Recombination centres and the orchestration of V(D)J recombination von Schatz, David G., Ji, Yanhong

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Discovery of an Active RAG Transposon Illuminates the Origins of V(D)J Recombination von Huang, Shengfeng, Tao, Xin, Yuan, Shaochun, Zhang, Yuhang, Li, Peiyi, Beilinson, Helen A., Zhang, Ya, Yu, Wenjuan, Pontarotti, Pierre, Escriva, Hector, Le Petillon, Yann, Liu, Xiaolong, Chen, Shangwu, Schatz, David G., Xu, Anlong

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New insights into the evolutionary origins of the recombination‐activating gene proteins and V(D)J recombination von Carmona, Lina Marcela, Schatz, David G.

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V(D)J Recombination: Mechanisms of Initiation von Schatz, David G, Swanson, Patrick C

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Structural basis of mismatch recognition by a SARS-CoV-2 proofreading enzyme von Liu, Chang, Shi, Wei, Becker, Scott T, Schatz, David G, Liu, Bin, Yang, Yang

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The RAG Recombinase Dictates Functional Heterogeneity and Cellular Fitness in Natural Killer Cells von Karo, Jenny M., Schatz, David G., Sun, Joseph C.

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Dancing with DNA: AID embraces flexible partners von Wang, Jianshu, Schatz, David G.

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Structures of a RAG-like transposase during cut-and-paste transposition von Liu, Chang, Yang, Yang, Schatz, David G.

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Structural insights into the evolution of the RAG recombinase von Liu, Chang, Zhang, Yuhang, Liu, Catherine C., Schatz, David G.

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Chromosomal Loop Domains Direct the Recombination of Antigen Receptor Genes von Hu, Jiazhi, Zhang, Yu, Zhao, Lijuan, Frock, Richard L., Du, Zhou, Meyers, Robin M., Meng, Fei-long, Schatz, David G., Alt, Frederick W.

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Transposon molecular domestication and the evolution of the RAG recombinase von Zhang, Yuhang, Cheng, Tat Cheung, Huang, Guangrui, Lu, Qingyi, Surleac, Marius D., Mandell, Jeffrey D., Pontarotti, Pierre, Petrescu, Andrei J., Xu, Anlong, Xiong, Yong, Schatz, David G.

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Balancing AID and DNA repair during somatic hypermutation von Liu, Man, Schatz, David G

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The In Vivo Pattern of Binding of RAG1 and RAG2 to Antigen Receptor Loci von Ji, Yanhong, Resch, Wolfgang, Corbett, Elizabeth, Yamane, Arito, Casellas, Rafael, Schatz, David G.

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RAG2 abolishes RAG1 aggregation to facilitate V(D)J recombination von Gan, Tingting, Wang, Yuhong, Liu, Yang, Schatz, David G., Hu, Jiazhi

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Mechanisms of clonal evolution in childhood acute lymphoblastic leukemia von Swaminathan, Srividya, Klemm, Lars, Park, Eugene, Papaemmanuil, Elli, Ford, Anthony, Kweon, Soo-Mi, Trageser, Daniel, Hasselfeld, Brian, Henke, Nadine, Mooster, Jana, Geng, Huimin, Schwarz, Klaus, Kogan, Scott C, Casellas, Rafael, Schatz, David G, Lieber, Michael R, Greaves, Mel F, Müschen, Markus

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RAG Represents a Widespread Threat to the Lymphocyte Genome von Teng, Grace, Maman, Yaakov, Resch, Wolfgang, Kim, Min, Yamane, Arito, Qian, Jason, Kieffer-Kwon, Kyong-Rim, Mandal, Malay, Ji, Yanhong, Meffre, Eric, Clark, Marcus R., Cowell, Lindsay G., Casellas, Rafael, Schatz, David G.

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Targeting of somatic hypermutation by immunoglobulin enhancer and enhancer-like sequences von Buerstedde, Jean-Marie, Alinikula, Jukka, Arakawa, Hiroshi, McDonald, Jessica J, Schatz, David G

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Making ends meet in class switch recombination von Wu, Lizhen, Schatz, David G.

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Structural visualization of transcription activated by a multidrug-sensing MerR family regulator von Yang, Yang, Liu, Chang, Zhou, Wei, Shi, Wei, Chen, Ming, Zhang, Baoyue, Schatz, David G., Hu, Yangbo, Liu, Bin

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Two levels of protection for the B cell genome during somatic hypermutation von Liu, Man, Duke, Jamie L., Richter, Daniel J., Vinuesa, Carola G., Goodnow, Christopher C., Kleinstein, Steven H., Schatz, David G.

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