Project description:Mergen experiments for cross-platform study including site 2 data

Project description:Affymetrix experiments for cross-platform study including site 2 data

Project description:Agilent experiments for cross-platform study

Project description:ABI experiments for cross-platform study

Project description:MWG BioTech experiments for cross-platform study

Project description:Operon/Compugen experiments for cross-platform study

Project description:cDNA (Cepko BMAP) experiments for cross-platform study

Project description:Massachusetts General Hospital (MGH) long oligo experiments for cross-platform study

Project description:Oral squamous cell carcinoma (OSCC) is a solid neoplasm exhibiting aggressive tumor phenotypes with unpredictable biological behavior and usually a very unfavorable prognosis. The comprehension of the molecular basis of the variability within this cancer disease should lead to the development of satisfactory targeted therapies as well as to improvements in diagnosis specificity and sensitivity. Due to the lack of definite molecular concepts in OSCC, this study aimed to detail molecular characteristics possibly reflecting differences in tumor progression mechanisms through genome-wide gene expression profiles. Keywords: disease-state analysis Nine tumor samples differing in their TNM classification and their respective surgical margins were used in this study. They were obtained from individual patients during tongue and floor of the mouth tumor resection surgery. Microarray experiments were carried out using the microarray platform CodeLink (GE Healthcare). This platform utilizes bioarrays consisting of 30-base, single pre-validated oligonucleotide probe per gene target. CodeLink Whole-Genome bioarrays, containing 55,000 human transcripts, were used for all experiments. Hybridization procedures strictly followed protocols provided by the manufacturer (GE Healthcare). A total of 11 arrays were hybridized in this study. Arrays were scanned following the recommended scanning procedure and settings for use with CodeLink bioarrays (GE Healthcare) on GenePix 4000B Array Scanner/GenePix Pro 4.0 software (Axon Instruments).

Project description:Preferentially Expressed Antigen in Melanoma (PRAME) is frequently overexpressed in a wide variety of cancers and it has been proposed as prognostic marker for clinical outcome. It belongs to a class of non-mutated genes whose expression seems to be mostly restricted to tumor cells. Osteosarcoma is the most common primary malignant bone tumor in children and young adults. Despite advances in the diagnosis and management of osteosarcoma, long-term survival has not envolved substantially in the past decades, justifying efforts in finding effective therapeutic targets. In order to assess transcriptome characteristics that could contribute to further comprehend PRAME association with cancer, the technique of gene expression profiling was used to compare PRAME-positive and PRAME-negative osteosarcoma samples. Keywords: disease state analysis Six tumor samples representing distinct histological classes of osteosarcoma (telangiectatic, giant cell, anaplastic, osteoblastic and chondroblastic) were included in this study. They were obtained from individual patients ranging from 5 to 29 years old. Microarray experiments were carried out using the microarray platform CodeLink (GE Healthcare). This platform utilizes bioarrays consisting of 30-base, single pre-validated oligonucleotide probe per gene target. CodeLink UniSet Human I bioarrays, containing 10,000 human transcripts, were used for all experiments. Hybridization procedures strictly followed protocols provided by the manufacturer (GE Healthcare). A total of 12 arrays were hybridized, including 6 tumor samples (3 PRAME-positive and 3 PRAME-negative) and their respective technical replicates. Arrays were scanned following the recommended scanning procedure and settings for use with CodeLink bioarrays (GE Healthcare) on GenePix 4000B Array Scanner/GenePix Pro 4.0 software (Axon Instruments).