Repair of DNA strand breaks in a minichromosome in vivo: kinetics, modeling, and effects of inhibitors
To obtain an overall picture of the repair of DNA single and double strand breaks in a defined region of chromatin in vivo, we studied their repair in a ~170 kb circular minichromosome whose length and topology are analogous to those of the closed loops in genomic chromatin. The rate of repair of si...
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| Published in | PloS one Vol. 8; no. 1; p. e52966 |
|---|---|
| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
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United States
Public Library of Science
30.01.2013
Public Library of Science (PLoS) |
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| Abstract | To obtain an overall picture of the repair of DNA single and double strand breaks in a defined region of chromatin in vivo, we studied their repair in a ~170 kb circular minichromosome whose length and topology are analogous to those of the closed loops in genomic chromatin. The rate of repair of single strand breaks in cells irradiated with γ photons was quantitated by determining the sensitivity of the minichromosome DNA to nuclease S1, and that of double strand breaks by assaying the reformation of supercoiled DNA using pulsed field electrophoresis. Reformation of supercoiled DNA, which requires that all single strand breaks have been repaired, was not slowed detectably by the inhibitors of poly(ADP-ribose) polymerase-1 NU1025 or 1,5-IQD. Repair of double strand breaks was slowed by 20-30% when homologous recombination was supressed by KU55933, caffeine, or siRNA-mediated depletion of Rad51 but was completely arrested by the inhibitors of nonhomologous end-joining wortmannin or NU7441, responses interpreted as reflecting competition between these repair pathways similar to that seen in genomic DNA. The reformation of supercoiled DNA was unaffected when topoisomerases I or II, whose participation in repair of strand breaks has been controversial, were inhibited by the catalytic inhibitors ICRF-193 or F11782. Modeling of the kinetics of repair provided rate constants and showed that repair of single strand breaks in minichromosome DNA proceeded independently of repair of double strand breaks. The simplicity of quantitating strand breaks in this minichromosome provides a usefull system for testing the efficiency of new inhibitors of their repair, and since the sequence and structural features of its DNA and its transcription pattern have been studied extensively it offers a good model for examining other aspects of DNA breakage and repair. |
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| AbstractList | To obtain an overall picture of the repair of DNA single and double strand breaks in a defined region of chromatin in vivo, we studied their repair in a ~170 kb circular minichromosome whose length and topology are analogous to those of the closed loops in genomic chromatin. The rate of repair of single strand breaks in cells irradiated with [gamma] photons was quantitated by determining the sensitivity of the minichromosome DNA to nuclease S1, and that of double strand breaks by assaying the reformation of supercoiled DNA using pulsed field electrophoresis. Reformation of supercoiled DNA, which requires that all single strand breaks have been repaired, was not slowed detectably by the inhibitors of poly(ADP-ribose) polymerase-1 NU1025 or 1,5-IQD. Repair of double strand breaks was slowed by 20-30% when homologous recombination was supressed by KU55933, caffeine, or siRNA-mediated depletion of Rad51 but was completely arrested by the inhibitors of nonhomologous end-joining wortmannin or NU7441, responses interpreted as reflecting competition between these repair pathways similar to that seen in genomic DNA. The reformation of supercoiled DNA was unaffected when topoisomerases I or II, whose participation in repair of strand breaks has been controversial, were inhibited by the catalytic inhibitors ICRF-193 or F11782. Modeling of the kinetics of repair provided rate constants and showed that repair of single strand breaks in minichromosome DNA proceeded independently of repair of double strand breaks. The simplicity of quantitating strand breaks in this minichromosome provides a usefull system for testing the efficiency of new inhibitors of their repair, and since the sequence and structural features of its DNA and its transcription pattern have been studied extensively it offers a good model for examining other aspects of DNA breakage and repair. To obtain an overall picture of the repair of DNA single and double strand breaks in a defined region of chromatin in vivo, we studied their repair in a ~170 kb circular minichromosome whose length and topology are analogous to those of the closed loops in genomic chromatin. The rate of repair of single strand breaks in cells irradiated with γ photons was quantitated by determining the sensitivity of the minichromosome DNA to nuclease S1, and that of double strand breaks by assaying the reformation of supercoiled DNA using pulsed field electrophoresis. Reformation of supercoiled DNA, which requires that all single strand breaks have been repaired, was not slowed detectably by the inhibitors of poly(ADP-ribose) polymerase-1 NU1025 or 1,5-IQD. Repair of double strand breaks was slowed by 20-30% when homologous recombination was supressed by KU55933, caffeine, or siRNA-mediated depletion of Rad51 but was completely arrested by the inhibitors of nonhomologous end-joining wortmannin or NU7441, responses interpreted as reflecting competition between these repair pathways similar to that seen in genomic DNA. The reformation of supercoiled DNA was unaffected when topoisomerases I or II, whose participation in repair of strand breaks has been controversial, were inhibited by the catalytic inhibitors