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Molecular and Cellular Biology Volume 12, 1992 - Issue 3
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DNA Dynamics and Chromosome Structure

Two Alternative Pathways of Double-Strand Break Repair That Are Kinetically Separable and Independently Modulated

Jacqueline Fishman-LobellRosenstiel Center and Department of Biology, Brandeis University, Boston, Massachusetts02254-9110
,
Norah RudinRosenstiel Center and Department of Biology, Brandeis University, Boston, Massachusetts02254-9110
&
James E. HaberRosenstiel Center and Department of Biology, Brandeis University, Boston, Massachusetts02254-9110
Pages 1292-1303 | Received 20 Sep 1991, Accepted 23 Dec 1991, Published online: 31 Mar 2023

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Vinay V. Eapen, Neal Sugawara, Michael Tsabar, Wei-Hua Wu & James E. Haber. (2012) The Chromatin Remodeler Fun30 Regulates DNA End Resection and Checkpoint Deactivation. Molecular and Cellular Biology 32:22, pages 4727-4740.
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Carolyn M. George & Eric Alani. (2012) Multiple cellular mechanisms prevent chromosomal rearrangements involving repetitive DNA. Critical Reviews in Biochemistry and Molecular Biology 47:3, pages 297-313.
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Nathalie Grandin & Michel Charbonneau. (2009) Telomerase- and Rad52-Independent Immortalization of Budding Yeast by an Inherited-Long-Telomere Pathway of Telomeric Repeat Amplification. Molecular and Cellular Biology 29:4, pages 965-985.
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Ezra Schildkraut, Cheryl A. Miller & Jac A. Nickoloff. (2006) Transcription of a Donor Enhances Its Use during Double-Strand Break-Induced Gene Conversion in Human Cells. Molecular and Cellular Biology 26:8, pages 3098-3105.
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Jianhua Yu, Kelly Marshall, Miyuki Yamaguchi, James E. Haber & Clifford F. Weil. (2004) Microhomology-Dependent End Joining and Repair of Transposon-Induced DNA Hairpins by Host Factors in Saccharomyces cerevisiae. Molecular and Cellular Biology 24:3, pages 1351-1364.
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Inusha U. De Silva, Peter J. McHugh, Peter H. Clingen & John A. Hartley. (2000) Defining the Roles of Nucleotide Excision Repair and Recombination in the Repair of DNA Interstrand Cross-Links in Mammalian Cells. Molecular and Cellular Biology 20:21, pages 7980-7990.
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Mies L. G. Dronkert, H. Berna Beverloo, Roger D. Johnson, Jan H. J. Hoeijmakers, Maria Jasin & Roland Kanaar. (2000) Mouse RAD54 Affects DNA Double-Strand Break Repair and Sister Chromatid Exchange. Molecular and Cellular Biology 20:9, pages 3147-3156.
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Naz Erdeniz & Rodney Rothstein. (2000) Rsp5, a Ubiquitin-Protein Ligase, Is Involved in Degradation of the Single-Stranded-DNA Binding Protein Rfa1 in Saccharomyces cerevisiae. Molecular and Cellular Biology 20:1, pages 224-232.
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Ning Ke & Daniel F. Voytas. (1999) cDNA of the Yeast Retrotransposon Ty5 Preferentially Recombines with Substrates in Silent Chromatin. Molecular and Cellular Biology 19:1, pages 484-494.
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Gary Henderson & J. Paul Simons. (1997) Processing of DNA Prior to Illegitimate Recombination in Mouse Cells. Molecular and Cellular Biology 17:7, pages 3779-3785.
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Heather H. Nelson, Douglas B. Sweetser & Jac A. Nickoloff. (1996) Effects of Terminal Nonhomology and Homeology on Double-Strand-Break-Induced Gene Conversion Tract Directionality. Molecular and Cellular Biology 16:6, pages 2951-2957.
