Engineered proteins detect spontaneous DNA breakage in human and bacterial cells

Chandan Shee; Ben D. Cox; Franklin Gu; Elizabeth M. Luengas; Mohan C. Joshi; Li Ya Chiu; David Magnan; Jennifer A. Halliday; Ryan L. Frisch; Janet L. Gibson; Ralf Bernd Nehring; Huong G. Do; Marcos Hernandez; Lei Li; Christophe Herman; P. J. Hastings; David Bates; Reuben S. Harris; Kyle M. Miller; Susan M. Rosenberg

doi:10.7554/eLife.01222.001

Engineered proteins detect spontaneous DNA breakage in human and bacterial cells

Chandan Shee, Ben D. Cox, Franklin Gu, Elizabeth M. Luengas, Mohan C. Joshi, Li Ya Chiu, David Magnan, Jennifer A. Halliday, Ryan L. Frisch, Janet L. Gibson, Ralf Bernd Nehring, Huong G. Do, Marcos Hernandez, Lei Li, Christophe Herman, P. J. Hastings, David Bates, Reuben S. Harris, Kyle M. Miller, Susan M. Rosenberg

Experimental Radiation Oncology

Research output: Contribution to journal › Article › peer-review

80 Scopus citations

Abstract

Spontaneous DNA breaks instigate genomic changes that fuel cancer and evolution, yet direct quantification of double-strand breaks (DSBs) has been limited. Predominant sources of spontaneous DSBs remain elusive. We report synthetic technology for quantifying DSBs using fluorescent-protein fusions of double-strand DNA end-binding protein, Gam of bacteriophage Mu. In Escherichia coli GamGFP forms foci at chromosomal DSBs and pinpoints their subgenomic locations. Spontaneous DSBs occur mostly one per cell, and correspond with generations, supporting replicative models for spontaneous breakage, and providing the first true breakage rates. In mammalian cells GamGFP-labels laser-induced DSBs antagonized by end-binding protein Ku; co-localizes incompletely with DSB marker 53BP1 suggesting superior DSB-specificity; blocks resection; and demonstrates DNA breakage via APOBEC3A cytosine deaminase. We demonstrate directly that some spontaneous DSBs occur outside of S phase. The data illuminate spontaneous DNA breakage in E. coli and human cells and illustrate the versatility of fluorescent-Gam for interrogation of DSBs in living cells.

Original language	English (US)
Article number	e01222
Journal	eLife
Volume	2013
Issue number	2
DOIs	https://doi.org/10.7554/eLife.01222.001
State	Published - Oct 29 2013

ASJC Scopus subject areas

General Neuroscience
General Biochemistry, Genetics and Molecular Biology
General Immunology and Microbiology

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10.7554/eLife.01222.001

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Shee, C., Cox, B. D., Gu, F., Luengas, E. M., Joshi, M. C., Chiu, L. Y., Magnan, D., Halliday, J. A., Frisch, R. L., Gibson, J. L., Nehring, R. B., Do, H. G., Hernandez, M., Li, L., Herman, C., Hastings, P. J., Bates, D., Harris, R. S., Miller, K. M., & Rosenberg, S. M. (2013). Engineered proteins detect spontaneous DNA breakage in human and bacterial cells. eLife, 2013(2), Article e01222. https://doi.org/10.7554/eLife.01222.001

Shee, C, Cox, BD, Gu, F, Luengas, EM, Joshi, MC, Chiu, LY, Magnan, D, Halliday, JA, Frisch, RL, Gibson, JL, Nehring, RB, Do, HG, Hernandez, M, Li, L, Herman, C, Hastings, PJ, Bates, D, Harris, RS, Miller, KM & Rosenberg, SM 2013, 'Engineered proteins detect spontaneous DNA breakage in human and bacterial cells', eLife, vol. 2013, no. 2, e01222. https://doi.org/10.7554/eLife.01222.001

