Reference List
1. Moll R, Franke WW, Schiller DL et al. The catalog of human cytokeratins:
patterns of expression in normal epithelia, tumors and cultured cells. Cell 1982;
31:11-24.
2. Hollenberg SM, Sternglanz R, Cheng PF et al. Identification of a new family of tissue-specific basic helix-loop- helix proteins with a two-hybrid system.
Mol.Cell Biol. 1995; 15:3813-22.
3. Quinlan RA, Schiller DL, Hatzfeld M et al. Patterns of expression and organization of cytokeratin intermediate filaments. Ann.N.Y.Acad.Sci. 1985;
455:282-306.
4. Steinert PM, Roop DR. Molecular and cellular biology of intermediate filaments.
Annu.Rev.Biochem. 1988; 57:593-625.
5. Cooper D, Sun TT. Monoclonal antibody analysis of bovine epithelial keratins.
Specific pairs as defined by coexpression. J.Biol.Chem. 1986; 261:4646-54.
6. Wu RL, Galvin S, Wu SK et al. A 300 bp 5'-upstream sequence of a
differentiation-dependent rabbit K3 keratin gene can serve as a keratinocyte-specific promoter. J.Cell Sci. 1993; 105 ( Pt 2):303-16.
7. Chaloin-Dufau C, Sun TT, Dhouailly D. Appearance of the keratin pair K3/K12 during embryonic and adult corneal epithelial differentiation in the chick and in the rabbit. Cell Differ.Dev. 1990; 32:97-108.
8. Cooper D, Schermer A, Sun TT. Classification of human epithelia and their neoplasms using monoclonal antibodies to keratins: strategies, applications, and limitations. Lab Invest 1985; 52:243-56.
9. Kao WW, Liu CY, Converse RL et al. Keratin 12-deficient mice have fragile corneal epithelia. Invest Ophthalmol.Vis.Sci. 1996; 37:2572-84.
10. Irvine AD, Corden LD, Swensson O et al. Mutations in cornea-specific keratin K3 or K12 genes cause Meesmann's corneal dystrophy. Nat.Genet. 1997;
16:184-87.
11. Wei ZG, Wu RL, Lavker RM et al. In vitro growth and differentiation of rabbit bulbar, fornix, and palpebral conjunctival epithelia. Implications on conjunctival epithelial transdifferentiation and stem cells. Invest Ophthalmol.Vis.Sci. 1993;
34:1814-28.
12. Liu JJ, Kao WW, Wilson SE. Corneal epithelium-specific mouse keratin K12 promoter. Exp.Eye Res. 1999; 68:295-301.
13. Zhu G, Ishizaki M, Haseba T et al. Expression of K12 keratin in alkali-burned rabbit corneas. Curr.Eye Res. 1992; 11:875-87.
14. Liu CY, Zhu G, Converse R et al. Characterization and chromosomal localization of the cornea-specific murine keratin gene Krt1.12. J.Biol.Chem. 1994;
269:24627-36.
15. Chen WY, Mui MM, Kao WW et al. Conjunctival epithelial cells do not
transdifferentiate in organotypic cultures: expression of K12 keratin is restricted to corneal epithelium. Curr.Eye Res. 1994; 13:765-78.
16. Wu RL, Zhu G, Galvin S et al. Lineage-specific and differentiation-dependent expression of K12 keratin in rabbit corneal/limbal epithelial cells: cDNA cloning and northern blot analysis. Differentiation 1994; 55:137-44.
17. Moyer PD, Kaufman AH, Zhang Z et al. Conjunctival epithelial cells can
resurface denuded cornea, but do not transdifferentiate to express cornea-specific keratin 12 following removal of limbal epithelium in mouse. Differentiation 1996;
60:31-38.
18. Fuchs E. Epidermal differentiation: the bare essentials. J.Cell Biol. 1990;
111:2807-14.
19. Rice RH, Green H. The cornified envelope of terminally differentiated human epidermal keratinocytes consists of cross-linked protein. Cell 1977; 11:417-22.
20. Stoler A, Kopan R, Duvic M et al. Use of monospecific antisera and cRNA probes to localize the major changes in keratin expression during normal and abnormal epidermal differentiation. J.Cell Biol. 1988; 107:427-46.
21. Eckert RL, Welter JF. Transcription factor regulation of epidermal keratinocyte gene expression. Mol.Biol.Rep. 1996; 23:59-70.
22. Eckert RL, Crish JF, Banks EB et al. The epidermis: genes on - genes off. J.Invest Dermatol. 1997; 109:501-09.
23. Schermer A, Galvin S, Sun TT. Differentiation-related expression of a major 64K corneal keratin in vivo and in culture suggests limbal location of corneal epithelial stem cells. J.Cell Biol. 1986; 103:49-62.
24. Sun TT, Tseng SC, Huang AJ et al. Monoclonal antibody studies of mammalian epithelial keratins: a review. Ann.N.Y.Acad.Sci. 1985; 455:307-29.
