Sperm Nuclear Transfer and Transgenic Production in the Fish Medaka

Overview

Journal Int J Biol Sci

Specialty Biology

Date 2011 May 7

PMID 21547064

Citations 8

Authors

Tongming Liu

Ling Liu

Qiwei Wei

Yunhan Hong

Affiliations

Soon will be listed here.

Abstract

Sperm nuclear transfer or intracytoplasmic sperm injection (ICSI) is a powerful assisted reproductive technology (ART) for treating human male infertility. Controversial reports of increased birth defects have raised concerns about the ART's safety. The cause for birth defects, however, has remained elusive for analysis in human because of the sample size, male infertility genetics, physiological heterogeneity and associated procedures such as embryo manipulations. Animal models are required to evaluate factors leading to the increased birth defects. Here we report the establishment of medakafish model for ICSI and transgenic production. This small laboratory fish has high fecundity and easy embryology. We show that ICSI produced a 5% high percentage of fertile animals that exhibited both paternal and maternal contribution as evidenced by the pigmentation marker. Furthermore, when sperm were pre-incubated with a plasmid ubiquitously expressing RFP and subjected to ICSI, 50% of sperm nuclear transplants showed germline transmission. We conclude that medaka is an excellent model for ICSI to evaluate birth defects and that sperm nuclear transfer can mediate stable gene transfer at high efficiency. Although more demanding for experimentation, sperm-mediated transgenesis should be particularly applicable for aquaculture species with a lengthy generation time and/or a large adult body size.

Citing Articles

Intracytoplasmic sperm injection in sturgeon species: A promising reproductive technology of selected genitors.

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The genomic and genetic toolbox of the teleost medaka (Oryzias latipes).

Kirchmaier S, Naruse K, Wittbrodt J, Loosli F Genetics. 2015; 199(4):905-18.

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Efficient knockout of transplanted green fluorescent protein gene in medaka using TALENs.

Qiu C, Cheng B, Zhang Y, Huang R, Liao L, Li Y Mar Biotechnol (NY). 2014; 16(6):674-83.

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Parameters and efficiency of direct gene disruption by zinc finger nucleases in medaka embryos.

Zhang X, Guan G, Chen J, Naruse K, Hong Y Mar Biotechnol (NY). 2013; 16(2):125-34.

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