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  1. 1.   Exploiting embryonic niche conditions to grow Wilms tumor blastema in culture
  2. Wojcik, Heather M; Lovvorn, Harold N; Hollingshead,Melinda; Pierce, Janene; Stotler,Howard; Murphy, Andrew J; Borgel,Suzanne; Phelps, Hannah M; Correa, Hernan; Perantoni,Alan
  3. Frontiers in Oncology. 2023, Mar 16; 13: 1091274.
  1. 2.   Hepatic leukemia factor-expressing paraxial mesoderm cells contribute to the developing brain vasculature
  2. Koui, Yuta; Ideue, Takako; Boylan,Michael; Anderson,Matthew; Osato, Motomi; Suda, Toshio; Yokomizo, Tomomasa; Mukouyama, Yoh-Suke
  3. Biology Open. 2022, Sep 15; 11(9):
  1. 3.   STAT1 activation regulates proliferation and differentiation of renal progenitors
  2. Wang, H.; Yang, Y.; Sharma, N.; Tarasova, N. I.; Timofeeva, O. A.; Winkler-Pickett, R. T.; Tanigawa, S.; Perantoni, A. O.
  3. Cellular Signalling. 2010, Nov; 22(11): 1717-1726.
  1. 4.   Midline signaling regulates kidney positioning but not nephrogenesis through Shh
  2. Tripathi, P.; Guo, Q. S.; Wang, Y. Q.; Coussens, M.; Liapis, H.; Jain, S.; Kuehn, M. R.; Capecchi, M. R.; Chen, F.
  3. Developmental Biology. 2010, Apr; 340(2): 518-527.
  1. 5.   Inheritance of susceptibility to induction of nephroblastomas in the Noble rat
  2. Diwan, B. A.; Timofeeva, O.; Rice, J. M.; Yang, Y. L.; Sharma, N.; Fortini, M. E.; Wang, H. H.; Perantoni, A. O.
  3. Differentiation. 2009, Apr; 77(4): 424-432.
  1. 6.   Lessons learned about adult kidney stem cells from the malpighian tubules of Drosophila
  2. Singh, S. R.; Hou, S. X.
  3. Journal of the American Society of Nephrology. 2008 19(4): 660-666.
  1. 7.   Cited1 and cited2 are differentially expressed in the developing kidney but are not required for nephrogenesis
  2. Boyle, S.; Shioda, T.; Perantoni, A. O.; de Caestecker, M.
  3. Developmental Dynamics. 2007, Aug; 236(8): 2321-2330.
  1. 8.   CITED1 expression in Wilms' tumor and embryonic kidney
  2. Lovvorn, H. N.; Westrup, J.; Opperman, S.; Boyle, S.; Shi, G.; Anderson, J.; Perlman, E. J.; Perantoni, A. O.; Wills, M.; de Caestecker, M.
  3. Neoplasia. 2007, Jul; 9(7): 589-600.
  1. 9.   pygopus 2 has a crucial, Wnt pathway-independent function in lens induction
  2. Song, N.; Schwab, K. R.; Patterson, L. T.; Yamaguchi, T.; Lin, X. H.; Potter, S. S.; Lang, R. A.
  3. Development. 2007, May; 134(10): 1873-1885.
  1. 10.   Wilms' tumorigenesis is altered by misexpression of the transcriptional co-activator, CITED1
  2. Lovvorn, H. N.; Boyle, S.; Shi, G.; Shyr, Y.; Wills, M. L.; Perantoni, A. O.; de Caestecker, M.
  3. Journal of Pediatric Surgery. 2007, Mar; 42(3): 474-481.
  1. 11.   FGFR1 function at the earliest stages of mouse limb development plays an indispensable role in subsequent autopod morphogenesis
  2. Li, C. L.; Xu, X. L.; Nelson, D. K.; Williams, T.; Kuehn, M. R.; Deng, C. X.
  3. Development. 2005, NOV; 132(21): 4755-4764.
  1. 12.   Conditional inactivation of Fgfr1 in mouse defines its role in limb bud establishment, outgrowth and digit patterning
  2. Verheyden, J. M.; Lewandoski, M.; Deng, C. X.; Harfe, B. D.; Sun, X.
  3. Development. 2005, OCT; 132(19): 4235-4245.
  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.   Cited1 is a bifunctional transcriptional cofactor that regulates early nephronic patterning
  2. Plisov, S.; Tsang, M.; Shi, G. B.; Boyle, S.; Yoshino, K.; Dunwoodie, S. L.; Dawid, I. B.; Shioda, T.; Perantoni, A. O.; de Caestecker, M. P.
  3. Journal of the American Society of Nephrology. 2005, JUN; 16(6): 1632-1644.
  1. 15.   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. 16.   Renal development: perspectives on a Wnt-dependent process
  2. Perantoni, A. O.
  3. Seminars in Cell & Developmental Biology. 2003 14(4): 201-208.
  1. 17.   TGF beta 2, LIF and FGF2 cooperate to induce nephrogenesis
  2. Plisov, S. Y.; Yoshino, K.; Dove, L. F.; Higinbotham, K. G.; Rubin, J. S.; Perantoni, A. O.
  3. Development. 2001 128(7): 1045-1057.
  1. 18.   Secreted Frizzled-related proteins can regulate metanephric development
  2. Yoshino, K.; Rubin, J. S.; Higinbotham, K. G.; Uren, A.; Anest, V.; Plisov, S. Y.; Perantoni, A. O.
  3. Mechanisms of Development. 2001 102(1-2): 45-55.
  1. 19.   Murine homolog of SALL1 is essential for ureteric bud invasion in kidney development
  2. Nishinakamura, R.; Matsumoto, Y.; Nakao, K.; Nakamura, K.; Sato, A.; Copeland, N. G.; Gilbert, D. J.; Jenkins, N. A.; Scully, S.; Lacey, D. L.; Katsuki, M.; Asashima, M.; Yokota, T.
  3. Development. 2001 128(16): 3105-3115.
  1. 20.   Expression Pattern of the Rat Lim-1 Homeobox Gene Suggests a Dual Role During Kidney Development
  2. Karavanov, A. A.; Karavanova, I.; Perantoni, A.; Dawid, I. B.
  3. International Journal of Developmental Biology. 1998 42(1): 61-66.
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