25. Schermer A, Jester JV, Hardy C et al. Transient synthesis of K6 and K16 keratins in regenerating rabbit corneal epithelium: keratin markers for an alternative pathway of keratinocyte differentiation. Differentiation 1989; 42:103-10.
26. Weiss RA, Eichner R, Sun TT. Monoclonal antibody analysis of keratin expression in epidermal diseases: a 48- and 56-kdalton keratin as molecular markers for hyperproliferative keratinocytes. J.Cell Biol. 1984; 98:1397-406.
27. Leask A, Byrne C, Fuchs E. Transcription factor AP2 and its role in epidermal-specific gene expression. Proc.Natl.Acad.Sci.U.S.A 1991; 88:7948-52.
28. Leask A, Rosenberg M, Vassar R et al. Regulation of a human epidermal keratin gene: sequences and nuclear factors involved in keratinocyte-specific
transcription. Genes Dev. 1990; 4:1985-98.
29. Byrne C, Fuchs E. Probing keratinocyte and differentiation specificity of the human K5 promoter in vitro and in transgenic mice. Mol.Cell Biol. 1993;
13:3176-90.
30. Shiraishi A, Converse RL, Liu CY et al. Identification of the cornea-specific keratin 12 promoter by in vivo particle-mediated gene transfer. Invest Ophthalmol.Vis.Sci. 1998; 39:2554-61.
31. Andrews NC, Faller DV. A rapid micropreparation technique for extraction of DNA-binding proteins from limiting numbers of mammalian cells. Nucleic Acids Res. 1991; 19:2499.
32. Morris TA, Fong WB, Ward MJ et al. Localization of upstream silencer elements involved in the expression of cone transducin alpha-subunit (GNAT2). Invest Ophthalmol.Vis.Sci. 1997; 38:196-206.
33. Oshima RG, Abrams L, Kulesh D. Activation of an intron enhancer within the keratin 18 gene by expression of c-fos and c-jun in undifferentiated F9 embryonal carcinoma cells. Genes Dev. 1990; 4:835-48.
34. Takemoto Y, Fujimura Y, Matsumoto M et al. The promoter of the endo A cytokeratin gene is activated by a 3' downstream enhancer. Nucleic Acids Res.
1991; 19:2761-65.
35. Tamai Y, Takemoto Y, Matsumoto M et al. Sequence of EndoA gene encoding mouse cytokeratin and its methylation state in the CpG-rich region. Gene 1991;
104:169-76.
36. Casatorres J, Navarro JM, Blessing M et al. Analysis of the control of expression and tissue specificity of the keratin 5 gene, characteristic of basal keratinocytes.
Fundamental role of an AP-1 element. J.Biol.Chem. 1994; 269:20489-96.
37. Lu B, Rothnagel JA, Longley MA et al. Differentiation-specific expression of human keratin 1 is mediated by a composite AP-1/steroid hormone element.
J.Biol.Chem. 1994; 269:7443-49.
38. Pulverer BJ, Kyriakis JM, Avruch J et al. Phosphorylation of c-jun mediated by MAP kinases. Nature 1991; 353:670-74.
39. Boyle WJ, Smeal T, Defize LH et al. Activation of protein kinase C decreases phosphorylation of c-Jun at sites that negatively regulate its DNA-binding activity. Cell 1991; 64:573-84.
40. Su B, Jacinto E, Hibi M et al. JNK is involved in signal integration during costimulation of T lymphocytes. Cell 1994; 77:727-36.
41. Gille H, Sharrocks AD, Shaw PE. Phosphorylation of transcription factor
p62TCF by MAP kinase stimulates ternary complex formation at c-fos promoter.
Nature 1992; 358:414-17.
42. Marais R, Wynne J, Treisman R. The SRF accessory protein Elk-1 contains a growth factor-regulated transcriptional activation domain. Cell 1993; 73:381-93.
43. Grindley JC, Davidson DR, Hill RE. The role of Pax-6 in eye and nasal development. Development 1995; 121:1433-42.
44. Cvekl A, Kashanchi F, Sax CM et al. Transcriptional regulation of the mouse alpha A-crystallin gene: activation dependent on a cyclic AMP-responsive element (DE1/CRE) and a Pax-6-binding site. Mol.Cell Biol. 1995; 15:653-60.
45. Gopal-Srivastava R, Cvekl A, Piatigorsky J. Pax-6 and alphaB-crystallin/small heat shock protein gene regulation in the murine lens. Interaction with the lens-specific regions, LSR1 and LSR2. J.Biol.Chem. 1996; 271:23029-36.
46. Koroma BM, Yang JM, Sundin OH. The Pax-6 homeobox gene is expressed throughout the corneal and conjunctival epithelia. Invest Ophthalmol.Vis.Sci.
1997; 38:108-20.