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  1. 1.   Age-associated changes in lineage composition of the enteric nervous system regulate gut health and disease
  2. Kulkarni, Subhash; Saha, Monalee; Slosberg, Jared; Singh, Alpana; Nagaraj, Sushma; Becker, Laren; Zhang, Chengxiu; Bukowski, Alicia; Wang, Zhuolun; Liu, Guosheng; Leser, Jenna M; Kumar, Mithra; Bakhshi, Shriya; Anderson,Matthew; Lewandoski,Mark; Vincent, Elizabeth; Goff, Loyal A; Pasricha, Pankaj Jay
  3. eLife. 2023, Dec 18; 12
  1. 2.   Protein/peptide transduction in metanephric explant culture
  2. Plisov, S.; Wang, H.; Tarasova, N.; Sharma, N.; Perantoni, A. O.
  3. Methods in molecular biology (Clifton, N.J.). 2014 1092: 255-67.
  1. 3.   FGF8 is essential for formation of the ductal system in the male reproductive tract
  2. Kitagaki, J.; Ueda, Y.; Chi, X.; Sharma, N.; Elder, C. M.; Truffer, E.; Costantini, F.; Lewandoski, M.; Perantoni, A. O.
  3. Development. 2011, Dec; 138(24): 5369-5378.
  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.   The microRNA-processing enzyme Dicer is dispensable for somite segmentation but essential for limb bud positioning
  2. Zhang, Z.; O'Rourke, J. R.; McManus, M. T.; Lewandoski, M.; Harfe, B. D.; Sun, X.
  3. Developmental Biology. 2011, Mar; 351(2): 254-265.
  1. 6.   FGF4 and FGF8 comprise the wavefront activity that controls somitogenesis
  2. Naiche, L. A.; Holder, N.; Lewandoski, M.
  3. Proceedings of the National Academy of Sciences of the United States of America. 2011, Mar; 108(10): 4018-4023.
  1. 7.   Pitx2 is an upstream activator of extraocular myogenesis and survival
  2. Zacharias, A. L.; Lewandoski, M.; Rudnicki, M. A.; Gage, P. J.
  3. Developmental Biology. 2011, Jan; 349(2): 395-405.
  1. 8.   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. 9.   A beta-catenin gradient links the clock and wavefront systems in mouse embryo segmentation
  2. Aulehla, A.; Wiegraebe, W.; Baubet, V.; Wahl, M. B.; Deng, C. X.; Taketo, M.; Lewandoski, M.; Pourquie, O.
  3. Nature Cell Biology. 2008 10(2): 186-193.
  1. 10.   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. 11.   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. 12.   FGF signaling acts upstream of the NOTCH and WNT signaling pathways to control segmentation clock oscillations in mouse somitogenesis
  2. Wahl, M. B.; Deng, C.; Lewandoski, M.; Pourquie, O.
  3. Development. 2007, Nov; 134(22): 4033-4041.
  1. 13.   Mouse Ripply2 is downstream of Wnt3a and is dynamically expressed during somitogenesis
  2. Biris, K. K.; Dunty, W. C.; Yamaguchi, T. P.
  3. Developmental Dynamics. 2007, Nov; 236(11): 3167-3172.
  1. 14.   Expression of the transcription factor cKrox in peripheral CD8 T cells reveals substantial postthymic plasticity in CD4-CD8 lineage differentiation
  2. Jenkinson, S. R.; Intlekofer, A. M.; Sun, G.; Feigenbaum, L.; Reiner, S. L.; Bosselut, R.
  3. Journal of Experimental Medicine. 2007, Feb; 204(2): 267-272.
  1. 15.   Oncogenic Met receptor induces ectopic structures in Xenopus embryos
  2. Ishimura, A.; Lee, H. S.; Bong, Y. S.; Saucier, C.; Mood, K.; Park, E.; Daar, I. O.
  3. Oncogene. 2006, Jul; 25(31): 4286-4299.
  1. 16.   Wnt3a links left-right determination with segmentation and anteroposterior axis elongation
  2. Nakaya, M. A.; Biris, K.; Tsukiyama, T.; Jaime, S.; Rawls, J. A.; Yamaguchi, T. P.
  3. Development. 2005, DEC; 132(24): 5425-5436.
  1. 17.   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. 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.   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. 20.   Ectopic EphA4 receptor induces posterior protrusions via FGF signaling in Xenopus embryos
  2. Park, E. K.; Warner, N.; Bong, Y. S.; Stapleton, D.; Maeda, R.; Pawson, T.; Daar, I. O.
  3. Molecular Biology of the Cell. 2004 15(4): 1647-1655.
  1. 21.   Renal development: perspectives on a Wnt-dependent process
  2. Perantoni, A. O.
  3. Seminars in Cell & Developmental Biology. 2003 14(4): 201-208.
  1. 22.   Common and distinct signals specify the distribution of blood and vascular cell lineages in Xenopus laevis embryos
  2. Iraha, F.; Saito, Y.; Yoshida, K.; Kawakami, M.; Izutsu, Y.; Daar, I. O.; Maeno, M.
  3. Development Growth & Differentiation. 2002 44(5): 395-407.
  1. 23.   SNT1/FRS2 mediates germinal vesicle breakdown induced by an activated FGF receptor1 in Xenopus oocytes
  2. Mood, K.; Friesel, R.; Daar, I. O.
  3. Journal of Biological Chemistry. 2002 277(36): 33196-33204.
  1. 24.   Docking protein SNT1 is a critical mediator of fibroblast growth factor signaling during Xenopus embryonic development
  2. Akagi, K.; Park, E. K.; Mood, K.; Daar, I. O.
  3. Developmental Dynamics. 2002 223(2): 216-228.
  1. 25.   Low-molecular-weight protein tyrosine phosphatase is a positive component of the fibroblast growth factor receptor signaling pathway
  2. Park, E. K.; Warner, N.; Mood, K.; Pawson, T.; Daar, I. O.
  3. Molecular and Cellular Biology. 2002 22(10): 3404-3414.
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