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J. Kent Moore & James E. Haber. (1996) Cell Cycle and Genetic Requirements of Two Pathways of Nonhomologous End-Joining Repair of Double-Strand Breaks in Saccharomyces cerevisiae. Molecular and Cellular Biology 16:5, pages 2164-2173.
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David K. Butler, Lauren E. Yasuda & Meng-Chao Yao. (1995) An Intramolecular Recombination Mechanism for the Formation of the rRNA Gene Palindrome of Tetrahymena thermophila. Molecular and Cellular Biology 15:12, pages 7117-7126.
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Philip Supply, Alban de Kerchove d'Exaerde, Tiziana Roganti, André Goffeau & Françoise Foury. (1995) In-Frame Recombination between the Yeast H+-ATPase Isogenes PMA1 and PMA2: Insights into the Mechanism of Recombination Initiated by a Double-Strand Break. Molecular and Cellular Biology 15:10, pages 5389-5395.
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Evgeny L. Ivanov & James E. Haber. (1995) RAD1 and RAD10, but Not Other Excision Repair Genes, Are Required for Double-Strand Break-Induced Recombination in Saccharomyces cerevisiae. Molecular and Cellular Biology 15:4, pages 2245-2251.
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Julianne Smith & Rodney Rothstein. (1995) A Mutation in the Gene Encoding the Saccharomyces cerevisiae Single-Stranded DNA-Binding Protein Rfa1 Stimulates a RAD52-Independent Pathway for Direct-Repeat Recombination. Molecular and Cellular Biology 15:3, pages 1632-1641.
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Philippe Rouet, Fatima Smih & Maria Jasin. (1994) Introduction of Double-Strand Breaks into the Genome of Mouse Cells by Expression of a Rare-Cutting Endonuclease. Molecular and Cellular Biology 14:12, pages 8096-8106.
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James Halbrook & Merl F. Hoekstra. (1994) Mutations in the Saccharomyces cerevisiae CDC1 Gene Affect Double-Strand-Break-Induced Intrachromosomal Recombination. Molecular and Cellular Biology 14:12, pages 8037-8050.
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Ichiro Kawasaki, Young Seuk Bae, Toshihiko Eki, Yoshie Kim & Hideo Ikeda. (1994) Homologous Recombination of Monkey α-Satellite Repeats in an In Vitro Simian Virus 40 Replication System: Possible Association of Recombination with DNA Replication. Molecular and Cellular Biology 14:6, pages 4173-4182.
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Douglas B. Sweetser, Heather Hough, Jennifer F. Whelden, Melissa Arbuckle & Jac A. Nickoloff. (1994) Fine-Resolution Mapping of Spontaneous and Double-Strand Break-Induced Gene Conversion Tracts in Saccharomyces cerevisiae Reveals Reversible Mitotic Conversion Polarity. Molecular and Cellular Biology 14:6, pages 3863-3875.
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Kate M. Kramer, Jo Ann Brock, Kerry Bloom, J. Kent Moore & James E. Haber. (1994) Two Different Types of Double-Strand Breaks in Saccharomyces cerevisiae Are Repaired by Similar RAD52-Independent, Nonhomologous Recombination Events. Molecular and Cellular Biology 14:2, pages 1293-1301.
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Christine Mezard & Alain Nicolas. (1994) Homologous, Homeologous, and Illegitimate Repair of Double-Strand Breaks during Transformation of a Wild-Type Strain and a rad52 Mutant Strain of Saccharomyces cerevisiae. Molecular and Cellular Biology 14:2, pages 1278-1292.
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Chris W. Lehman, Michael Clemens, David K. Worthylake, Jonathan K. Trautman & Dana Carroll. (1993) Homologous and Illegitimate Recombination in Developing Xenopus Oocytes and Eggs. Molecular and Cellular Biology 13:11, pages 6897-6906.
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Kimberly N. Huang & Lorraine S. Symington. (1993) A 5'-3' Exonuclease From Saccharomyces cerevisiae is Required for in Vitro Recombination Between Linear DNA Molecules with Overlapping Homology. Molecular and Cellular Biology 13:6, pages 3125-3134.
