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  1. 1.   Mice lacking Wnt2b are viable and display a postnatal olfactory bulb phenotype
  2. Tsukiyama, T.; Yamaguchi, T. P.
  3. Neuroscience Letters. 2012, Mar; 512(1): 48-52.
  1. 2.   Eph/ephrin signaling in cell-cell and cell-substrate adhesion
  2. Singh, A.; Winterbottom, E.; Daar, I. O.
  3. Frontiers in Bioscience-Landmark. 2012, Jan; 17: 473-497.
  1. 3.   Identity and Fate of Tbx4-Expressing Cells Reveal Developmental Cell Fate Decisions in the Allantois, Limb, and External Genitalia
  2. Naiche, L. A.; Arora, R.; Kania, A.; Lewandoski, M.; Papaioannou, V. E.
  3. Developmental Dynamics. 2011, Oct; 240(10): 2290-2300.
  1. 4.   The Wnt3a/beta-catenin target gene Mesogenin1 controls the segmentation clock by activating a Notch signalling program
  2. Chalamalasetty, R. B.; Dunty, W. C.; Biris, K. K.; Ajima, R.; Iacovino, M.; Beisaw, A.; Feigenbaum, L.; Chapman, D. L.; Yoon, J. K.; Kyba, M.; Yamaguchi, T. P.
  3. Nature Communications. 2011, Jul; 2: 12.
  1. 5.   A genomewide study identifies the Wnt signaling pathway as a major target of p53 in murine embryonic stem cells
  2. Lee, K. H.; Li, M. M.; Michalowski, A. M.; Zhang, X. Y.; Liao, H. L.; Chen, L. Y.; Xu, Y.; Wu, X. L.; Huang, J.
  3. Proceedings of the National Academy of Sciences of the United States of America. 2010, Jan; 107(1): 69-74.
  1. 6.   Wnt5a is essential for intestinal elongation in mice
  2. Cervantes, S.; Yamaguchi, T. P.; Hebrok, M.
  3. Developmental Biology. 2009 326(2): 285-294.
  1. 7.   Fibroblast Growth Factor Receptor-induced Phosphorylation of EphrinB1 Modulates Its Interaction with Dishevelled
  2. Lee, H. S.; Mood, K.; Battu, G.; Ji, Y. J.; Singh, A.; Daar, I. O.
  3. Molecular Biology of the Cell. 2009 20(1): 124-133.
  1. 8.   Telomerase modulates Wnt signalling by association with target gene chromatin
  2. Park, J. I.; Venteicher, A. S.; Hong, J. Y.; Choi, J.; Jun, S.; Shkreli, M.; Chang, W.; Meng, Z. J.; Cheung, P.; Ji, H.; McLaughlin, M.; Veenstra, T. D.; Nusse, R.; McCrea, P. D.; Art, i
  3. Nature. 2009 460(7251): 66-U77.
  1. 9.   Wnt3a/beta-catenin signaling controls posterior body development by coordinating mesoderm formation and segmentation
  2. Dunty, W. C.; Biris, K. K.; Chalamalasetty, R. B.; Taketo, M. M.; Lewandoski, M.; Yamaguchi, T. P.
  3. Development. 2008 135(1): 85-94.
  1. 10.   EphrinB1 controls cell-cell junctions through the Par polarity complex
  2. Lee, H. S.; Nishanian, T. G.; Mood, K.; Bong, Y. S.; Daar, I. O.
  3. Nature Cell Biology. 2008 10(8): 979-986.
  1. 11.   EphrinB1 signals from the cell surface to the nucleus by recruitment of STAT3
  2. Bong, Y. S.; Lee, H. S.; Carim-Todd, L.; Mood, K.; Nishanian, T. G.; Tessarollo, L.; Daar, I. O.
  3. Proceedings of the National Academy of Sciences of the United States of America. 2007, Oct; 104(44): 17305-17310.
  1. 12.   Global gene expression profiling reveals similarities and differences among mouse pluripotent stem cells of different origins and strains
  2. Sharova, L. V.; Sharov, A. A.; Piao, Y.; Shaik, N.; Sullivan, T.; Stewart, C. L.; Hogan, B. L. M.; Ko, M. S. H.
  3. Developmental Biology. 2007, Jul; 307(2): 446-459.
  1. 13.   The chemical defensome: Environmental sensing and response genes in the Strongylocentrotus purpuratus genome
  2. Goldstone, J. V.; Hamdoun, A.; Cole, B. J.; Howard-Ashby, M.; Nebert, D. W.; Scally, M.; Dean, M.; Epel, D.; Hahn, M. E.; Stegeman, J. J.
