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Differential Expression Patterns of Crystallin Genes during Ocular Development of Olive Flounder (Paralichthys olivaceus)  

Yang, Hyun (Genetics and Breeding Research Center, NFRDI)
Lee, Young Mee (Genetics and Breeding Research Center, NFRDI)
Noh, Jae Koo (Genetics and Breeding Research Center, NFRDI)
Kim, Hyun Chul (Genetics and Breeding Research Center, NFRDI)
Park, Choul Ji (Genetics and Breeding Research Center, NFRDI)
Park, Jong Won (Genetics and Breeding Research Center, NFRDI)
Hwang, In Joon (Genetics and Breeding Research Center, NFRDI)
Kim, Sung Yeon (Genetics and Breeding Research Center, NFRDI)
Lee, Jeong Ho (Genetics and Breeding Research Center, NFRDI)
Publication Information
Development and Reproduction / v.16, no.4, 2012 , pp. 301-307 More about this Journal
Abstract
Olive flounder Paralichthys olivaceus is one of the most widely cultured fish species in Korea. Although olive flounder receive attention from aquaculture and fisheries and extensive research has been conducted eye morphological change in metamorphosis, but little information was known to molecular mechanism and gene expression of eye development- related genes during the early part of eye formation period. For the reason of eyesight is the most important sense in flounder larvae to search prey, the screening and identification of expressed genes in the eye will provide useful insight into the molecular regulation mechanism of eye development in olive flounder. Through the search of an olive flounder DNA database of expressed sequence tags (EST), we found a partial sequence that was similar to crystallin beta A1 and gamma S. Microscopic observation of retinal formation correspond with the time of expression of the crystallin beta A1 and gamma S gene in the developmental stage, these result suggesting that beta A1 and gamma S play a vital role in the remodeling of the retina during eye development. The expression of crystallin beta A1 and gamma S were obviously strong in eye at all tested developing stage, it is also hypothesized that crystallin acts as a molecular chaperone to prevent protein aggregation during maturation and aging in the eye.
Keywords
Olive flounder; Crystallin beta A1; Crystallin gamma S; Eye; Retina; Developmental stage; Gene expression;
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