De novo synthesis of telomere sequences at the healed breakpoints of wheat deletion chromosomes.

When chromosomes are broken, the breakpoints become highly unstable and acquire the ability to fuse with other broken ends. The breakpoints are, however, eventually stabilized, and, therefore, the broken chromosomes are transmitted to the daughter cells without further morphological change. This phenomenon, known as "healing of breakpoints", involves the addition of repetitive telomere sequences at the breakpoints by telomerase, the enzyme that normally synthesizes the telomere sequence at normal chromosome terminals. In many higher organisms, however, this property has not been well investigated. In this study, we examined the telomere sequences in wheat deletion lines with breakpoints on chromosome 1B. Lines that had breakpoints around the nucleolar organizer region were first selected on the basis of cytological observations, and the precise breakpoints were determined by mapping a fragment of rDNA and RFLP markers. In three lines - in addition to one previously reported - the DNA fragments encompassing the breakpoints were amplified by PCR using primers located in the rDNA and in telomere sequences. The DNA sequences provide insight into the properties of the telomerase activity at the breakpoints. The telomere sequences initiated from 2- to 4-nucleotide motifs in the original ribosomal DNA sequence which are also found in the repeat unit characteristic of telomere sequences. No specific sequences or structures were observed at or around the breakpoints. At all of the four breakpoints investigated, the newly synthesized telomere sequences contained considerable numbers of atypical telomere sequence units, particularly TTAGGG, which is the common unit of mammalian telomere sequences. Based on these results, we discuss the ability of plant telomerase to initiate the de novo synthesis of telomere sequences at internal breakpoints.