Abstract

We describe a rapid and sensitive method for the detection of nucleotide sequence variation that can be used for large-scale screening of population markers. Denaturing gradient gel electrophoresis (DGGE) detects sequence variants of amplified fragments by the differences in their melting behavior. DGGE detects most single-base substitutions when carried out on products amplified with a primer to which a GC clamp has been added. Although DGGE has been primarily used for the detection of limited numbers of single-base mutations in disease studies, it offers great potential for use in population analysis of genetic markers with greater levels of sequence variation. The methodology described was developed to identify the number and distribution of MHC class I alpha 1 alleles among chinook salmon (Oncorhynchus tshawytscha) populations. DGGE detects 28 of 31 identified alpha 1 sequences, which differ by between 1 and 16 nucleotides and a two-codon indel. By creating a network of control alleles, 22-23 of the MHC alleles can be resolved rapidly and accurately by a single gel run condition, and 27 alleles can be resolved by two gel run conditions. This techniques has been used in surveys scoring alleles from two MHC markers (class I alpha 1 and alpha 2) in 20,000 individuals of chinook and coho (O. kisutch) salmon. A single person in our laboratory now analyzes 160 salmon from one MHC locus per day with DGGE.

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