according the manufacturers protocol. Intensity files from the scanned exon arrays were sent to our lab for analysis at the exon level (Affymetrix ExACT 1.2.1 software). Samples were quantile normalized with PM-GCBG background correction and PLIER (Probe Logarithmic Intensity Error) summarized. For data usage terms and conditions, please refer to http://www.genome.gov/27528022 and http://www.genome.gov/Pages/Research/ENCODE/ENCODEDataReleasePolicyFinal2008.pdf

Project description:Middle cerebral artery occlusion (MCAo) in rat represent the ischemic stroke in human. Rodents subjected to MCAo and treated with venom phospholipase A2 showed reduction in infarct volume after 24hours of stroke. We studied the global gene expression of the reduction in infarct volume using Affymetrix Gene Chips. We analysed all the genes that were up or down regulated in the study.

Project description:Goal of experiment: Identification of differentially expressed immune genes from male and female BWF1 lupus-prone mice. (Female incidence is higher than male--attempting to find sex hormone regulated genes that may contribute to this difference). Whole spleen was taken from pre-lupus (4 months old) BWF1 (females are lupus-prone) male and female mice. Preparation of cDNA. Double-stranded cDNA was synthesized from purified RNA. The first strand was synthesized by incubating 5 μg of RNA with 100 pg/ml T7-(dT)24 primer (HPLC purified DNA primer sequence: 5’-GGCCAGTGAATTGTAATACG ACTCACTATAGGGAGGCGG-(dT)24 -3’ Genset Corp, San Diego, CA) at 70°C for 10 minutes. Samples were incubated for 1 hour at 42°C with the following mix: 1X first strand buffer, 10 mM dithiothreitol, 500 μM each dNTP, 200 U SuperScript II in diethylpyrocarbonate (DEPC)-treated water up to 20 μl. Second strand synthesis was performed by incubating the first strand with the following mix for 2 hours at 16°C: 1X second strand reaction buffer, 200 μM dntps, 10 U E. coli DNA ligase, 40 U E coli DNA Polymerase I, 2 U of E. coli RNase H up to 150 μl with DEPC-treated water (all reagents were contained in SuperScript Choice System for cDNA Synthesis, Invitrogen). A phenol/chloroform extraction was performed on the ds-cDNA preparation before biotin-labeled cRNA was generated. Synthesis and fragmentation of biotin-labeled cRNA (in vitro transcription). The ENZO BioArrayTM HighYieldTM RNA Transcript Labeling Kit (T7) (Enzo diagnostics, Inc., Farmingdale, NY) was used to produce large amounts of hybridizable biotin-labeled RNA targets by in vitro transcription from the ds-cDNA. The following mix was incubated at 37°C for 5 hours: 1 μg of ds-cDNA, 1X HY reaction buffer, 1X biotin labeled ribonucleotides, 1X dithiothreitol, 1X T7 RNA Polymerase. Biotin-labeled cRNA was run over RNeasy spin columns (Qiagen), quantified, and run on an agarose gel to visualize the size distribution of labeled transcripts. Twenty micrograms of cRNA was incubated with 1X fragmentation buffer for 35 minutes at 94°C. (5X fragmentation buffer: 200 mM Tris-acetate, pH 8.1, 500 mM KOAc, 150 mM MgOAc). After fragmentation, the samples were stored at -20°C until the hybridization was performed. Sample hybridization. Oligonucleotide microarrays (MGU74v2 A, B, and C GeneChip probe arrays; Affymetrix) were hybridized with labeled cRNA derived from spleens from individual mice. For each array,15 μg of fragmented cRNA was mixed with a hybridization cocktail consisting of 1X hybridization buffer (2X hybridization buffer: 100 mM MES, 1 M [Na+], 20 mM EDTA, 0.01% Tween), 0.5 mg/ml acetylated BSA (Invitrogen), 0.1 mg/ml herring sperm DNA (Promega), and water (BioWhittaker) up to 300 μl). Biotin labeled cRNA transcripts of the E. coli and P1 bacteriophage genes, BioB, bioC, bioD, and cre (GeneChip Eukaryotic Hybridization control kit, Affymetrix) were spiked into