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  1. 1.   Sequencing-based functional assays for classification of BRCA2 variants in mouse ESCs
  2. Biswas,Kajal; Mitrophanov,Alex; Sahu,Sounak; Sullivan,Teresa; Southon,Eileen; Nousome,Darryl; Reid, Susan; Narula, Sakshi; Smolen, Julia; Sengupta, Trisha; Riedel-Topper, Maximilian; Kapoor, Medha; Babbar, Anav; Stauffer,Stacey; Cleveland, Linda; Tandon, Mayank; Malys,Tyler; Sharan,Shyam
  3. Cell Reports Methods. 2023, Nov 20; 3(11): 100628.
  1. 2.   X Chromosome Evolution in Cetartiodactyla
  2. Proskuryakova, Anastasia A; Kulemzina, Anastasia I; Perelman, Polina L; Makunin, Alexey I; Larkin, Denis M; Farré, Marta; Kukekova, Anna V; Lynn Johnson, Jennifer; Lemskaya, Natalya A; Beklemisheva, Violetta R; Roelke-Parker, Melody; Bellizzi, June; Ryder, Oliver A; O'Brien, Stephen J; Graphodatsky, Alexander S
  3. Genes. 2017, Sep; 8(9): pii: E216.
  1. 3.   Probing Cellular Processes with Oligo-Mediated Recombination and Using the Knowledge Gained to Optimize Recombineering
  2. Sawitzke, J. A.; Costantino, N.; Li, X. T.; Thomason, L. C.; Bubunenko, M.; Court, C.; Court, D. L.
  3. Journal of Molecular Biology. 2011, Mar; 407(1): 45-59.
  1. 4.   Advantages of q-PCR as a method of screening for gene targeting in mammalian cells using conventional and whole BAC-based constructs
  2. Gomez-Rodriguez, J.; Washington, V.; Cheng, J.; Dutra, A.; Pak, E.; Liu, P. T.; McVicar, D. W.; Schwartzberg, P. L.
  3. Nucleic Acids Research. 2008 36(18): 1-9.
  1. 5.   Multicopy plasmid modification with phage lambda red recombineering
  2. Thomason, L. C.; Costantino, N.; Shaw, D. V.; Court, D. L.
  3. Plasmid. 2007, Sep; 58(2): 148-158.
  1. 6.   Recombineering: In vivo genetic engineering in E-coli, S-enterica, and beyond
  2. Sawitzke, J. A.; Thomason, L. C.; Costantino, N.; Bubunenko, M.; Datta, S.; Court, D. L.
  3. Advanced Bacterial Genetics: Use of Transposons and Phage for Genomic Engieering. 2007; 421 : 171-199.
  1. 7.   Analysis of a new homozygous deletion in the tumor suppressor region at 3p12.3 reveals two novel intronic noncoding RNA genes
  2. Angeloni, D.; ter Elst, A.; Wei, M. H.; van der Veen, A. Y.; Braga, E. A.; Klimov, E. A.; Timmer, T.; Korobeinikova, L.; Lerman, M. I.; Buys, C.
  3. Genes Chromosomes & Cancer. 2006, Jul; 45(7): 676-691.
  1. 8.   Transgenic mice expressing Cre-recombinase specifically in retinal rod bipolar neurons
  2. Zhang, X. M.; Chen, B. Y.; Ng, A. H. L.; Tanner, J. A.; Tay, D.; So, K. F.; Rachel, R. A.; Copeland, N. G.; Jenkins, N. A.; Huang, J. D.
  3. Investigative Ophthalmology & Visual Science. 2005, OCT; 46(10): 3515-3520.
  1. 9.   The Ter mutation in the dead end gene causes germ cell loss and testicular germ cell tumours
  2. Youngren, K. K.; Coveney, D.; Peng, X. N.; Bhattacharya, C.; Schmidt, L. S.; Nickerson, M. L.; Lamb, B. T.; Deng, J. M.; Behringer, R. R.; Capel, B.; Rubin, E. M.; Nadeau, J. H.; Matin, A.
  3. Nature. 2005, MAY 19; 435(7040): 360-364.
  1. 10.   Simple and highly efficient BAC recombineering using gaIK selection
  2. Warming, S.; Costantino, N.; Court, D. L.; Jenkins, N. A.; Copeland, N. G.
  3. Nucleic Acids Research. 2005 33(4, Art. No. e36):
  1. 11.   Conservation of aphidicolin-induced fragile sites in Papionini (Primates) species and humans
  2. Ruiz-Herrera, A.; Garcia, F.; Fronicke, L.; Ponsa, M.; Egozcue, J.; Caldes, M. G.; Stanyon, R.
  3. Chromosome Research. 2004 12(7): 683-690.
  1. 12.   Mini-lambda: a tractable system for chromosome and BAC engineering
  2. Court, D. L.; Swaminathan, S.; Yu, D. G.; Wilson, H.; Baker, T.; Bubunenko, M.; Sawitzke, J.; Sharan, S. K.
  3. Gene. 2003 315: 63-69.
  1. 13.   A highly efficient recombineering-based method for generating conditional knockout mutations
  2. Liu, P. T.; Jenkins, N. A.; Copeland, N. G.
  3. Genome Research. 2003 13(3): 476-484.
  1. 14.   Recombineering with overlapping single-stranded DNA oligonucleotides: Testing a recombination intermediate
  2. Yu, D. G.; Sawitzke, J. A.; Ellis, H.; Court, D. L.
  3. Proceedings of the National Academy of Sciences of the United States of America. 2003 100(12): 7207-7212.
  1. 15.   A simple two-step, 'hit and fix' method to generate subtle mutations in BACs using short denatured PCR fragments
  2. Yang, Y. P.; Sharan, S. K.
  3. Nucleic Acids Research. 2003 31(15): art. no.-e80.
  1. 16.   Genetic engineering using homologous recombination
  2. Court, D. L.; Sawitzke, J. A.; Thomason, L. C.
  3. Annual Review of Genetics. 2002 36: 361-388.
  1. 17.   Human BRCA1 gene rescues the embryonic lethality of Brca1 mutant mice
  2. Chandler, J.; Hohenstein, P.; Swing, D. A.; Tessarollo, L.; Sharan, S. K.
  3. Genesis. 2001 29(2): 72-77.
  1. 18.   Recombineering: A powerful new tool for mouse functional genomics
  2. Copeland, N. G.; Jenkins, N. A.; Court, D. L.
  3. Nature Reviews Genetics. 2001 2(10): 769-779.
  1. 19.   Homozygous Deletions At 3p12 in Breast and Lung Cancer
  2. Sundaresan, V.; Chung, G.; Heppellparton, A.; Xiong, J.; Grundy, C.; Roberts, I.; James, L.; Cahn, A.; Bench, A.; Douglas, J.; Minna, J.; Sekido, Y.; Lerman, M.; Latif, F.; Bergh, J.; Li, H.; Lowe, N.; Ogilvie, D.; Rabbitts, P.
  3. Oncogene. 1998 17(13): 1723-1729.
  1. 20.   Manipulating the Mouse Genome Using Recombineering
  2. Biswas,Kajal; Sharan,Shyam
  3. Advancements in genetic engineering. 2013 2(2): pii: 108. .
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