Abstract

Genes which confer a disease when mutated, or for which population variability contributes to a quantitative trait such as longevity or disease susceptibility, can be localized in the genetic map by use of an appropriately dense set of polymorphic DNA markers. Here we describe an anchor PCR method for high-throughput genotyping, which can be used to amplify the DNA segments flanking an interspersed repetitive sequence such as a transposon, and to limit the number of product bands per reaction to facilitate marker resolution. We used this method to amplify and display DNA fragments flanking the Tc1 transposable elements from different strains of the nematode Caenorhabditis elegans, varying widely in insert number, and to analyze marker segregation in recombinant inbred lines generated from an interstrain cross. Since essentially all eukaryotic genomes contain abundant interspersed repeat families, many of which are dimorphic (for presence or absence of specific elements) among populations, this method can be used for rapid genotyping and fine-scale chromosomal mapping in many species, including those for which extensive mapping and sequencing data do not yet exist.

Copyright 2000 Academic Press.