each hybridization mix at 1.5, 5, 25, and 100 pM to evaluate sample hybridization efficiency for each array. The hybridization cocktail was heated to 99°C and then 45°C for 5 minutes each before it was centrifuged to remove any insoluble material. The array was equilibrated to room temperature, moistened with 1X hybridization buffer, and incubated for 10 minutes at 45°C with rotation. After incubation, the buffer solution was removed from the array. The array was filled with 300 μl of the hybridization cocktail, placed in a rotisserie box in a 45°C oven, and incubated for 16 hours while rotating at 60 rpm. Washing and staining of array. The hybridization cocktail was removed and the GeneChip Fluidics Station 400 (Affymetrix) with Microarray Suite software (Affymetrix) was used to wash and stain the probe arrays with the following protocol: 10 cycles of 2 mixes/cycle with wash buffer A at 25°C, 4 cycles of 15 mixes/cycle with wash buffer B at 50°C, 30 minute incubation with staining solution at 25°C, 10 cycles of 4 mixes/cycle with wash buffer A at 25°C. Wash buffer A -- non-stringent wash buffer (6X sodium chloride sodium phosphate + ethylenediaminetetraacetic acid (SSPE), 0.01% Tween-20). (20X SSPE: 3 M NaCl, 0.2 M NaH2PO4, 0.02 EDTA) (BioWhittaker). Wash buffer B – stringent wash buffer (100mM MES, 0.1 M [Na+], 0.1% Tween 20). Staining solution (1X 2-(N-Morpholino)ethanesulfonic Acid (MES) stain buffer, 2 mg/ml acetylated BSA, 10 μg/ml Streptavidin Phycoerythrin (SAPE), and water up to 600 μl). (12X MES stain buffer: 1.22 M MES, 0.89 M [Na+]). Analysis. After staining, the probe arrays were scanned using the GeneChip 3000 Scanner (Affymetrix) with Microarray Suite software (Affymetrix). Technical and assay variation between arrays was corrected for by multiplying or dividing the overall intensity of each array by a scaling factor so that the overall intensity of each array was equivalent to facilitate comparison analysis. Keywords = BWF1 total spleen Keywords: repeat sample

Project description:HEK293 cells were transfected with control plasmid (pcDNAI/Neo;Invitrogen) or with the plasmid encoding HCaRG. Stable transfectants were synchronized and grown in the presence of 10% FBS for 48 h. Total RNAs were purified with the mini RNeasy kit (Qiagen). Chips HG-U133A: - Labeling protocol: Enzo BioArray HighYield RNA Transcript Labeling Kit. - Hybridization: According to the manufacturer's protocol (Affymetrix). - Scanner: GeneArray 2500. - Normalization: Employing GCOS software, chips were normalized using all probe sets scaling option and target signal at 500. Chips HG-U133 Plus 2.0: - Labeling protocol: GeneChip IVT Labeling Kit. - Hybridization: According to the manufacturer's protocol (Affymetrix). - Scanner: GeneChip Scanner 3000. - Normalization: Employing GCOS software, chips were normalized using all probe sets scaling option and target signal at 500. Keywords: parallel sample

Project description:Experiment protocol: Experiment was performed on 10 to 15 weeks old male NMRI mice (Harlan, Holland) housed in standard conditions (temperature 22°C, humidity 60 ± 10 %, artificial light from 8.00 am to 8.00 pm, normally 5 animals per cage). Animals had free access to tap water and food pellets (R36, Labfor, Stockholm, Sweden). Animals were randomly divided into healthy and diabetic groups. The diabetic group received a single peritoneal injection of streptozotocin (STZ, Sigma-Aldrich, France, 180 mg/kg) dissolved in sodium citrate buffer solution (0.1 mol/l, pH 4.5) to induce experimental diabetes similar to type 1. The other group received injection of an equal volume of buffer. Diabetes was confirmed 72 hours after the injection by urine glucose testing (Glukotest(r), Roche, Germany), and mice were characterized diabetic when urine glucose values were