Electric organ discharge from electric eel facilitates DNA transformation into teleost larvae in laboratory conditions.

Electric eels (Electrophorus sp.) are known for their ability to produce electric organ discharge (EOD) reaching voltages of up to 860 V. Given that gene transfer via intense electrical pulses is a well-established technique in genetic engineering, we hypothesized that electric eels could potentially function as a gene transfer mechanism in their aquatic environment. To investigate this hypothesis, we immersed zebrafish larvae in water containing DNA encoding the green fluorescent protein (GFP) and exposed them to electric eel's EOD. Some embryos exhibited a mosaic expression of green fluorescence, in contrast to the control group without electrical stimulation, which showed little distinct fluorescence. This suggests that electric eel EOD has the potential to function as an electroporator for the transfer of DNA into eukaryotic cells. While electric eel EOD is primarily associated with behaviors related to sensing, predation, and defense, it may incidentally serve as a possible mechanism for gene transfer in natural environment. This investigation represents the initial exploration of the uncharted impact of electric eel EOD, but it does not directly establish its significance within the natural environment. Further research is required to understand the ecological implications of this phenomenon. © 2023 Sakaki et al.

Citation

Shintaro Sakaki, Reo Ito, Hideki Abe, Masato Kinoshita, Eiichi Hondo, Atsuo Iida. Electric organ discharge from electric eel facilitates DNA transformation into teleost larvae in laboratory conditions. PeerJ. 2023;11:e16596

Mesh Tags

Substances

PMID: 38077423

search → result