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Literature DB >> 26593423

Chromosomal Loop Domains Direct the Recombination of Antigen Receptor Genes.

Jiazhi Hu¹, Yu Zhang¹, Lijuan Zhao¹, Richard L Frock¹, Zhou Du¹, Robin M Meyers¹, Fei-long Meng¹, David G Schatz², Frederick W Alt³.

Abstract

RAG initiates antibody V(D)J recombination in developing lymphocytes by generating "on-target" DNA breaks at matched pairs of bona fide recombination signal sequences (RSSs). We employ bait RAG-generated breaks in endogenous or ectopically inserted RSS pairs to identify huge numbers of RAG "off-target" breaks. Such breaks occur at the simple CAC motif that defines the RSS cleavage site and are largely confined within convergent CTCF-binding element (CBE)-flanked loop domains containing bait RSS pairs. Marked orientation dependence of RAG off-target activity within loops spanning up to 2 megabases implies involvement of linear tracking. In this regard, major RAG off-targets in chromosomal translocations occur as convergent RSS pairs at enhancers within a loop. Finally, deletion of a CBE-based IgH locus element disrupts V(D)J recombination domains and, correspondingly, alters RAG on- and off-target distributions within IgH. Our findings reveal how RAG activity is developmentally focused and implicate mechanisms by which chromatin domains harness biological processes within them.

Entities: Chemical

Mesh：

Substances：

Year: 2015 PMID： 26593423 PMCID： PMC4660266 DOI： 10.1016/j.cell.2015.10.016

Source DB: PubMed Journal: Cell ISSN： 0092-8674 Impact factor: 41.582

47 in total

1. RAG-mediated recombination is the predominant driver of oncogenic rearrangement in ETV6-RUNX1 acute lymphoblastic leukemia.

Authors: Elli Papaemmanuil; Inmaculada Rapado; Yilong Li; Nicola E Potter; David C Wedge; Jose Tubio; Ludmil B Alexandrov; Peter Van Loo; Susanna L Cooke; John Marshall; Inigo Martincorena; Jonathan Hinton; Gunes Gundem; Frederik W van Delft; Serena Nik-Zainal; David R Jones; Manasa Ramakrishna; Ian Titley; Lucy Stebbings; Catherine Leroy; Andrew Menzies; John Gamble; Ben Robinson; Laura Mudie; Keiran Raine; Sarah O'Meara; Jon W Teague; Adam P Butler; Giovanni Cazzaniga; Andrea Biondi; Jan Zuna; Helena Kempski; Markus Muschen; Anthony M Ford; Michael R Stratton; Mel Greaves; Peter J Campbell
Journal: Nat Genet Date: 2014-01-12 Impact factor: 38.330

2. Cohesin and CTCF differentially affect chromatin architecture and gene expression in human cells.

Authors: Jessica Zuin; Jesse R Dixon; Michael I J A van der Reijden; Zhen Ye; Petros Kolovos; Rutger W W Brouwer; Mariëtte P C van de Corput; Harmen J G van de Werken; Tobias A Knoch; Wilfred F J van IJcken; Frank G Grosveld; Bing Ren; Kerstin S Wendt
Journal: Proc Natl Acad Sci U S A Date: 2013-12-13 Impact factor: 11.205

Review 3. CTCF: an architectural protein bridging genome topology and function.

Authors: Chin-Tong Ong; Victor G Corces
Journal: Nat Rev Genet Date: 2014-03-11 Impact factor: 53.242

Review 4. Breakpoint sites disclose the role of the V(D)J recombination machinery in the formation of T-cell receptor (TCR) and non-TCR associated aberrations in T-cell acute lymphoblastic leukemia.

Authors: Nicole S D Larmonie; Willem A Dik; Jules P P Meijerink; Irene Homminga; Jacques J M van Dongen; Anton W Langerak
Journal: Haematologica Date: 2013-08 Impact factor: 9.941

5. RSSsite: a reference database and prediction tool for the identification of cryptic Recombination Signal Sequences in human and murine genomes.

Authors: Ivan Merelli; Alessandro Guffanti; Marco Fabbri; Andrea Cocito; Laura Furia; Ursula Grazini; Raoul J Bonnal; Luciano Milanesi; Fraser McBlane
Journal: Nucleic Acids Res Date: 2010-05-16 Impact factor: 16.971

6. ATM damage response and XLF repair factor are functionally redundant in joining DNA breaks.

Authors: Shan Zha; Chunguang Guo; Cristian Boboila; Valentyn Oksenych; Hwei-Ling Cheng; Yu Zhang; Duane R Wesemann; Grace Yuen; Harin Patel; Peter H Goff; Richard L Dubois; Frederick W Alt
Journal: Nature Date: 2010-12-15 Impact factor: 49.962

7. Triplication of a 21q22 region contributes to B cell transformation through HMGN1 overexpression and loss of histone H3 Lys27 trimethylation.