greater than 200 mg/dl. Diabetic and healthy animals were randomly assigned into 12 groups (n = 5 per group), which were sedentary or trained for one, three or five weeks. Training groups performed 1 hour per day of treadmill running at 21 m/min and 2.5° incline. After one day of familiarization on a rodent treadmill, the mice ran as described above 5 days per week. Mice were sacrificed 24 hours after the last training bout (respective sedentary controls at the same time) by cervical dislocation followed by decapitation. Calf muscles were removed, dissected free of fat and connective tissue, weighed, snap frozen in liquid nitrogen and stored at -80°C for further analysis. Total RNA extraction and sample preparation: Total RNA was extracted from the left calf muscle complex (soleus + gastrocnemius + plantaris) with Trizol Reagent (Invitrogen, Carlsbad, CA) and further purified with RNeasy columns (Qiagen, Valencia, CA) according to the manufacturers' protocols. Concentration and purity of RNA was determined by measuring absorbances at wavelengths 260 and 280 nm. Integrity of the RNA was checked with agarose gel electrophoresis. RNA samples were pooled within each group for microarray analyses. Concentration, purity and integrity of pooled RNA samples were checked as described above. Micro array analysis: Pooled RNA samples were analyzed with Affymetrix Gene Chip MG U74Av2 (Affymetrix , Inc., Santa Clara, CA) representing 6000 known genes and 6000 ESTs. Microarray analyses were performed according to the instructions of Affymetrix. Briefly, 5 µg of total pooled RNA was reverse transcribed using T7-(dT)24-primers and SuperScript II RT enzyme (Invitrogen). Single stranded cDNA was turned to double stranded cDNA using T4 DNA polymerase (Invitrogen). Produced cDNA was then purified and transcribed in vitro to biotin labeled cRNA using Enzo Bioarray High Yield RNA Transcript Labeling Kit (Enzo Diagnostics, Farmingdale, NY). RNA was purified and its quality was checked. Purity and quantity of RNA was measured with Nanodrop ND-1000 Spectrophotometer (Nanodrop Technologies, Montchanin, DE) and integrity was tested with agarose gel electrophoresis. Sample was then fragmented and hybridized to Affymetrix test chip to check the function of the hybridization cocktail and to ensure adequate representation of both 5´and 3´ends of the RNA. After testing, samples (15 µg) were hybridized to expression chips. After hybridization, chips were washed and stained in Affymetrix Fluidics Station 400. Arrays were stained first with R-Phycoerythrin Streptavidin (Molecular Probes, Eugene, OR), then with biotinylated anti-streptavidin antibody (Vector Laboratories, Burlingame, CA) and again with R-Phycoerythrin Streptavidin for signal enhancement. The chip was scanned with GeneArray Scanner G2500A (Agilent, Palo Alto, CA) Scaling and normalization of data: The array images were analyzed with Microarray Suite 5.0 (Affymetrix) software. All chips were scaled (global scaling) to target intensity of 50 to minimize differences between chips caused by physical differences in chips, hybridization efficiencies and manual laboratory work. The data was subjected to robust normalization that reduces the errors, which are caused by binding capacity and linearity differences between probe sets. Keywords: time-course

Project description:To study effect of niacin bound chromium in changing genetic profile of subcutaneous fat from diabetic mice Experiment Overall Design: Two groups (n=4 each group) of mice were supplemented (oral gavage) with: i) niacin bound chromium (10 mg/kg body wt) in water for 10 wks (5d/wk) or ii) matching volume of water. After 10 wks of supplementation the subcutaneous fat was harvested and gene expression profile was studied using Affymetrix mouse genome 430 v 2.0 chips.