  3. Developmental Biology. 2006, Dec; 300(1): 366-384.
  1. 14.   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. 15.   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. 16.   Lsh controls silencing of the imprinted Cdkn1c gene
  2. Fan, T.; Hagan, J. P.; Kozlov, S. V.; Stewart, C. L.; Muegge, K.
  3. Development. 2005, FEB; 132(4): 635-644.
  1. 17.   Profiling gene expression in growth-arrested mouse embryos in diapause
  2. Hondo, E.; Stewart, C. L.
  3. Genome Biology. 2005 6(1):
  1. 18.   Transcriptional regulation of Zic3 by heterodimeric AP-1(c-Jun/c-Fos) during Xenopus development
  2. Lee, S. Y.; Lee, F. S.; Moon, J. S.; Kim, J. I.; Park, J. B.; Lee, J. Y.; Park, M. J.; Kim, J.
  3. Experimental and Molecular Medicine. 2004, OCT 31; 36(5): 468-475.
  1. 19.   Canonical WNT signaling promotes mammary placode development and is essential for initiation of mammary gland morphogenesis
  2. Chu, E. Y.; Hens, J.; Andl, T.; Kairo, A.; Yamaguchi, T. P.; Brisken, C.; Glick, A.; Wysolmerski, J. J.; Millar, S. E.
  3. Development. 2004, OCT; 131(19): 4819-4829.
  1. 20.   Ceramidase regulates synaptic vesicle exocytosis and trafficking
  2. Rohrbough, J.; Rushton, E.; Palanker, L.; Woodruff, E.; Matthies, H. J. G.; Acharya, U.; Acharya, J. K.; Broadie, K.
  3. Journal of Neuroscience. 2004, SEP 8; 24(36): 7789-7803.
  1. 21.   Structure of bryostatin 20: A symbiont-produced chemical Defense for larvae of the host bryozoan, Bugula neritina
  2. Lopanik, N.; Gustafson, K. R.; Lindquist, N.
  3. Journal of Natural Products. 2004, AUG; 67(8): 1412-1414.
  1. 22.   Tyr-298 in ephrinB1 is critical for an interaction with the Grb4 adaptor protein
  2. Bong, Y. S.; Park, Y. H.; Lee, H. S.; Mood, K.; Ishimura, A.; Daar, I. O.
  3. Biochemical Journal. 2004 377(Part 2): 499-507.
  1. 23.   Inhibition of FGF signaling causes expansion of the endoderm in Xenopus
  2. Cha, S. W.; Hwang, Y. S.; Chae, J. P.; Lee, S. Y.; Lee, H. S.; Daar, I.; Park, M. J.; Kim, J.
  3. Biochemical and Biophysical Research Communications. 2004 315(1): 100-106.
  1. 24.   Hematopoietic, angiogenic and eye defects in Meis1 mutant animals
  2. Hisa, T.; Spence, S. E.; Rachel, R. A.; Fujita, M.; Nakamura, T.; Ward, J. M.; Devor-Henneman, D. E.; Saiki, Y.; Kutsuna, H.; Tessarollo, L.; Jenkins, N. A.; Copeland, N. G.
  3. Embo Journal. 2004 23(2): 450-459.
  1. 25.   Menin associates with a trithorax family histone methyltransferase complex and with the Hoxc8 locus
  2. Hughes, C. M.; Rozenblatt-Rosen, O.; Milne, T. A.; Copeland, T. D.; Levine, S. S.; Lee, J. C.; Hayes, D. N.; Shanmugam, K. S.; Bhattacharjee, A.; Biondi, C. A.; Kay, G. F.; Hayward, N. K.; Hess, J. L.; Meyerson, M.
  3. Molecular Cell. 2004 13(4): 587-597.
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