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  1. 1.   Spatial Control of Inducible Cre-Mediated Recombination Using Cyanine Photocages
  2. Gorka, Alexander; Yamamoto, Tsuyoshi; Zhu, Jianjian; Schnermann, Martin
  3. Chembiochem : a European journal of chemical biology. 2018, Jun 18; 19(12): 1239-1243.
  1. 2.   Functional Interplay Between Murine Leukemia Virus Glycogag, Serinc5, and Surface Glycoprotein Governs Virus Entry, with Opposite Effects on Gammaretroviral and Ebolavirus Glycoproteins
  2. Ahi, Yadvinder; Zhang, Shu; Thappeta, Yashna; Denman, Audrey; Feizpour, Amin; Gummuluru, Suryaram; Reinhard, Bjoern; Muriaux, Delphine; Fivash, Matt; Rein, Alan
  3. MBIO. 2016, Nov 22; 7(6): e01985.
  1. 3.   Cre-mediated recombination can induce apoptosis in vivo by activating the p53 DNA damage-induced pathway
  2. Zhu, J. J.; Nguyen, M. T.; Nakamura, E.; Yang, J. M.; Mackem, S.
  3. Genesis. 2012, Feb; 50(2): 102-111.
  1. 4.   Protein delivery using engineered virus-like particles
  2. Kaczmarczyk, S. J.; Sitaraman, K.; Young, H. A.; Hughes, S. H.; Chatterjee, D. K.
  3. Proceedings of the National Academy of Sciences of the United States of America. 2011, Oct; 108(41): 16998-17003.
  1. 5.   Analysis of Mutants With Altered Shh Activity and Posterior Digit Loss Supports a Biphasic Model for Shh Function as a Morphogen and Mitogen
  2. Zhu, J. J.; Mackem, S.
  3. Developmental Dynamics. 2011, May; 240(5): 1303-1310.
  1. 6.   Targeted JAM-C deletion in germ cells by Spo11-controlled Cre recombinase
  2. Pellegrini, M.; Claps, G.; Orlova, V. V.; Barrios, F.; Dolci, S.; Geremia, R.; Rossi, P.; Rossi, G.; Arnold, B.; Chavakis, T.; Feigenbaum, L.; Sharan, S. K.; Nussenzweig, A.
  3. Journal of Cell Science. 2011, Jan; 124(1): 91-99.
  1. 7.   Tus, an E. coli Protein, Contains Mammalian Nuclear Targeting and Exporting Signals
  2. Kaczmarczyk, S. J.; Sitaraman, K.; Hill, T.; Hartley, J. L.; Chatterjee, D. K.
  3. Plos One. 2010, Jan; 5(1): 8.
  1. 8.   Vorinostat Inhibits Brain Metastatic Colonization in a Model of Triple-Negative Breast Cancer and Induces DNA Double-Strand Breaks
  2. Palmieri, D.; Lockman, P. R.; Thomas, F. C.; Hua, E.; Herring, J.; Hargrave, E.; Johnson, M.; Flores, N.; Qian, Y. Z.; Vega-Valle, E.; Taskar, K. S.; Rudraraju, V.; Mittapalli, R. K.; Gaasch, J. A.; Bohn, K. A.; Thorsheim, H. R.; Liewehr, D. J.
  3. Clinical Cancer Research. 2009 15(19): 6148-6157.
  1. 9.   Correlation between recombinase activating gene 1 ubiquitin ligase activity and V(D)J recombination
  2. Simkus, C.; Bhattacharyya, A.; Zhou, M.; Veenstra, T. D.; Jones, J. M.
  3. Immunology. 2009 128(2): 206-217.
  1. 10.   Broad Mesodermal and Endodermal Deletion of Nodal at Postgastrulation Stages Results Solely in Left/Right Axial Defects
  2. Kumar, A.; Lualdi, M.; Lewandoski, M.; Kuehn, M. R.
  3. Developmental Dynamics. 2008 237(12): 3591-3601.
  1. 11.   Comparative analysis of tandem T7-like promoter containing regions in enterobacterial genomes reveals a novel group of genetic islands
  2. Chen, Z. H.; Schneider, T. D.
  3. Nucleic Acids Research. 2006 34(4): 1133-1147.
  1. 12.   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. 13.   Inactivation of FGF8 in early mesoderm reveals an essential role in kidney development
  2. Perantoni, A. O.; Timofeeva, O.; Naillat, F.; Richman, C.; Pajni-Underwood, S.; Wilson, C.; Vainio, S.; Dove, L. F.; Lewandoski, M.
  3. Development. 2005, SEP; 132(17): 3859-3871.
  1. 14.   Conditional alleles for activation and inactivation of the mouse Rx homeobox gene
  2. Voronina, V. A.; Kozlov, S.; Mathers, P. H.; Lewandoski, M.
  3. Genesis. 2005, APR; 41(4): 160-164.
  1. 15.   Highly restricted expression cerebellar Purkinje cells
  2. Zhang, X. M.; Ng, A. H. L.; Tanner, J. A.; Wu, W. T.; Copeland, N. G.; Jenkins, N. A.; Huang, J. D.
  3. Genesis. 2004, SEP; 40(1): 45-51.
  1. 16.   Specific excision of the selenocysteine tRNA([Ser]Sec) (Trsp) gene in mouse liver demonstrates an essential role of selenoproteins in liver function
  2. Carlson, B. A.; Novoselov, S. V.; Kumaraswamy, E.; Lee, B. J.; Anver, M. R.; Gladyshev, V. N.; Hatfield, D. L.
  3. Journal of Biological Chemistry. 2004 279(9): 8011-8017.
  1. 17.   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. 18.   Brain-derived neurotrophic factor is essential for opiate- induced plasticity of noradrenergic neurons
  2. Akbarian, S.; Rios, M.; Liu, R. J.; Gold, S. J.; Fong, H. F.; Zeiler, S.; Coppola, V.; Tessarollo, L.; Jones, K. R.; Nestler, E. J.; Aghajanian, G. K.; Jaenisch, R.
  3. Journal of Neuroscience. 2002 22(10): 4153-4162.
  1. 19.   Neurotrophin-3 modulates noradrenergic neuron function and opiate withdrawal
  2. Akbarian, S.; Bates, B.; Liu, R. J.; Skirboll, S. L.; Pejchal, T.; Coppola, V.; Sun, L. D.; Fan, G.; Kucera, J.; Wilson, M. A.; Tessarollo, L.; Kosofsky, B. E.; Taylor, J. R.; Bothwell, M.; Nestler, E. J.; Aghajanian, G. K.; Jaenisch, R.
  3. Molecular Psychiatry. 2001 6(5): 593-604.
  1. 20.   Disruption of the C/Ebp-Alpha Gene in Adult Mouse Liver
  2. Lee, Y. H.; Sauer, B.; Johnson, P. F.; Gonzalez, F. J.
  3. Molecular and Cellular Biology. 1997 17(10): 6014-6022.
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