DNA microarrays: Difference between revisions

DNA&nbsp;microarrays are used in functional genomics to determine the differences in gene expression levels&nbsp;between a sample and control cell. The sample cell can be from a different tissue, at a different stage of development, at a different stage of the cell cycle, or be under different conditions (for example, exposure to a toxin). The DNA&nbsp;microarray consists of a flat surface to which oligonucleotides are bound. These oligonucleotides are complementary to specific cDNA sequences. The mRNA molecules within the sample and the control are converted into labelled cDNA&nbsp;molecules with the use of reverse transcriptase and fluorescently-labelled nucleotides. For example, the cDNA&nbsp;of the sample can have a red fluorescence label whereas the cDNA&nbsp;of the control can have a green fluorescence label. The DNA microarray is exposed to the cDNA&nbsp;mixture and unbound cDNA&nbsp;is washed away. The resultant DNA&nbsp;microarray consists of spots of colour that is imaged using a confocal fluorescence scanner. The colour of the spot is indicative of the differences in gene expression between the sample and control. Following the colour scheme above, a red spot indicates that the sample is overexpressing that particular gene compared to the control; a green spot indicates that the sample is underexpressing that particular gene compared to the control; and a yellow spot indicates that there is equal gene expression in the sample and control. However, the range of colours is not as discrete as suggested here but is more of a spectrum covering intermediate differences in gene expression. DNA&nbsp;microarrays are not so useful in determining gene function but can ascertain which genes may have the same regulatory mechanisms. <ref name="null">Daniel L. Hartl, Elizabeth W.Jones (2009) Genetics Analysis of Genes and Genomes 7th Edition USA, Jones and Bartlett Publishers.</ref>