Literature DB >> 19932050

Zebrafish K5 promoter driven GFP expression as a transgenic system for oral research.

Bo Hu1, Chengjin Zhang, Kouwendy Baawo, Rong Qin, Gregory J Cole, Ju-Ahng Lee, Xiaoxin Chen.   

Abstract

The zebrafish has become a useful model organism for research on development and diseases. However, there has been no zebrafish model system for studying oral carcinogenesis. In the present study, we first characterized the histology of the upper gastrointestinal tract of zebrafish. We found that zebrafish tongue was covered by a non-keratinized stratified squamous epithelium, which was similar to the oro-esophageal epithelium in humans. In situ hybridization showed that keratin 5, a marker of the basal cell layer of mammalian oral epithelium, was expressed in the squamous epithelium of zebrafish tongue. A highly conserved promoter of zebrafish keratin 5 was cloned to drive transgenic expression of GFP. GFP was found to be expressed in the periderm of embryos. In adult fish, GFP was also abundantly expressed in the tongue and fin. GFP expression in transgenic fish recapitulated endogenous zebrafish keratin 5 gene expression as shown by in situ hybridization. This study indicated a high fidelity of GFP reporter gene expression in the tongue under the control of zebrafish keratin 5 promoter. This zebrafish transgenic model system may be used for future studies on oral development and cancer.

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Year:  2009        PMID: 19932050      PMCID: PMC2818283          DOI: 10.1016/j.oraloncology.2009.09.008

Source DB:  PubMed          Journal:  Oral Oncol        ISSN: 1368-8375            Impact factor:   5.337


  19 in total

Review 1.  Cytokeratin 8 is a suitable epidermal marker during zebrafish development.

Authors:  M Imboden; C Goblet; H Korn; S Vriz
Journal:  C R Acad Sci III       Date:  1997-09

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Authors:  C B Kimmel; W W Ballard; S R Kimmel; B Ullmann; T F Schilling
Journal:  Dev Dyn       Date:  1995-07       Impact factor: 3.780

Review 3.  The catalog of human cytokeratins: patterns of expression in normal epithelia, tumors and cultured cells.

Authors:  R Moll; W W Franke; D L Schiller; B Geiger; R Krepler
Journal:  Cell       Date:  1982-11       Impact factor: 41.582

4.  Expression of zebrafish bHLH genes ngn1 and nrd defines distinct stages of neural differentiation.

Authors:  V Korzh; I Sleptsova; J Liao; J He; Z Gong
Journal:  Dev Dyn       Date:  1998-09       Impact factor: 3.780

Review 5.  New approaches to the understanding of the molecular basis of oral cancer.

Authors:  V Patel; C Leethanakul; J S Gutkind
Journal:  Crit Rev Oral Biol Med       Date:  2001

6.  A mouse model of human oral-esophageal cancer.

Authors:  Oliver G Opitz; Hideki Harada; Yasir Suliman; Ben Rhoades; Norman E Sharpless; Ralph Kent; Levy Kopelovich; Hiroshi Nakagawa; Anil K Rustgi
Journal:  J Clin Invest       Date:  2002-09       Impact factor: 14.808

Review 7.  Zebrafish as a cancer model.

Authors:  Harma Feitsma; Edwin Cuppen
Journal:  Mol Cancer Res       Date:  2008-05       Impact factor: 5.852

8.  Germ-line transmission of a myocardium-specific GFP transgene reveals critical regulatory elements in the cardiac myosin light chain 2 promoter of zebrafish.

Authors:  Chiu-Ju Huang; Chi-Tang Tu; Chung-Der Hsiao; Fong-Jou Hsieh; Huai-Jen Tsai
Journal:  Dev Dyn       Date:  2003-09       Impact factor: 3.780

9.  Mutations affecting the cardiovascular system and other internal organs in zebrafish.

Authors:  J N Chen; P Haffter; J Odenthal; E Vogelsang; M Brand; F J van Eeden; M Furutani-Seiki; M Granato; M Hammerschmidt; C P Heisenberg; Y J Jiang; D A Kane; R N Kelsh; M C Mullins; C Nüsslein-Volhard
Journal:  Development       Date:  1996-12       Impact factor: 6.868

10.  Mutations affecting development of zebrafish digestive organs.

Authors:  M Pack; L Solnica-Krezel; J Malicki; S C Neuhauss; A F Schier; D L Stemple; W Driever; M C Fishman
Journal:  Development       Date:  1996-12       Impact factor: 6.868
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  6 in total

1.  Examination of a palatogenic gene program in zebrafish.

Authors:  Mary E Swartz; Kelly Sheehan-Rooney; Michael J Dixon; Johann K Eberhart
Journal:  Dev Dyn       Date:  2011-09       Impact factor: 3.780

2.  Vertebrate epidermal cells are broad-specificity phagocytes that clear sensory axon debris.

Authors:  Jeffrey P Rasmussen; Georgeann S Sack; Seanna M Martin; Alvaro Sagasti
Journal:  J Neurosci       Date:  2015-01-14       Impact factor: 6.167

3.  Transgenic overexpression of cdx1b induces metaplastic changes of gene expression in zebrafish esophageal squamous epithelium.

Authors:  Bo Hu; Hao Chen; Xiuping Liu; Chengjin Zhang; Gregory J Cole; Ju-Ahng Lee; Xiaoxin Chen
Journal:  Zebrafish       Date:  2013-05-14       Impact factor: 1.985

4.  Establishment of a transgenic zebrafish line for superficial skin ablation and functional validation of apoptosis modulators in vivo.

Authors:  Chi-Fang Chen; Che-Yu Chu; Te-Hao Chen; Shyh-Jye Lee; Chia-Ning Shen; Chung-Der Hsiao
Journal:  PLoS One       Date:  2011-05-31       Impact factor: 3.240

5.  Tissue-Specific Transcriptomes Reveal Gene Expression Trajectories in Two Maturing Skin Epithelial Layers in Zebrafish Embryos.

Authors:  Shawn J Cokus; Maricruz De La Torre; Eric F Medina; Jeffrey P Rasmussen; Joselyn Ramirez-Gutierrez; Alvaro Sagasti; Fang Wang
Journal:  G3 (Bethesda)       Date:  2019-10-07       Impact factor: 3.154

6.  A Zebrafish Model for Studies on Esophageal Epithelial Biology.

Authors:  Hao Chen; Andrea Beasley; Yuhui Hu; Xiaoxin Chen
Journal:  PLoS One       Date:  2015-12-02       Impact factor: 3.240
  6 in total

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