1. C. Cheng, C.H. Xia, L. Li, T.W. White, J. Niimi and X. Gong (2008) Gap junction communication influences intercellular protein distribution in the lens. Exp. Eye Res. 86:966-974

  2. G. Kanaporis, G. Meşe, L. Valiuniene, T.W. White, P.R. Brink and V. Valiunas (2008). Gap junction channels exhibit connexin-specific permeability to cyclic nucleotides. J. Gen. Physiol. 131:293-305

  3. T.W. White, Y. Gao, L. Li, C. Sellitto, and M. Srinivas (2007). Changes in lens epithelial cell proliferation are correlated with changes in gap junctional coupling. Invest. Ophthalmol. Vis. Sci. 48:5630-5637

  4. A.M. DeRosa, C.H. Xia, X. Gong and T.W. White (2007). The cataract inducing Cx50-S50P mutation dominantly alters wild-type lens connexin channel gating. J. Cell Sci. 120:4107-4116

  5. G. Meşe, G. Richard and T.W. White (2007). Gap junctions: basic structure and function. J. Invest. Derm. 127:2516-2524 4.

  6. S.W. Yum, J. Zhang, V. Valiunas, G. Kanaporis, P.R. Brink, T.W. White, and S.S. Scherer (2007). Human connexin26 and connexin30 form functional heteromeric hemichannels and heterotypic channels. Am. J. Physiol. Cell Physiol. 293:C1032-C1048

  7. D.A. Gerido, A.M. DeRosa, G. Richard and T.W. White (2007). Aberrant hemichannel properties of Cx26 mutations causing skin disease and deafness. Am. J. Physiol. Cell Physiol. 293:C337-C345

  8. A.D. Hoptak, K.A. Klein, A.M. DeRosa, T.W. White, and M.K. Iovine (2007). Zebrafish short fin mutations in connexin43 lead to aberrant gap junctional intercellular communication. FEBS Letters 581:3297-3302

  9. A.M. DeRosa, R. Mui, M. Srinivas and T.W. White (2006). Functional characterization of a naturally occurring Cx50 truncation. Invest. Ophthalmol. Vis. Sci. 47:4474-4481

  10. F.J. Martinez-Wittinghan, M. Srinivas, C. Sellitto, T.W. White and R.T. Mathias (2006). Mefloquine effects on the lens suggest cooperative gating of gap junction channels. J. Mem. Biol. 211:163–171

  11. H.-B. Zhao, T. Kikuchi, A. Ngezahayo and T.W. White (2006). Gap junctions and cochlear homeostasis. J. Mem. Biol. 209:177-186    

  12. C.-H. Xia, D. Cheung, A.M. DeRosa, B. Chang, W.-K. Lo, T.W. White and X. Gong (2006).  Knockin a3 (Cx46) connexin prevents severe cataracts caused by an a8 (Cx50)-G22R mutation J. Cell Sci. 119:2136-2144

  13. J.C Hervé, P. Phelan, R. Bruzzone and T.W. White (2005). Connexins, innexins and pannexins: bridging the communication gap. Biochim. Biophys. Acta 1719:3-5

  14. V. Valiunas, R. Mui, E. McLachlan, G. Valdimarsson P.R. Brink and T.W. White (2004).  Biophysical characterization of zebrafish connexin35 hemichannels. Am. J. Physiol. Cell Physiol. 287:1596-1604

  15. T.W. White, H. Wang, R. Mui, J. Litteral and P.R. Brink (2004).  Cloning and functional expression of invertebrate connexins from Halocynthia pyriformis. FEBS Letters 577:42-48

  16. C. Sellitto, L. Li, and T.W. White (2004).  Connexin50 is required for normal postnatal lens cell proliferation. Invest. Ophthalmol. Vis. Sci. 45:3196-3202

  17. G. Meşe, E. Londin, R. Mui, P.R. Brink and T.W. White (2004).  Altered gating properties of functional Cx26 mutants associated with recessive non-syndromic hearing loss. Hum. Genet. 115:191-199

  18. J. Gao, X. Sun, F. Martinez-Wittinghan, X. Gong, T.W. White and R.T. Mathias (2004).  Connections between connexins, calcium and cataracts in the lens. J. Gen. Physiol. 124: 289-300

  19. S. Cheng, T. Shakespeare, R. Mui, T.W. White, and G. Valdimarsson (2004).  Connexin48.5 is required for normal cardiovascular function and visual system development in zebrafish embryos. J. Biol. Chem. 279:36993-37003

  20. J.R. Montgomery, T.W. White, B.L. Martin, M.L. Turner and S.M. Holland (2004).  A novel connexin 26 gene mutation associated with features of the keratitis-ichthyosis-deafness syndrome and the follicular occlusion triad. J. Am. Acad. Dermatol. 51:377-382

  21. F.J. Martinez-Wittinghan, C. Sellitto, T.W. White, R.T. Mathias, D. Paul and D.A. Goodenough (2004).  Lens gap junctional coupling is modulated by connexin identity and the locus of gene expression. Invest. Ophthalmol. Vis. Sci. 45:3629-3637