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Sunjoo Jeong-Yu & Dana Carroll. (1992) Effect of Terminal Nonhomologies on Homologous Recombination in Xenopus laevis Oocytes. Molecular and Cellular Biology 12:12, pages 5426-5437.
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Cheng-Sheng LeeRuoxi W. WangHsiao-Han ChangDaniel CapursoMark R. Segal & James E. Haber. (2015) Chromosome position determines the success of double-strand break repair. Proceedings of the National Academy of Sciences 113:2.
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Wade M. Hicks, Miyuki Yamaguchi & James E. Haber. (2011) Real-time analysis of double-strand DNA break repair by homologous recombination. Proceedings of the National Academy of Sciences 108:8, pages 3108-3115.
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Kwan-Wood G. Lam & Alec J. Jeffreys. (2007) Processes of de novo duplication of human α-globin genes . Proceedings of the National Academy of Sciences 104:26, pages 10950-10955.
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Tanyel Kiziltepe, Teru Hideshima, Laurence Catley, Noopur Raje, Hiroshi Yasui, Norihiko Shiraishi, Yutaka Okawa, Hiroshi Ikeda, Sonia Vallet, Samantha Pozzi, Kenji Ishitsuka, Enrique M. Ocio, Dharminder Chauhan & Kenneth C. Anderson. (2007) 5-Azacytidine, a DNA methyltransferase inhibitor, induces ATR-mediated DNA double-strand break responses, apoptosis, and synergistic cytotoxicity with doxorubicin and bortezomib against multiple myeloma cells. Molecular Cancer Therapeutics 6:6, pages 1718-1727.
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Dena Johnson-Schlitz & William R. Engels. (2006) Template disruptions and failure of double Holliday junction dissolution during double-strand break repair in Drosophila BLM mutants . Proceedings of the National Academy of Sciences 103:45, pages 16840-16845.
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Lorraine S. Symington. (2002) Role of RAD52 Epistasis Group Genes in Homologous Recombination and Double-Strand Break Repair . Microbiology and Molecular Biology Reviews 66:4, pages 630-670.
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Noriko Kantake, Murty V. V. M. Madiraju, Tomohiko Sugiyama & Stephen C. Kowalczykowski. (2002) Escherichia coli RecO protein anneals ssDNA complexed with its cognate ssDNA-binding protein: A common step in genetic recombination . Proceedings of the National Academy of Sciences 99:24, pages 15327-15332.
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Chris Allen, Akihiro Kurimasa, Mark A. Brenneman, David J. Chen & Jac A. Nickoloff. (2002) DNA-dependent protein kinase suppresses double-strand break-induced and spontaneous homologous recombination. Proceedings of the National Academy of Sciences 99:6, pages 3758-3763.
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Frédéric Pâques & James E. Haber. (1999) Multiple Pathways of Recombination Induced by Double-Strand Breaks in Saccharomyces cerevisiae . Microbiology and Molecular Biology Reviews 63:2, pages 349-404.
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Elke Raderschall, Efim I. Golub & Thomas Haaf. (1999) Nuclear foci of mammalian recombination proteins are located at single-stranded DNA regions formed after DNA damage. Proceedings of the National Academy of Sciences 96:5, pages 1921-1926.
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Neal Sugawara, Frédéric Pâques, Mónica Colaiácovo & James E. Haber. (1997) Role of Saccharomyces cerevisiae Msh2 and Msh3 repair proteins in double-strand break-induced recombination . Proceedings of the National Academy of Sciences 94:17, pages 9214-9219.
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W.-Y. Leung, A. Malkova & J. E. Haber. (1997) Gene targeting by linear duplex DNA frequently occurs by assimilation of a single strand that is subject to preferential mismatch correction. Proceedings of the National Academy of Sciences 94:13, pages 6851-6856.
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James E. Haber & Wai-Ying Leung. (1996) Lack of chromosome territoriality in yeast: Promiscuous rejoining of broken chromosome ends. Proceedings of the National Academy of Sciences 93:24, pages 13949-13954.
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