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  1. 1.   Pharmacodynamic effects of the PARP inhibitor talazoparib (MDV3800, BMN 673) in patients with BRCA-mutated advanced solid tumors
  2. Mittra, Arjun; Coyne, Geraldine H O' Sullivan; Zlott, Jennifer; Kummar, Shivaani; Meehan, Robert; Rubinstein, Lawrence; Juwara,Lamin; Wilsker,Deborah; Ji,Jay; Miller,Brandon; Navas, Tony; Ferry-Galow,Katherine; Voth,Andrea; Chang,Ting-Chia; Jiwani,Shahanawaz; Parchment,Ralph; Doroshow, James H; Chen, Alice P
  3. Cancer Chemotherapy and Pharmacology. 2023, Nov 27;
  1. 2.   Recombineering: Genetic Engineering in Escherichia coli Using Homologous Recombination
  2. Thomason,Lynn; Costantino, Nina; Li, Xintian; Court,Don
  3. Current Protocols. 2023, Feb; 3(2): e656.
  1. 3.   Distinct frequency patterns of LILRB3 and LILRA6 allelic variants in Europeans
  2. Bashirova,Arman; Kasprzak,Wojciech; Ohuigin,Colm; Carrington,Mary
  3. Immunogenetics. 2022, Nov 30;
  1. 4.   WRN helicase safeguards deprotected replication forks in BRCA2-mutated cancer cells
  2. Datta, Arindam; Biswas, Kajal; Sommers, Joshua A.; Thompson, Haley; Awate, Sanket; Nicolae, Claudia M.; Thakar, Tanay; Moldovan, George-Lucian; Shoemaker, Robert H.; Sharan, Shyam K.; Brosh, Robert M.
  3. Nature Communications. 2021, Nov 12; 12(1):
  1. 5.   The dystonia gene THAP1 controls DNA double-strand break repair choice
  2. Shinoda, Kenta; Zong, Dali; Callen, Elsa; Wu, Wei; Dumitrache, Lavinia C.; Belinky, Frida; Chari,Raj; Wong, Nancy; Ishikawa, Momoko; Stanlie, Andre; Multhaupt-Buell, Trisha; Sharma, Nutan; Ozelius, Laurie; Ehrlich, Michelle; McKinnon, Peter J.; Nussenzweig, Andre
  3. MOLECULAR CELL. 2021, Jun 17; 81(12): 2611-2624.e10.
  1. 6.   Evaluation of Pharmacodynamic Responses to Cancer Therapeutic Agents Using DNA Damage Markers
  2. Wilsker,Deborah; Barrett, Allison M.; Dull,Angie; Lawrence,Scott; Hollingshead,Melinda; Chen, Alice; Kummar, Shivaani; Parchment,Ralph; Doroshow, James H.; Kinders,Robert
  3. Clinical cancer research : an official journal of the American Association for Cancer Research. 2019, MAY 15; 25(10): 3084-3095.
  1. 7.   Eltrombopag promotes DNA repair in human hematopoietic stem and progenitor cells
  2. Guenther, Kacey L.; Cheruku, Patali S.; Cash, Ayla; Smith, Richard H.; Alvarado, Luigi J.; Burkett,Sandra; Townsley, Danielle M.; Winkler, Thomas; Larochelle, Andre
  3. Experimental hematology. 2019, May; 73: 1-6.
  1. 8.   BRCA1 Haploinsufficiency Is Masked by RNF168-Mediated Chromatin Ubiquitylation
  2. Zong, Dali; Adam, Salome; Wang, Yifan; Sasanuma, Hiroyuki; Callen, Elsa; Murga, Matilde; Day, Amanda; Kruhlak, Michael J.; Wong, Nancy; Munro, Meagan; Chaudhuri, Arnab Ray; Karim,Baktiar; Xia, Bing; Takeda, Shunichi; Johnson, Neil; Durocher, Daniel; Nussenzweig, Andre
  3. Molecular cell. 2019, MAR 21; 73(6): 1267-+.
  1. 9.   RADX Promotes Genome Stability and Modulates Chemosensitivity by Regulating RAD51 at Replication Forks.
