publications

Simon, A.M., D.A. Goodenough, and D.L. Paul 1998. Mice lacking connexin40 have cardiac conduction abnormalities characteristic of atrioventricular block and bundle branch block. Curr. Biol 8:295-298

Merzdorf, C., Chen,Y.-h. and D.A. Goodenough 1998. Formation of functional tight junctions in Xenopus embryos. Dev.Biol. 195:187-203

White, T.W., D.A. Goodenough and D.L. Paul 1998. Targeted disruption of connexin50 in mice results in microphthalmia and zonular pulverulent cataracts. J. Cell Biol. 143:815-825

Chen, Y.-H., Q. Lu, E. E. Schneeberger, and D. A. Goodenough. 2000 Restoration of tight junction structure and barrier function by down-regulation of the mitogen-activated protein kinase pathway in ras-transformed Madin-Darby canine kidney cells. Mol.Biol.Cell 11:849-862

Landesman, D. A. Goodenough, and D. L. Paul. 2000 Gap junctional communication in the early Xenopus embryo . J. Cell Biol. 150:929-936.

Chen, Y.-H., Q. Lu, D.A. Goodenough, and B. Jeansonne 2002 Non-receptor tyrosine kinase c-yes interacts with occludin during tight junction formation in canine kidney epithelial cells. Mol. Biol. Cell 13:1227-1237

Deans, M.R., B. Volgyi, D.A. Goodenough, S.A. Bloomfield and D.L. Paul 2002 Connexin36 is essential for transmission of rod-mediated visual signals in the mammalian retina.  Neuron 36:703-712.

Tang, V.T. and D.A. Goodenough 2003 Paracellular ion channel at the tight junction.  Biophys. J. 84:1660-1673

Hou, J., D.L. Paul and D.A. Goodenough 2005 Paracellin-1 and the modulation of ion selectivity of tight junctions.  J. Cell Sci. 118:5109-5118.

Calera, M., H.L. Topley, Y. Liao, B.R. Duling, D.L. Paul and D.A. Goodenough 2006 Connexin43 is required for production of the aqueous humor in the murine eye. J. Cell Sci. 119:4510-4519.  

Hou, J. A.S. Gomes, D.L. Paul and D.A. Goodenough 2006 Study of claudin function by RNA interference J. Biol. Chem. 281:36117-36123.  

Menichella, D.M., M. Majdan, R. Awatramani, D.A. Goodenough, E. Sirkowski, S.S. Scherer, and D.L. Paul 2006 Genetic and physiological evidence that oligodendrocyte gap junctions contribute to spatial buffering of potassium released during neuronal activity. J.Neurosci. 26:10984-10991.

Hou, J., Q. Shan, T. Wang, A.S. Gomes, Q. Yan, D.L. Paul, M. Bleich, and D.A. Goodenough 2007 Transgenic RNAi depletion of claudin-16 and the renal handling of magnesium. J. Biol. Chem. 282:17114-17122

 Hou, J., A. Renigunta, M. Konrad, A.S. Goves, E.E. Schneeberger, D.L. Paul, S. Waldegger and D.A. Goodenough 2008 Claudin-16 and claudin-19 interact and form a cation-selective tight junction complex.  J. Clin. Invest. 188:619-628.