Telomere sequences at the novel joints of four independent amplifications in Saccharomyces cerevisiae.

Primary gene amplification, the mutation from one copy of a gene per genome to two or more genes per genome is a major mechanism of oncogene overexpression. We previously developed a system in the yeast Saccharomyces cerevisiae to phenotypically detect primary amplifications of a reporter cassette, ADH4:CUP1. We present here the sequence analysis of novel joints from four independent, spontaneous circular amplifications identified by the ADH4:CUP1 system. All four novel joints consist of C(1-3) A telomeric repeats joined to short (14- to 16-bp) CA-rich tracts between ADH4 and the telomere of chromosome VII. In three of the four amplifications, the telomeric sequence and the CA-rich tract that are joined in the amplification are normally located in inverted orientation to each other on chromosome VII. In the fourth amplification, the CA-rich tract on chromosome VII is joined to telomere sequences from another chromosome. We suggest that formation of these amplifications was initiated by recombination between these CA-rich tracts and a telomere. The resulting dicentric chromosome could start a breakage-fusion-bridge cycle that could be resolved by the formation of a circular amplification structure. Copyright 2000 Wiley-Liss, Inc.