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abstract = "Spontaneous DNA breaks instigate genomic changes that fuel cancer and evolution, yet direct quantification of double-strand breaks (DSBs) has been limited. Predominant sources of spontaneous DSBs remain elusive. We report synthetic technology for quantifying DSBs using fluorescent-protein fusions of double-strand DNA end-binding protein, Gam of bacteriophage Mu. In Escherichia coli GamGFP forms foci at chromosomal DSBs and pinpoints their subgenomic locations. Spontaneous DSBs occur mostly one per cell, and correspond with generations, supporting replicative models for spontaneous breakage, and providing the first true breakage rates. In mammalian cells GamGFP-labels laser-induced DSBs antagonized by end-binding protein Ku; co-localizes incompletely with DSB marker 53BP1 suggesting superior DSB-specificity; blocks resection; and demonstrates DNA breakage via APOBEC3A cytosine deaminase. We demonstrate directly that some spontaneous DSBs occur outside of S phase. The data illuminate spontaneous DNA breakage in E. coli and human cells and illustrate the versatility of fluorescent-Gam for interrogation of DSBs in living cells.",

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AU - Shee, Chandan

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AU - Gu, Franklin

AU - Luengas, Elizabeth M.

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AU - Chiu, Li Ya

AU - Magnan, David

AU - Halliday, Jennifer A.

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AU - Gibson, Janet L.

AU - Nehring, Ralf Bernd

AU - Do, Huong G.

AU - Hernandez, Marcos

AU - Li, Lei

AU - Herman, Christophe

AU - Hastings, P. J.

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AU - Miller, Kyle M.

AU - Rosenberg, Susan M.

PY - 2013/10/29

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N2 - Spontaneous DNA breaks instigate genomic changes that fuel cancer and evolution, yet direct quantification of double-strand breaks (DSBs) has been limited. Predominant sources of spontaneous DSBs remain elusive. We report synthetic technology for quantifying DSBs using fluorescent-protein fusions of double-strand DNA end-binding protein, Gam of bacteriophage Mu. In Escherichia coli GamGFP forms foci at chromosomal DSBs and pinpoints their subgenomic locations. Spontaneous DSBs occur mostly one per cell, and correspond with generations, supporting replicative models for spontaneous breakage, and providing the first true breakage rates. In mammalian cells GamGFP-labels laser-induced DSBs antagonized by end-binding protein Ku; co-localizes incompletely with DSB marker 53BP1 suggesting superior DSB-specificity; blocks resection; and demonstrates DNA breakage via APOBEC3A cytosine deaminase. We demonstrate directly that some spontaneous DSBs occur outside of S phase. The data illuminate spontaneous DNA breakage in E. coli and human cells and illustrate the versatility of fluorescent-Gam for interrogation of DSBs in living cells.

AB - Spontaneous DNA breaks instigate genomic changes that fuel cancer and evolution, yet direct quantification of double-strand breaks (DSBs) has been limited. Predominant sources of spontaneous DSBs remain elusive. We report synthetic technology for quantifying DSBs using fluorescent-protein fusions of double-strand DNA end-binding protein, Gam of bacteriophage Mu. In Escherichia coli GamGFP forms foci at chromosomal DSBs and pinpoints their subgenomic locations. Spontaneous DSBs occur mostly one per cell, and correspond with generations, supporting replicative models for spontaneous breakage, and providing the first true breakage rates. In mammalian cells GamGFP-labels laser-induced DSBs antagonized by end-binding protein Ku; co-localizes incompletely with DSB marker 53BP1 suggesting superior DSB-specificity; blocks resection; and demonstrates DNA breakage via APOBEC3A cytosine deaminase. We demonstrate directly that some spontaneous DSBs occur outside of S phase. The data illuminate spontaneous DNA breakage in E. coli and human cells and illustrate the versatility of fluorescent-Gam for interrogation of DSBs in living cells.

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Engineered proteins detect spontaneous DNA breakage in human and bacterial cells

Abstract

ASJC Scopus subject areas

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