Project description:Two Chinese cabbage (Brassica rapa ssp. pekinensis) inbred lines, Chiifu (smaple A) and Kenshin (Smaple B), were grown for approximately 4 weeks in a growth chamber at 22degreesC under a 16 h light/8 h dark photoperiod with a photon flux density of 140 umol m-2 s-1. For microarray analysis, plants were exposed to a temperature of -4degreesC for 4 h, and shoots were sampled. Total RNA was isolated from the samples using an Easy-BLUETM Total RNA Extraction Kit (Invitrogen, NY, U.S.A.) and was then purified using an RNeasy MinEluteTM Cleanup Kit (Qiagen, Germany). Mircroarray experiments were carried out using Brassica 24K Oligo Microarray. RNA were prepared from each plant sample and 10 ug of total RNA were used for cDNA synthesis by using Superscript Double-Stranded cDNA Synthesis Kit (Invitrogen, NY, U.S.A.). Following cDNA synthesis, remaining RNA was removed by the addition of RNaseA and the cDNA was precipitated following phenol/chloroform extraction. The cDNA pellet was rehydrated and used for Cy3-labelling. For the synthesis of Cy3-labeled target DNA fragments, 1 ug of double strand cDNA was mixed with 40 ul (1 OD) of Cy3-9 mer primers (Sigma-Aldrich) and the total volume was adjusted to 80 ul with deionized water. After heating at 98degreesC for 10 min, 10 uL of dNTP mix (10 mM each) and 2 ul of Klenow fragment (NEB; 50 units/ul) were added and the reaction was incubated at 37degreesC for 2 h. Finally, the reaction was stopped by the addition of 10 ul of 0.5 M EDTA. Labeled DNA fragments were precipitated with isopropanol and rehydrated with water. The concentration of each sample was determined using spectrophotometer. For hybridization, 13 ug of the labeled DNA fragment was mixed with hybridization buffer (NimbleGen) and then hybridized with the microarray using a MAUI hybridization chamber (Biomicro) at 42degreesC for 16 h. Following hybridization, the microarray was washed with wash solution I, II, and III (NimbleGen), and then dried in a dark desiccator. The microarray slide was scanned using GenePix scanner 4000B (Axon) and the spot intensities were analyzed using a NimbleScan (NimbleGen). The normal distribution of Cy3 intensities was tested by qqline. The data was normalized and processed with cubic spline normalization using quantiles to adjust signal variations between chips and with Rubust Multi-Chip Analysis (RMA) using a median polish algorithm implemented in NimbleScan software (NimbleGen). Two biological replicates were carried out.

Project description:We used complementary DNA microarray to analyze the gene expression profiles in different proglottids of Moniezia expansa. A total of 4056 sequences including full length and partial complementary DNAs representing novel, known, and control genes were analyzed. We utilized cDNA array for detection of gene expression profiles of different proglottids of M.expansa. The present study provides some interesting data to better understanding the mechanisms of procreation and may suggest some potential target molecules for a more effective treatment on verminosis. 1.Construction of microarray By clustering the 2,642 sequences from the cDNA library, 1,078 unigenes of M.expansa, including full-length and partial cDNAs representing novel or known genes, were obtained for array construction. The negative control spots of non-tapeworm origin in the chip were the rice genes (48 spots). In addition, the array included 9 known genes(54 spots) as positive control genes that were provided by our library and 24 empty spots. Unigenes and all control genes were cloned into plasmid vector. The DZH (TC) chips were constructed by United Gene Holdings Limited of China (Shanghai, China) according to the method described by Li et al. The cDNA inserts were amplified by use of the polymerase chain reaction (PCR) using universal primers to plasmid vector sequences and were then purified. All PCR products were examined by agarose gel electrophoresis to