A number of techniques have been developed as primary screens to scan for DNA sequence variants, including denaturing gradient gel electrophoresis, denaturing high-performance liquid chromatography, single-strand conformation polymorphism and heteroduplex analysis. Variant alleles detected by these assays are subsequently characterised by DNA sequencing. Sequencing itself is rarely used as a primary screen because of labour intensity, cost, and, upon automation, occasional inaccuracy in identifying heterozygous sites. We have previously developed an approach based on coupling long-distance PCR (LD-PCR) to long-read direct sequencing to allow the detection of mutations in the approximately 1.1 kb exon 3 of MECP2. Our use of dye-labelled primers generated high-quality bi-directional sequence runs > 650 bp and allowed easy discrimination of heterozygous bases. We now describe the application of this approach to the detection of mutations in a considerably larger 6.35 kb LD-PCR fragment spanning 10 exons (exons 32-41) of the structurally complex, but genomically compact, TSC2 gene. In a blind analysis, 15/15 previously characterised mutations were successfully identified using seven overlapping bi-directional sequencing reactions. Our approach of long-read sequencing of long-distance PCR products may allow rapid sequencing of multiple exons of compact genes and may be appropriate as a highly sensitive primary screen for mutations.