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Expression profiling Journal of Allergy and Clinical Immunology

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Presentation on theme: "Expression profiling Journal of Allergy and Clinical Immunology"— Presentation transcript:

1 Expression profiling Journal of Allergy and Clinical Immunology
Santa Jeremy Ono, PhD, Takao Nakamura, MD, PhD, Masaharu Ohbayashi, PhD, Maria Dawson, MPhil, Yoshifumi Ikeda, MD, Alex K. Nugent, BSc, Masako Toda, PhD, Gilbert Jay, PhD, DSc  Journal of Allergy and Clinical Immunology  Volume 112, Issue 6, Pages (December 2003) DOI: /j.jaci

2 FIG 1 Typical sequence of events required for a DNA microarray experiment. 1, RNA is first isolated from the biologic samples. It is important to verify that the RNA is of good quality before proceeding further with the analysis. 2, RNAs are then reverse transcribed to generate labeled cDNA. This usually involves the incorporation of nucleotides with fluorescent dyes resonant at distinct frequencies. 3, The pools of labeled cDNA probes (labeled once again with different dyes) are then hybridized to either cDNA or oligonucleotides that have been spotted in an ordered, high-density array onto glass, metal, or nylon surfaces or chips. Once hybridization has occurred, the gene chips are washed to remove unbound probe. 4, The array is then imaged with a laser scanning fluorimeter. 5, A typical microarray image is shown. Each spot corresponds to a specific gene. The nucleic acid printed on the chip can be either cDNA generated by means of PCR or chemically synthesized oligonucleotides. Genes expressed in one sample are detected as green fluorescence, and genes expressed in the other sample are detected as red fluorescence. Genes expressed in both appear in different shades of yellow-orange. 6, The signals are quantified and downloaded to bioinformatics programs. These permit critical analyses of reproducibility and ranking of genes that are differentially expressed (by degree of differential expression). Journal of Allergy and Clinical Immunology  , DOI: ( /j.jaci )

3 FIG 2 Isolation of subsets of the proteome through Chiphergen protein chip arrays. The technology makes use of chip-based chromatography coupled to linear time-of-flight spectroscopy. The protein chip is aluminum based with a derivatized surface. Different chemical surfaces (eg, hydrophobic and hydrophilic) are used to purify subsets of the proteome on the basis of affinity chromatography. After sample application, nonspecific interactions are broken by means of washing, the chip is dried, and energy-absorbing molecules are added to permit desorption and ionization of specifically bound proteins. Journal of Allergy and Clinical Immunology  , DOI: ( /j.jaci )

4 FIG 3 Identification of specifically bound proteins and analysis of expression levels. Proteins from different biologic samples are effectively eluted from the protein chips by means of surface-enhanced laser desorption/ionization (SELDI). Ionized proteins are detected, and their masses are determined by means of time-of-flight mass spectrometry. The data are then presented either as map or trace views or in the form of a gel. Cluster analysis can identify proteins that are upregulated or downregulated in particular samples. The identities of differentially expressed proteins can be determined by means of peptide sequencing. This can either involve chip tryptic digestion or tryptic digestion of SDS gel pieces, followed by on-chip peptide mapping. Journal of Allergy and Clinical Immunology  , DOI: ( /j.jaci )

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