Recombination Events in Neurospora crassa May Cross a Translocation Breakpoint by a Template-Switching Mechanism

Recombination Events in Neurospora crassa May Cross a Translocation Breakpoint by a Template-Switching Mechanism

P. Jane Yeadon^a, J. Paul Rasmussen^a, and David E. A. Catcheside^a
^a School of Biological Sciences, Flinders University, Adelaide, South Australia 5001, Australia

Corresponding author: David E. A. Catcheside, School of Biological Sciences, Flinders University, P.O. Box 2100, Adelaide, South Australia 5001, Australia., david.catcheside{at}flinders.edu.au (E-mail)

Communicating editor: R. H. DAVIS

To assist investigation of the effect of sequence heterologyon recombination in Neurospora crassa, we inserted the Herpessimplex thymidine kinase gene (TK) as an unselected marker onlinkage group I, giving a gene order of Cen–his-3–TK–cog–lpl.We show here that in crosses heterozygous for TK, conversionof a his-3 allele on one homolog is accompanied by transferof the heterologous sequence between cog and his-3 from theother homolog, indicating that recombination is initiated centromere-distalof TK. We have identified a 10-nucleotide motif in the cog regionthat, although unlikely to be sufficient for hotspot activity,is required for high-frequency recombination and, because conversionof silent sequence markers declines on either side, may be therecombination initiation site. Additionally, we have mappedconversion tracts in His⁺ progeny of a translocation heterozygote,in which the translocation breakpoint separates cog from the5' end of his-3. We present molecular evidence of recombinationon both sides of the breakpoint. Because recombination is initiatedclose to cog and the event must therefore cross the translocationbreakpoint, we suggest that template switching occurs in somerecombination events, with repair synthesis alternating betweenuse of the homolog and the initiating chromatid as template.

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