  22. T.L. Christie, R. Mui, T.W. White and G. Valdimarsson (2004).  Molecular cloning, functional analysis, and RNA expression analysis of connexin45.6: A zebrafish cardiovascular connexin. Am. J. Physiol. Heart Circ. Physiol. 286:H1623-H1632

  23. D.A. Gerido and T.W. White (2004).  Connexin disorders of the ear, skin, and lens. Biochim. Biophys. Acta 1662:159-170

  24. E. McLachlan, T.W. White, C. Ugonabo, C. Olsen, J. Nagy and G. Valdimarsson (2003).  Zebrafish Cx35: Cloning and characterization of a gap junction gene highly expressed in the retina. J. Neurosci. Res. 73:753-764

  25. F.J. Martinez-Wittinghan, C. Sellitto, L. Li, X. Gong, P.R. Brink, R.T. Mathias and T.W. White (2003).  Dominant cataracts result from incongruous mixing of wild-type lens connexins.  J. Cell Biol. 161: 969-978

  26. D.A. Gerido, C. Sellitto, L. Li and T.W. White (2003).  Genetic background influences cataractogenesis, but not lens growth deficiency, in Cx50 knockout mice. Invest. Ophthalmol. Vis. Sci. 44:2669-2674

  27. T.W. White (2003).  Non-redundant gap junction functions. News Physiol Sci. 18:95-99

  28. R. Bruzzone, V. Veronesi, D. Gomès, M. Bicego, N. Duval, S. Marlin, C. Petit, P. D'Andrea and T.W. White (2003).  Loss of function and residual channel activity of connexin26 mutations associated with nonsyndromic deafness. FEBS Letters 533:79-88

  29. T.W. White (2002).  Unique and redundant connexin contributions to lens development. Science 295:319-320

  30. T.W. White, M. Srinivas, H. Ripps, A. Trovato-Salinaro, D.F. Condorelli and R. Bruzzone (2002).  Virtual cloning, functional expression and gating analysis of human connexin31.9. Am. J. Physiol. Cell Physiol. 283:C960-C970

  31. R. Bruzzone, D. Gomès, F. Denoyelle, N. Duval, J. Perea, V. Veronesi, D. Weil, C. Petit, M-M. Gabellec, P. D'Andrea and T.W. White (2001).  Functional analysis of a dominant mutation of human connexin26 associated with nonsyndromic deafness. Cell Commun. Adhes. 8:425-431

  32. N. Belluardo, T.W. White, M. Srinivas, A. Trovato-Salinaro, H. Ripps, G. Mudò, R. Bruzzone and D.F. Condorelli (2001).  Identification and functional expression of HCx31.9, a novel gap junction gene. Cell Commun. Adhes. 8:173-178

  33. T.W. White, C. Sellitto, D.L. Paul and D.A. Goodenough (2001).  Prenatal lens development in connexin43 and connexin50 double knockout mice.  Invest. Ophthalmol. Vis. Sci. 42:2916-2923

  34. F. Rouan, T.W. White, N. Brown, A.M. Taylor, T.W. Lucke, D.L. Paul, C. Munro, J. Uitto, M. Hodgins and G. Richard (2001).  Trans-dominant inhibition of connexin-43 by mutant connexin-26: implications for dominant connexin disorders affecting epidermal differentiation.  J. Cell Sci. 114:2105-2113

  35. N. Cason, T.W. White, S. Cheng, D.A. Goodenough and G. Valdimarsson (2001).  Molecular cloning, expression analysis and functional characterization of connexin44.1: a zebrafish lens gap junction protein.  Dev. Dyn. 221:238-247

  36. T.W. White, and R. Bruzzone (2000).  Gap Junctions:  Fates worse than death?  Curr. Biol. 10:R685-R688

  37. T.W. White, H. Ripps, M. Srinivas and R. Bruzzone (2000).  Voltage gating properties of channels formed by a skate retinal connexin.  Biol. Bull. 199:165-168

  38. T.W. White, and R. Bruzzone (2000).  Intercellular communication in the eye: clarifying the need for connexin diversity.  Brain Res. Rev. 32:130-137

  39. T.W. White (2000).  Functional analysis of human Cx26 mutations associated with deafness.  Brain Res. Rev. 32:181-183

  40. M.R. Al-Ubaidi, T.W. White, H. Ripps, I. Poras, P. Avner, D. Gomès and R. Bruzzone (2000).  Functional properties, developmental regulation and chromosomal localization of murine connexin36, a gap-junctional protein expressed preferentially in retina and brain.  J. Neurosci. Res. 59:813-826

  41. T.W. White and D.L. Paul (1999).  Genetic diseases and gene knockouts reveal diverse connexin functions.  Annu. Rev. Physiol. 61:283-310

  42. T.W. White, M.R. Deans, J. O’Brien, M.R. Al-Ubaidi, D.A. Goodenough, H. Ripps and R. Bruzzone (1999).  Functional characteristics of skate connexin35, a member of the g subfamily of connexins expressed in retinal neurons.  Eur. J. Neurosci. 11:1883-1890

