@inbook{eb1575ef827a4bf4b9d2b913f3aa31ad,
title = "Measuring the contributions of helicases to break-induced replication",
abstract = "Break-Induced Replication (BIR) is a homologous recombination (HR) pathway that differentiates itself from all other HR pathways by involving extensive DNA synthesis of up to hundreds of kilobases. This DNA synthesis occurs in G2/M arrested cells by a mechanism distinct from regular DNA replication. BIR initiates by strand invasion of a single end of a DNA double-strand break (DSB) followed by extensive D-loop migration. The main replicative helicase Mcm2-7 is dispensable for BIR, however, Pif1 helicase and its PCNA interaction domain are required. Pif1 helicase was shown to be important for extensive repair-specific DNA synthesis at DSB in budding and fission yeasts, flies, and human cells, implicating conservation of the mechanism. Additionally, Mph1 helicase negatively regulates BIR by unwinding migrating D-loops, and Srs2 promotes BIR by eliminating the toxic joint molecules. Here, we describe the methods that address the following questions in studying BIR: (i) how to distinguish enzymes needed specifically for BIR from enzymes needed for other HR mechanisms that require short patch DNA synthesis, (ii) what are the phenotypes expected for mutants deficient in extensive synthesis during BIR, (iii) how to follow extensive DNA synthesis during BIR? Methods are described using yeast model organism and wild-type cells are compared side-by-side with Pif1 deficient cells.",
keywords = "Break-induced replication, DNA helicase, DNA repair, DNA synthesis, Double-strand break, Droplet digital PCR, Gross chromosomal rearrangement, Homologous recombination, Pif1, Pulsed-field gel electrophoresis (PFGE)",
author = "Zhenxin Yan and Liping Liu and Nhung Pham and Thakre, {Pilendra K.} and Anna Malkova and Grzegorz Ira",
note = "Publisher Copyright: {\textcopyright} 2022 Elsevier Inc.",
year = "2022",
month = jan,
doi = "10.1016/bs.mie.2022.02.025",
language = "English (US)",
isbn = "9780323914765",
series = "Methods in Enzymology",
publisher = "Academic Press Inc.",
pages = "339--368",
editor = "Trakselis, {Michael A.}",
booktitle = "Helicase Enzymes Part A",
address = "United States",
}