Conditional knockout of RAD51-related genes in Leishmania major reveals a critical role for homologous recombination during genome replication.

Conditional knockout of RAD51-related genes in Leishmania major reveals a critical role for homologous recombination during genome replication.

Homologous recombination (HR) has an intimate relationship with genome replication, both during repair of DNA lesions that might prevent DNA synthesis and in tackling stalls to the replication fork. Recent studies led us to ask if HR might have a more central role in replicating the genome of Leishm...

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Main Authors: Jeziel D Damasceno, João Reis-Cunha, Kathryn Crouch, Dario Beraldi, Craig Lapsley, Luiz R O Tosi, Daniella Bartholomeu, Richard McCulloch
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2020-07-01
Series:PLoS Genetics
Online Access:https://doi.org/10.1371/journal.pgen.1008828
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spelling doaj-5b83c8d4ddcf4ebf9a2bea64dcca38892021-04-21T14:36:18ZengPublic Library of Science (PLoS)PLoS Genetics1553-73901553-74042020-07-01167e100882810.1371/journal.pgen.1008828Conditional knockout of RAD51-related genes in Leishmania major reveals a critical role for homologous recombination during genome replication.Jeziel D DamascenoJoão Reis-CunhaKathryn CrouchDario BeraldiCraig LapsleyLuiz R O TosiDaniella BartholomeuRichard McCullochHomologous recombination (HR) has an intimate relationship with genome replication, both during repair of DNA lesions that might prevent DNA synthesis and in tackling stalls to the replication fork. Recent studies led us to ask if HR might have a more central role in replicating the genome of Leishmania, a eukaryotic parasite. Conflicting evidence has emerged regarding whether or not HR genes are essential, and genome-wide mapping has provided evidence for an unorthodox organisation of DNA replication initiation sites, termed origins. To answer this question, we have employed a combined CRISPR/Cas9 and DiCre approach to rapidly generate and assess the effect of conditional ablation of RAD51 and three RAD51-related proteins in Leishmania major. Using this approach, we demonstrate that loss of any of these HR factors is not immediately lethal but in each case growth slows with time and leads to DNA damage and accumulation of cells with aberrant DNA content. Despite these similarities, we show that only loss of RAD51 or RAD51-3 impairs DNA synthesis and causes elevated levels of genome-wide mutation. Furthermore, we show that these two HR factors act in distinct ways, since ablation of RAD51, but not RAD51-3, has a profound effect on DNA replication, causing loss of initiation at the major origins and increased DNA synthesis at subtelomeres. Our work clarifies questions regarding the importance of HR to survival of Leishmania and reveals an unanticipated, central role for RAD51 in the programme of genome replication in a microbial eukaryote.https://doi.org/10.1371/journal.pgen.1008828
collection DOAJ
language English
format Article
sources DOAJ
author Jeziel D Damasceno
João Reis-Cunha
Kathryn Crouch
Dario Beraldi
Craig Lapsley
Luiz R O Tosi
Daniella Bartholomeu
Richard McCulloch
spellingShingle Jeziel D Damasceno
João Reis-Cunha
Kathryn Crouch
Dario Beraldi
Craig Lapsley
Luiz R O Tosi
Daniella Bartholomeu
Richard McCulloch
Conditional knockout of RAD51-related genes in Leishmania major reveals a critical role for homologous recombination during genome replication.
PLoS Genetics
author_facet Jeziel D Damasceno
João Reis-Cunha
Kathryn Crouch
Dario Beraldi
Craig Lapsley
Luiz R O Tosi
Daniella Bartholomeu
Richard McCulloch
author_sort Jeziel D Damasceno
title Conditional knockout of RAD51-related genes in Leishmania major reveals a critical role for homologous recombination during genome replication.
title_short Conditional knockout of RAD51-related genes in Leishmania major reveals a critical role for homologous recombination during genome replication.
title_full Conditional knockout of RAD51-related genes in Leishmania major reveals a critical role for homologous recombination during genome replication.
title_fullStr Conditional knockout of RAD51-related genes in Leishmania major reveals a critical role for homologous recombination during genome replication.
title_full_unstemmed Conditional knockout of RAD51-related genes in Leishmania major reveals a critical role for homologous recombination during genome replication.
title_sort conditional knockout of rad51-related genes in leishmania major reveals a critical role for homologous recombination during genome replication.
publisher Public Library of Science (PLoS)
series PLoS Genetics
issn 1553-7390
1553-7404
publishDate 2020-07-01
description Homologous recombination (HR) has an intimate relationship with genome replication, both during repair of DNA lesions that might prevent DNA synthesis and in tackling stalls to the replication fork. Recent studies led us to ask if HR might have a more central role in replicating the genome of Leishmania, a eukaryotic parasite. Conflicting evidence has emerged regarding whether or not HR genes are essential, and genome-wide mapping has provided evidence for an unorthodox organisation of DNA replication initiation sites, termed origins. To answer this question, we have employed a combined CRISPR/Cas9 and DiCre approach to rapidly generate and assess the effect of conditional ablation of RAD51 and three RAD51-related proteins in Leishmania major. Using this approach, we demonstrate that loss of any of these HR factors is not immediately lethal but in each case growth slows with time and leads to DNA damage and accumulation of cells with aberrant DNA content. Despite these similarities, we show that only loss of RAD51 or RAD51-3 impairs DNA synthesis and causes elevated levels of genome-wide mutation. Furthermore, we show that these two HR factors act in distinct ways, since ablation of RAD51, but not RAD51-3, has a profound effect on DNA replication, causing loss of initiation at the major origins and increased DNA synthesis at subtelomeres. Our work clarifies questions regarding the importance of HR to survival of Leishmania and reveals an unanticipated, central role for RAD51 in the programme of genome replication in a microbial eukaryote.
url https://doi.org/10.1371/journal.pgen.1008828
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