Authors: Andrew A Lane; Bjoern Chapuy; Charles Y Lin; Trevor Tivey; Hubo Li; Elizabeth C Townsend; Diederik van Bodegom; Tovah A Day; Shuo-Chieh Wu; Huiyun Liu; Akinori Yoda; Gabriela Alexe; Anna C Schinzel; Timothy J Sullivan; Sébastien Malinge; Jordan E Taylor; Kimberly Stegmaier; Jacob D Jaffe; Michael Bustin; Geertruy te Kronnie; Shai Izraeli; Marian H Harris; Kristen E Stevenson; Donna Neuberg; Lewis B Silverman; Stephen E Sallan; James E Bradner; William C Hahn; John D Crispino; David Pellman; David M Weinstock
Journal: Nat Genet Date: 2014-04-20 Impact factor: 38.330

8. Topologically associating domains are stable units of replication-timing regulation.

Authors: Benjamin D Pope; Tyrone Ryba; Vishnu Dileep; Feng Yue; Weisheng Wu; Olgert Denas; Daniel L Vera; Yanli Wang; R Scott Hansen; Theresa K Canfield; Robert E Thurman; Yong Cheng; Günhan Gülsoy; Jonathan H Dennis; Michael P Snyder; John A Stamatoyannopoulos; James Taylor; Ross C Hardison; Tamer Kahveci; Bing Ren; David M Gilbert
Journal: Nature Date: 2014-11-20 Impact factor: 49.962

9. Control of cell identity genes occurs in insulated neighborhoods in mammalian chromosomes.

Authors: Jill M Dowen; Zi Peng Fan; Denes Hnisz; Gang Ren; Brian J Abraham; Lyndon N Zhang; Abraham S Weintraub; Jurian Schujiers; Tong Ihn Lee; Keji Zhao; Richard A Young
Journal: Cell Date: 2014-10-09 Impact factor: 41.582

10. Mechanisms that can promote peripheral B-cell lymphoma in ATM-deficient mice.

Authors: Suprawee Tepsuporn; Jiazhi Hu; Monica Gostissa; Frederick W Alt
Journal: Cancer Immunol Res Date: 2014-06-09 Impact factor: 11.151

84 in total

1. Transcription-associated processes cause DNA double-strand breaks and translocations in neural stem/progenitor cells.

Authors: Bjoern Schwer; Pei-Chi Wei; Amelia N Chang; Jennifer Kao; Zhou Du; Robin M Meyers; Frederick W Alt
Journal: Proc Natl Acad Sci U S A Date: 2016-02-12 Impact factor: 11.205

2. RAG1 targeting in the genome is dominated by chromatin interactions mediated by the non-core regions of RAG1 and RAG2.

Authors: Yaakov Maman; Grace Teng; Rashu Seth; Steven H Kleinstein; David G Schatz
Journal: Nucleic Acids Res Date: 2016-07-19 Impact factor: 16.971

3. The Energetics and Physiological Impact of Cohesin Extrusion.

Authors: Laura Vian; Aleksandra Pękowska; Suhas S P Rao; Kyong-Rim Kieffer-Kwon; Seolkyoung Jung; Laura Baranello; Su-Chen Huang; Laila El Khattabi; Marei Dose; Nathanael Pruett; Adrian L Sanborn; Andres Canela; Yaakov Maman; Anna Oksanen; Wolfgang Resch; Xingwang Li; Byoungkoo Lee; Alexander L Kovalchuk; Zhonghui Tang; Steevenson Nelson; Michele Di Pierro; Ryan R Cheng; Ido Machol; Brian Glenn St Hilaire; Neva C Durand; Muhammad S Shamim; Elena K Stamenova; José N Onuchic; Yijun Ruan; Andre Nussenzweig; David Levens; Erez Lieberman Aiden; Rafael Casellas
Journal: Cell Date: 2018-04-26 Impact factor: 41.582

4. Intra-Vκ Cluster Recombination Shapes the Ig Kappa Locus Repertoire.

Authors: Kenta Shinoda; Yaakov Maman; Andres Canela; David G Schatz; Ferenc Livak; André Nussenzweig
Journal: Cell Rep Date: 2019-12-24 Impact factor: 9.423

5. Aberrant RAG-mediated recombination contributes to multiple structural rearrangements in lymphoid blast crisis of chronic myeloid leukemia.

Authors: Daniel W Thomson; Nur Hezrin Shahrin; Paul P S Wang; Carol Wadham; Naranie Shanmuganathan; Hamish S Scott; Marcel E Dinger; Timothy P Hughes; Andreas W Schreiber; Susan Branford
Journal: Leukemia Date: 2020-02-19 Impact factor: 11.528