  2. Dungrawala, Huzefa; Bhat, Kamakoti P; Le Meur, Rémy; Chazin, Walter J; Ding, Xia; Sharan, Shyam; Wessel, Sarah R; Sathe, Aditya A; Zhao, Runxiang; Cortez, David
  3. Molecular cell. 2017, Aug 3; 67(3): 374-+.
  1. 10.   Oligonucleotide recombination in Gram-negative bacteria
  2. Swingle, B.; Markel, E.; Costantino, N.; Bubunenko, M. G.; Cartinhour, S.; Court, D. L.
  3. Molecular Microbiology. 2010, Jan; 75(1): 138-148.
  1. 11.   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. 12.   Mouse embryonic stem cell-based functional assay to evaluate mutations in BRCA2
  2. Kuznetsov, S. G.; Liu, P. T.; Sharan, S. K.
  3. Nature Medicine. 2008 14(8): 875-881.
  1. 13.   Non-homologous end joining is important for repair of Cr(VI)-induced DNA damage in Saccharomyces cerevisiae
  2. Santoyo, G.; Strathern, J. N.
  3. Microbiological Research. 2008 163(1): 113-119.
  1. 14.   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. 15.   A recombineering based approach for high-throughput conditional knockout targeting vector construction
  2. Chan, W.; Costantino, N.; Li, R. X.; Lee, S. C.; Su, Q.; Melvin, D.; Court, D. L.; Liu, P. T.
  3. Nucleic Acids Research. 2007, Apr; 35(8):
  1. 16.   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. 17.   Tumor endothelial marker 1 (Tem1) functions in the growth and progression of abdominal tumors
  2. Nanda, A.; Karim, B.; Peng, Z. S.; Liu, G. S.; Qiu, W. P.; Gan, C.; Vogelstein, B.; St Croix, B.; Kinzler, K. W.; Huso, D. L.
  3. Proceedings of the National Academy of Sciences of the United States of America. 2006, FEB 28; 103(9): 3351-3356.
  1. 18.   Homologous recombination is promoted by translesion polymerase Pol eta
  2. Rattray, A. J.; Strathern, J. N.
  3. Molecular Cell. 2005, DEC 9; 20(5): 658-659.
  1. 19.   A mechanism of palindromic gene amplification in Saccharomyces cerevisiae
  2. Rattray, A. J.; Shafer, B. K.; Neelam, B.; Strathern, J. N.
  3. Genes & Development. 2005, JUN 1; 19(11): 1390-1399.
  1. 20.   The contribution of the Trp/Met/Phe residues to physical interactions of p53 with cellular proteins
  2. Ma, B. Y.; Pan, Y. P.; Gunasekaran, K.; Keskin, O.; Venkataraghavan, R. B.; Levine, A. J.; Nussinov, R.
  3. Physical Biology. 2005, JUN; 2(2): S56-S66.
  1. 21.   Ty1 copy number dynamics in Saccharomyces
  2. Garfinkel, D. J.; Nyswaner, K. M.; Stefanisko, K. M.; Chang, C.; Moore, S. P.
  3. Genetics. 2005, APR; 169(4): 1845-1857.
  1. 22.   DLC-1, a Rho GTPase-activating protein with tumor suppressor function, is essential for embryonic development
  2. Durkin, M. E.; Avner, M. R.; Huh, C. G.; Yuan, B. Z.; Thorgeirsson, S. S.; Popescu, N. C.
  3. Febs Letters. 2005, FEB 14; 579(5): 1191-1196.
  1. 23.   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. 24.   In vivo recombineering of bacteriophage lambda by PCR fragments and single-strand oligonucleotides
  2. Oppenheim, A. B.; Rattray, A. J.; Bubunenko, M.; Thomason, L. C.; Court, D. L.
  3. Virology. 2004 319(2): 185-189.
  1. 25.   The Rad27 (Fen-1) nuclease inhibits Ty1 mobility in Saccharomyces cerevisiae
  2. Sundararajan, A.; Lee, B. S.; Garfinkel, D. J.
  3. Genetics. 2003 163(1): 55-67.
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