Arrayed primer extension microarray for the analysis of genes associated with congenital stationary night blindness.

Arrayed primer extension (APEX) is a microarray-based genotyping method that enables to simultaneously analyze hundreds of known mutations in the genome. APEX-based microarrays are successfully used for molecular diagnostics of various genetic disorders. Congenital stationary night blindness (CSNB) is a rare retinal disease caused by mutations in genes involved in phototransduction cascade and signaling from photoreceptors to adjacent neurons in the retina. As CSNB is clinically and genetically heterogeneous, the identification of the underlying cause of the disease can be challenging. In this chapter, we describe an APEX-based method for the analysis of genes associated with CSNB.

Molecular diagnosis of Down syndrome using quantitative APEX-2 microarrays.

OBJECTIVE: To develop a new rapid and high-throughput microarray-based prenatal diagnostic test for the detection of trisomy 21 (T21). METHODS: The T21 arrayed primer extension-2 (APEX-2) assay discriminates between trisomy and euploid DNA samples by comparing the signal intensities of allelic fractions of heterozygous single nucleotide polymorphisms (SNPs) after APEX reaction. After preliminary validation using DNA samples from Down syndrome patients, we analyzed DNA samples from cultured and uncultured amniocytes and chorionic villus for 90 SNPs with high heterozygosity from the 21(q21.1q22.2) region. Differences in allelic ratios of heterozygous SNPs in normal and T21 individuals were verified by t-test. RESULTS: Analysis of the T21 APEX-2 assay results revealed that 90 SNPs were sufficient for reliable discrimination between T21 and euploid DNA samples (P≤0.05 for one or both strands). Using 134 clinical samples from cultured or uncultured fetal cells, both the sensitivity and the specificity of the assay were 100%. CONCLUSION: Our study provides a proof of principle demonstration of the use of the modified APEX-2 assay as a new, fast and reliable method for prenatal diagnosis of fetal T21.