ICRF-193 or F11782. Modeling of the kinetics of repair provided rate constants and showed that repair of single strand breaks in minichromosome DNA proceeded independently of repair of double strand breaks. The simplicity of quantitating strand breaks in this minichromosome provides a usefull system for testing the efficiency of new inhibitors of their repair, and since the sequence and structural features of its DNA and its transcription pattern have been studied extensively it offers a good model for examining other aspects of DNA breakage and repair. To obtain an overall picture of the repair of DNA single and double strand breaks in a defined region of chromatin in vivo, we studied their repair in a ∼170 kb circular minichromosome whose length and topology are analogous to those of the closed loops in genomic chromatin. The rate of repair of single strand breaks in cells irradiated with γ photons was quantitated by determining the sensitivity of the minichromosome DNA to nuclease S1, and that of double strand breaks by assaying the reformation of supercoiled DNA using pulsed field electrophoresis. Reformation of supercoiled DNA, which requires that all single strand breaks have been repaired, was not slowed detectably by the inhibitors of poly(ADP-ribose) polymerase-1 NU1025 or 1,5-IQD. Repair of double strand breaks was slowed by 20–30% when homologous recombination was supressed by KU55933, caffeine, or siRNA-mediated depletion of Rad51 but was completely arrested by the inhibitors of nonhomologous end-joining wortmannin or NU7441, responses interpreted as reflecting competition between these repair pathways similar to that seen in genomic DNA. The reformation of supercoiled DNA was unaffected when topoisomerases I or II, whose participation in repair of strand breaks has been controversial, were inhibited by the catalytic inhibitors ICRF-193 or F11782. Modeling of the kinetics of repair provided rate constants and showed that repair of single strand breaks in minichromosome DNA proceeded independently of repair of double strand breaks. The simplicity of quantitating strand breaks in this minichromosome provides a usefull system for testing the efficiency of new inhibitors of their repair, and since the sequence and structural features of its DNA and its transcription pattern have been studied extensively it offers a good model for examining other aspects of DNA breakage and repair. |
| Audience | Academic |
| Author | Fujarewicz, Krzysztof Jayaraju, Dheekollu Hancock, Ronald Kumala, Slawomir Rzeszowska-Wolny, Joanna |
| AuthorAffiliation | 2 Bioinformatics Group, Institute of Automatic Control, Silesian University of Technology, Gliwice, Poland 3 Biosystems Group, Institute of Automatic Control, Silesian University of Technology, Gliwice, Poland Universita’ di Milano, Italy 1 Laval University Cancer Research Centre, Hôtel-Dieu Hospital, Québec, Canada |
| AuthorAffiliation_xml | – name: 3 Biosystems Group, Institute of Automatic Control, Silesian University of Technology, Gliwice, Poland – name: Universita’ di Milano, Italy – name: 2 Bioinformatics Group, Institute of Automatic Control, Silesian University of Technology, Gliwice, Poland – name: 1 Laval University Cancer Research Centre, Hôtel-Dieu Hospital, Québec, Canada |
| Author_xml | – sequence: 1 givenname: Slawomir surname: Kumala fullname: Kumala, Slawomir organization: Laval University Cancer Research Centre, Hôtel-Dieu Hospital, Québec, Canada – sequence: 2 givenname: Krzysztof surname: Fujarewicz fullname: Fujarewicz, Krzysztof – sequence: 3 givenname: Dheekollu surname: Jayaraju fullname: Jayaraju, Dheekollu – sequence: 4 givenname: Joanna surname: Rzeszowska-Wolny fullname: Rzeszowska-Wolny, Joanna – sequence: 5 givenname: Ronald surname: Hancock fullname: Hancock, Ronald |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/23382828$$D View this record in MEDLINE/PubMed |
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| CitedBy_id | crossref_primary_10_1088_1478_3975_11_4_045003 crossref_primary_10_1186_1471_2199_15_6 crossref_primary_10_1016_j_biosystems_2016_09_007 crossref_primary_10_1007_s00394_016_1179_z crossref_primary_10_12998_wjcc_v9_i34_10400 |
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| Notes | ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 Conceived and designed the experiments: SK DJ JR-W RH. Performed the experiments: SK DJ. Analyzed the data: SK RH KF DJ JR-W. Contributed reagents/materials/analysis tools: KF. Wrote the paper: SK RH JR-W. Competing Interests: The authors have declared that no competing interests exist. |
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| SubjectTerms | Adenosine diphosphate Analysis Biology Breakage Caffeine Cancer Catalysis Cell Line Chromatin Chromosomes, Artificial - genetics Chromosomes, Artificial - radiation effects Cyclotron frequency Deoxyribonucleic acid DNA DNA Breaks, Double-Stranded - radiation effects DNA Breaks, Single-Stranded - radiation effects DNA damage DNA Ligases - genetics DNA repair DNA Repair - radiation effects DNA topoisomerase DNA-Binding Proteins - genetics DNA-Binding Proteins - metabolism Gamma Rays Genomes Homologous recombination Homology Humans In vivo methods and tests Inhibitors Ion cyclotron radiation Kinases Kinetics Medical research Modelling Nuclease Nucleases Nucleotide sequence Photons Poly(ADP-ribose) Poly(ADP-ribose) polymerase Poly(ADP-ribose) Polymerase 1 Poly(ADP-ribose) Polymerases - metabolism Proteins Rad51 Recombinase - genetics Rad51 Recombinase - metabolism Rate constants Reaction kinetics Repair Ribose RNA, Small Interfering siRNA Topology Transcription Transcription (Genetics) Wortmannin |
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| Title | Repair of DNA strand breaks in a minichromosome in vivo: kinetics, modeling, and effects of inhibitors |
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