ensure the quality and the identity of the amplified clones as expected. Then the amplified PCR products were dissolved in a buffer containing 3×SSC solution. The solution with amplified PCR products were spotted onto glass slides (model DZH-TC) using a Cartesian PixSys 7500 motion control robot (Cartesian Technologies, Irvine, CA., USA) fitted with ChipMaker Micro-Spotting Technology (TeleChem International, Sunnyvale, CA., USA). The glass slides were then hydrated for 2 h in 70% humidity, dried for 0.5 h at room temperature, and UV crosslinked (65 mj/cm). They were further processed at room temperature by soaking in 0.2% sodium dodecyl sulfate (SDS) for 10 min, distilled H2O for 10 min, and 0.2% sodium borohydride (NaBH4) for 10 min. The slides were dried again and ready for use. 2.RNA preparation and probe labeling Total RNAs were isolated from 6 M.expansas with scolex-neck proglottids, immature proglottids, mature proglottids and gravid proglottids. Tissue samples were ground into a fine powder in a 10 cm ceramic mortar (RNase-free) and were then homogenized in TRIzol (Biostar, Shanghai, China). After centrifugation, the supernatant was separated from the organic phase and was extracted in an equal volume of chloroform. The aqueous phase was then precipitated by an equal volume of isopropanol at 4°C, centrifuged to pellet the RNA and dissolved in Milli-Q H2O. The fluorescent cDNA probes were prepared through reverse transcription with Cy3- or Cy5-deoxy UTP (Amersham Pharmacia Biotech, Piscataway, NJ, USA) as follows: 5 μg of oligo(dT18) was added and annealed to 3μg of mRNA by heating the mixture to 70˚C for 10 min, and then chilling it on ice. The final reaction buffer mixture contained dNTPs (200 μM dATP, dCTP and dGTP; 60 μM dTTP; and 60 μM Cy3- or Cy5-dUTP), 2 μl of Superscript II reverse transcriptase (Invitrogen, Carlsbad, CA, USA) and 1×reaction buffer 10μl. The reactions were carried out at 42 ºC for 2 h. RNA was hydrolyzed by adding 4 μl of 2.5 M NaOH, incubating the mixture at 65 ºC for 10 min and then neutralizing it with 4 μl of 2.5 M HCl. The RNA samples from the scolex-neck proglottids were labeled with Cy3-dUTP and those from immature proglottids, mature proglottids and gravid proglottids, respectively, were labeled with Cy5-dUTP. The two color probes were then mixed and diluted to 500 μl with TE, and concentrated using a Microcon YM-30 filter (Millipore, Bedford, MA, USA) to 10 μl. The sample was then vacuum dried. 3.Hybridization The probe was dissolved in 20 ml of hybridization solution (5×SSC (0.75M NaCl and 0.075M sodium citrate), 0.4% SDS, 50% formamide). Microarrays were pre-hybridized with a hybridization solution containing 0.5 mg/ml of denatured salmon sperm DNA at 42°C for 6 h. Fluorescent probe mixtures were denatured at 95°C for 5 min and then applied onto the pre-hybridized chip under a cover glass. Chips were hybridized at 42°C for 15-17 h. Next, the hybridized chips were each washed at 60°C for 10 min in solutions of 2×SSC and 0.2% SDS, 0.1×SSC and 0.2% SDS, 0.1×SSC and then dried at room temperature. 4.Detection and analysis The chips were scanned with a ScanArray 4000 (GSI Lumonics, Bellerica, MA, USA) at two wavelengths, 635 and 532 nm, to detect emission from both Cy5 and Cy3, respectively. The acquired images were analyzed using GenePix Pro 3.0 software. The intensities of each spot at the two wavelengths represent the quantity of Cy3-dUTP and Cy5-dUTP. Ratios of Cy5 to Cy3 were computed using the GenePix Pro 3.0 median of ratio method. Overall intensities were normalized using the corresponding GenePix default normalization factor. All spots flagged “Bad” or “Not Found” by GenePix software were removed from the final data. Only genes with raw intensity values for both Cy3 and Cy5 of >200 were chosen for differential analysis. Genes were identified as differentially expressed if the ratio was >2 or <0.5, or the absolute value of base 2 logarithm of the ratio was >1 or < -1.