Happy mapping: linkage mapping using a physical analogue of meiosis

Abstract

We have devised a simple method for ordering markers on a chromosome and determining the distances between them. It uses Ziaploid equivalents of DNA and thepolymerase chain reaction, hence 'happy mapping'. Our approach Is analogous to classical linkage mapping; we replace Its two essential elements, chromosome breakage and segregation, by In vitro analogues. DNA from any source Is broken randomly by 7-lrradlatlon or shearing. Markers are then segregated by diluting the resulting fragments to give aliquots containing ~1 haploid genome equivalent. Linked markers tend to be found together in an aliquot. After detecting markers using the polymerase chain reaction, map order and distance can be deduced from the frequency with which markers 'co-segregate*. We have mapped 7 markers scattered over 1.24 Mbp using only 140 aliquots. Using the 'whole-genome' chain reaction, we also show how the approach might be used to map thousands of markers scattered throughout the genome. The method Is powerful because the frequency of chromosome breakage can be optimized to suit the resolution required.