  43. Y. Landesman, T.W. White, T.A. Starich, J.E. Shaw, D.A. Goodenough and D.L. Paul (1999).  The C. elegans innexin-3 forms connexin-like intercellular channels.  J. Cell Sci. 112:2391-2396

  44. T.W. White, D.A. Goodenough and D.L. Paul (1998). Targeted ablation of connexin50 in mice results in microphthalmia and zonular pulverulent cataractsJ. Cell Biol. 143:815-825

  45. T.W. White, M.R. Deans, D.P. Kelsell and D.L. Paul (1998).  Connexin mutations in deafness.  Nature 394:630-631

  46. J. O’Brien, R. Bruzzone, T.W. White, M.R. Al-Ubaidi and H. Ripps (1998).  Cloning and expression of two related connexins from the perch retina defines a distinct subgroup of the connexin family.  J. Neurosci. 18:7625-7637

  47. G. Richard, T.W. White, L.E. Smith, R.A. Bailey, J.G. Compton, D.L. Paul and S. Bale (1998).  Functional defects of Cx26 resulting from a heterozygous missense mutation in a family with dominant deaf-mutism and palmoplantar keratoderma.  Hum. Genet. 103:393-399

  48. T.W. White, and R. Bruzzone (1996).  Multiple connexin proteins in single intercellular channels:  Connexin compatibility and functional consequencesJ. Bioenerg. Biomembr. 28:339-350

  49. R. Bruzzone T.W. White, and D.A. Goodenough (1996).  The cellular internet: online with connexins.  BioEssays 18:709-718

  50. R. Bruzzone, T.W. White and D.L. Paul (1996).  Connections with connexins: The molecular basis of direct intercellular signaling.  Eur. J. Biochem. 238:1-27

  51. J. Goliger, R. Bruzzone, T.W. White and D.L. Paul. (1996).  Dominant inhibition of intercellular communication by two chimeric connexins.  Clin. Exp. Pharm. Physiol.  23:1062-1067.

  52. T.W. White, D.L. Paul, D.A. Goodenough and R. Bruzzone (1995).  Functional analysis of selective interactions among rodent connexins.  Mol. Biol. Cell 6:459-470

  53. T.W. White, R. Bruzzone and D.L. Paul (1995).  The connexin family of intercellular channel forming proteins.  Kidney Int. 48:1148-1157

  54. J.X. Jiang, T.W. White and D.A. Goodenough (1995).  Changes in connexin expression and distribution during chick lens development.  Dev. Biol. 168:649-661

  55. R. Bruzzone, T.W. White, G. Yoshizaki, R. Patiño and D.L. Paul (1995).  Intercellular channels in Teleosts:  Functional characterization of two connexins from Atlantic croaker.  FEBS Letters 358:301-304

  56. T.W. White, R. Bruzzone, D.A. Goodenough and D.L. Paul (1994).  Voltage gating of connexins.  Nature 371:208-209

  57. T.W. White, R. Bruzzone, S. Wolfram, D.L. Paul and D.A. Goodenough (1994).  Selective interactions among the multiple connexin proteins expressed in the vertebrate lens: The second extracellular domain is a determinant of compatibility between connexins.  J. Cell Biol. 125:879-892

  58. R. Bruzzone, T.W. White, S.S. Scherer, K.H. Fischbeck and D.L. Paul (1994).  Null mutations of connexin32 in patients with X-linked Charcot-Marie-Tooth disease.  Neuron 13:1253-1260

  59. J.X. Jiang, T.W. White, D.A. Goodenough and D.L. Paul (1994).  Molecular cloning and functional characterization of chick lens fiber connexin 45.6.  Mol. Biol. Cell 5:363-373

  60. R. Bruzzone, T.W. White and D.L. Paul (1994).  Expression of chimeric connexins reveals new properties of the formation and gating behavior of gap junction channels.  J. Cell Sci. 107:955-967

  61. E.D. Eccleston, T.W. White, J.B. Howard, and D.W. Hamilton (1994).  Characterization of a cell surface glycoprotein associated with maturation of rat spermatozoa.  Mol. Reprod. Dev. 37:110-119

  62. A. Moore, K.M. Ensrud, T.W. White, C.D. Fretham, and D.W. Hamilton (1994).  Rat epididymis-specific sperm maturation antigens. I. Evidence that the 26 kD 4E9 antigen found on rat caudal epididymal sperm tail is derived from a protein secreted by the epididymis.  Mol. Reprod. Dev. 37:181-194

  63. T.W. White, R. Bruzzone, D.A. Goodenough and D.L. Paul (1992).  Mouse Cx50, a functional member of the connexin family of gap junction proteins, is the lens fiber protein MP70.  Mol. Biol. Cell 3:711-720

  64. A. Moore, T.W. White, K.M. Ensrud, and D.W. Hamilton (1989).  The major maturation glycoprotein found on rat cauda epididymal sperm is linked to the membrane via phosphatidylinositol.  Biochem. Biophys. Res. Comm. 160:460-468

 

 

 

 

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