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Excessive reactive oxygen species induce transcription-dependent replication stress
by
Stoy, Henriette
, Boleslavska, Barbora
, Menon, Shruti
, Andrs, Martin
, Surendranath, Kalpana
, Rao, Satyajeet
, Janscak, Pavel
, Oravetzova, Anna
, Dobrovolna, Jana
, Chappidi, Nagaraja
, Lopes, Massimo
, Nascakova, Zuzana
, Kanagaraj, Radhakrishnan
in
13/1
/ 13/106
/ 13/109
/ 13/51
/ 14/28
/ 14/35
/ 14/63
/ 38/22
/ 38/77
/ 631/337/1427
/ 631/337/151/2356
/ Aphidicolin
/ Cancer
/ Chromosome rearrangements
/ Deoxyribonucleic acid
/ Depletion
/ DNA
/ DNA damage
/ DNA polymerase
/ DNA Replication
/ DNA-Binding Proteins - metabolism
/ DNA-directed DNA polymerase
/ Humanities and Social Sciences
/ Humans
/ Hybrids
/ Hydroxyurea
/ Hydroxyurea - pharmacology
/ multidisciplinary
/ Oxidative stress
/ Oxygen
/ R-loops
/ Reactive Oxygen Species
/ Reductases
/ Replication
/ S Phase - genetics
/ Science
/ Science (multidisciplinary)
/ Stalling
/ Transcription
2023
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Excessive reactive oxygen species induce transcription-dependent replication stress
by
Stoy, Henriette
, Boleslavska, Barbora
, Menon, Shruti
, Andrs, Martin
, Surendranath, Kalpana
, Rao, Satyajeet
, Janscak, Pavel
, Oravetzova, Anna
, Dobrovolna, Jana
, Chappidi, Nagaraja
, Lopes, Massimo
, Nascakova, Zuzana
, Kanagaraj, Radhakrishnan
in
13/1
/ 13/106
/ 13/109
/ 13/51
/ 14/28
/ 14/35
/ 14/63
/ 38/22
/ 38/77
/ 631/337/1427
/ 631/337/151/2356
/ Aphidicolin
/ Cancer
/ Chromosome rearrangements
/ Deoxyribonucleic acid
/ Depletion
/ DNA
/ DNA damage
/ DNA polymerase
/ DNA Replication
/ DNA-Binding Proteins - metabolism
/ DNA-directed DNA polymerase
/ Humanities and Social Sciences
/ Humans
/ Hybrids
/ Hydroxyurea
/ Hydroxyurea - pharmacology
/ multidisciplinary
/ Oxidative stress
/ Oxygen
/ R-loops
/ Reactive Oxygen Species
/ Reductases
/ Replication
/ S Phase - genetics
/ Science
/ Science (multidisciplinary)
/ Stalling
/ Transcription
2023
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Excessive reactive oxygen species induce transcription-dependent replication stress
by
Stoy, Henriette
, Boleslavska, Barbora
, Menon, Shruti
, Andrs, Martin
, Surendranath, Kalpana
, Rao, Satyajeet
, Janscak, Pavel
, Oravetzova, Anna
, Dobrovolna, Jana
, Chappidi, Nagaraja
, Lopes, Massimo
, Nascakova, Zuzana
, Kanagaraj, Radhakrishnan
in
13/1
/ 13/106
/ 13/109
/ 13/51
/ 14/28
/ 14/35
/ 14/63
/ 38/22
/ 38/77
/ 631/337/1427
/ 631/337/151/2356
/ Aphidicolin
/ Cancer
/ Chromosome rearrangements
/ Deoxyribonucleic acid
/ Depletion
/ DNA
/ DNA damage
/ DNA polymerase
/ DNA Replication
/ DNA-Binding Proteins - metabolism
/ DNA-directed DNA polymerase
/ Humanities and Social Sciences
/ Humans
/ Hybrids
/ Hydroxyurea
/ Hydroxyurea - pharmacology
/ multidisciplinary
/ Oxidative stress
/ Oxygen
/ R-loops
/ Reactive Oxygen Species
/ Reductases
/ Replication
/ S Phase - genetics
/ Science
/ Science (multidisciplinary)
/ Stalling
/ Transcription
2023
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Excessive reactive oxygen species induce transcription-dependent replication stress
Journal Article
Excessive reactive oxygen species induce transcription-dependent replication stress
2023
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Overview
Elevated levels of reactive oxygen species (ROS) reduce replication fork velocity by causing dissociation of the TIMELESS-TIPIN complex from the replisome. Here, we show that ROS generated by exposure of human cells to the ribonucleotide reductase inhibitor hydroxyurea (HU) promote replication fork reversal in a manner dependent on active transcription and formation of co-transcriptional RNA:DNA hybrids (R-loops). The frequency of R-loop-dependent fork stalling events is also increased after TIMELESS depletion or a partial inhibition of replicative DNA polymerases by aphidicolin, suggesting that this phenomenon is due to a global replication slowdown. In contrast, replication arrest caused by HU-induced depletion of deoxynucleotides does not induce fork reversal but, if allowed to persist, leads to extensive R-loop-independent DNA breakage during S-phase. Our work reveals a link between oxidative stress and transcription-replication interference that causes genomic alterations recurrently found in human cancer.
Excessive oxidative stress is widely perceived as a key factor in cancer progression. Here, the authors reveal that oxidative stress induces transcription-dependent replication fork stalling that appears to be a major source of chromosomal rearrangements found in human cancers.
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