Transgenic fluorescent zebrafish lines that have revolutionized biomedical research
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äÁ¾Ç¥ ( Choe Chong-Pyo )
Gyeongsang National University Division of Applied Life Sciences
ÃÖ¼®¿ë ( Choi Seok-Yong )
Chonnam National University Medical School Department of Biomedical Sciences
±âÀ± ( Kee Yun )
Kangwon National University College of Biomedical Sciences Division of Biomedical Convergence
±è¹ÎÁß ( Kim Min-Jung )
Sookmyung Women¡¯s University Department of Biological Science
±è¼®Çü ( Kim Seok-Hyung )
Jeju National University Department of Marine Life Sciences
ÀÌÀ±¼º ( Lee Yoon-Sung )
Institute for Basic Science Center for Genomic Integrity
¹ÚÇØö ( Park Hae-Chul )
Korea University College of Medicine Department of Biomedical Sciences
³ëÇöÁÖ ( Ro Hyun-Ju )
Chungnam National University College of Bioscience and Biotechnology Department of Biological Sciences
Abstract
Since its debut in the biomedical research fields in 1981, zebrafish have been used as a vertebrate model organism in more than 40,000 biomedical research studies. Especially useful are zebrafish lines expressing fluorescent proteins in a molecule, intracellular organelle, cell or tissue specific manner because they allow the visualization and tracking of molecules, intracellular organelles, cells or tissues of interest in real time and in vivo. In this review, we summarize representative transgenic fluorescent zebrafish lines that have revolutionized biomedical research on signal transduction, the craniofacial skeletal system, the hematopoietic system, the nervous system, the urogenital system, the digestive system and intracellular organelles.
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Zebrafish; Transgenic; Fluorescent; Signal; Skeletal; Hematopoietic; Nervous; Urogenital; Digestive; Organelle
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