Generation of Transgenic Medaka Oryzias curvinotus (Nichols & Pope, 1927) Carrying a Cyan Fluorescent Protein Gene Driven by Alpha Actin Promoter

Q3 Environmental Science

Asian Fisheries Science Pub Date : 2021-03-31 DOI:10.33997/J.AFS.2021.34.1.006

Vy Nguyen Hoang Thuy, T. Thanh, Binh Nguyen Quoc, H. Kieu, Duong Van, Thao Luu Thi Thach, Vu Thanh Nguyen

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引用次数: 1

Abstract

The study aimed to produce fluorescent protein transgenic medaka Oryzias curvinotus (Nichols & Pope, 1927) as a novel strain of ornamental fish. These fish were produced by transferring a plasmid consisting of a fluorescent reporter gene and a strong promoter into one-cell stage embryos. For this purpose, myosin light chain 2, but not other promoters, was mainly used. The study also evaluated the stability of the transgenic medaka germline acquiring vivid fluorescent phenotypes via the transgenesis of the cyan fluorescent protein (CFP) gene under the control of O. curvinotus skeletal alpha-actin (OCacta) promoter. The pOCacta-CFP plasmid, containing a OCacta promoter and CFP reporter gene, was transferred into the one-cell stage of O. curvinotus embryos by a microinjection technique. As a result, 36 of 1386 microinjected O. curvinotus embryos exhibited CFP signals in their trunks. The expressed CFP signals in O. curvinotus embryos and adults were detected under a microscope using a green fluorescent protein (GFP) filter (450–490 nm wavelength), and blue LED light (400–450 nm wavelength). Five O. curvinotus founders showing clear CFP signals were selected and crossed with non-transgenic counterparts to produce subsequent generations. Among strains, the frequency of germline transmission from founder to F1 was highly variable. Only two of the five founders successfully pass the transgene to the F1 generation. At present, the progeny of subsequent generations is being produced and tested for the expression of CFP signals, and therefore, stable lines are ongoing.

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携带由α肌动蛋白启动子驱动的青色荧光蛋白基因的转基因稻叶稻(Nichols & Pope, 1927)的产生

本研究旨在制备荧光蛋白转基因的弯花青金石（Nichols&Pope，1927），作为一种新的观赏鱼菌株。这些鱼是通过将由荧光报告基因和强启动子组成的质粒转移到单细胞期胚胎中而产生的。为此，主要使用肌球蛋白轻链2，但不使用其他启动子。该研究还评估了通过在弯腹蛙骨骼α-肌动蛋白（OCacta）启动子的控制下转基因青色荧光蛋白（CFP）基因获得生动荧光表型的转基因青虫种系的稳定性。将含有OCacta启动子和CFP报告基因的pOCacta-CFP质粒通过显微注射技术转移到曲孢O.curvinotus胚胎的单细胞阶段。结果，在1386个显微注射的弯曲O.curvinotus胚胎中，有36个在其干细胞中表现出CFP信号。在显微镜下，使用绿色荧光蛋白（GFP）滤光片（450–490 nm波长）和蓝色LED灯（400–450 nm波长）检测弯曲蟾蜍胚胎和成虫中表达的CFP信号。选择五个表现出明确CFP信号的弯孢O.curvinotus奠基者，并与非转基因对应物杂交以产生下一代。在菌株中，从奠基者到F1的种系传播频率变化很大。五位创始人中只有两位成功地将转基因基因传给了F1一代。目前，下一代的后代正在生产和测试CFP信号的表达，因此，稳定的系正在进行中。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Asian Fisheries Science Agricultural and Biological Sciences-Food Science

CiteScore

2.20

自引率

0.00%

发文量

期刊介绍： The Asian Fisheries Science (AFS) was first published in 1987. It is an open access SCOPUS indexed publication of the Asian Fisheries Society. Four regular issues are published annually in March, June, September and December. In addition, special issues are published on specific topics. Full texts of the articles are available for free download and there is no publication fee. The journal promotes fisheries science which has an international appeal with special focus on Asian interests.