Methods and Protocols (Aug 2019)

An Assay to Study Intra-Chromosomal Deletions in Yeast

  • Bailey E. Lucas,
  • Matthew T. McPherson,
  • Tila M. Hawk,
  • Lexia N. Wilson,
  • Jacob M. Kroh,
  • Kyle G. Hickman,
  • Sean R. Fitzgerald,
  • W. Miguel Disbennett,
  • P. Daniel Rollins,
  • Hannah M. Hylton,
  • Mohammed A. Baseer,
  • Paige N. Montgomery,
  • Jian-Qiu Wu,
  • Ruben C. Petreaca

DOI
https://doi.org/10.3390/mps2030074
Journal volume & issue
Vol. 2, no. 3
p. 74

Abstract

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An accurate DNA damage response pathway is critical for the repair of DNA double-strand breaks. Repair may occur by homologous recombination, of which many different sub-pathways have been identified. Some recombination pathways are conservative, meaning that the chromosome sequences are preserved, and others are non-conservative, leading to some alteration of the DNA sequence. We describe an in vivo genetic assay to study non-conservative intra-chromosomal deletions at regions of non-tandem direct repeats in Schizosaccharomyces pombe. This assay can be used to study both spontaneous breaks arising during DNA replication and induced double-strand breaks created with the S. cerevisiae homothallic endonuclease (HO). The preliminary genetic validation of this assay shows that spontaneous breaks require rad52+ but not rad51+, while induced breaks require both genes, in agreement with previous studies. This assay will be useful in the field of DNA damage repair for studying mechanisms of intra-chromosomal deletions.

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