Citation:
Aquaculture. 2022;549:737759. [Epub] doi:10.1016/j.aquaculture.2021.737759
Abstract:
Surrogate broodstock technology in fishes has potential for aquaculture as well as endangered species conservation and propagation. Species with some unfavourable biological characteristics for culturing such as a late maturation or a large body size are ideal candidates for surrogate reproduction using smaller and faster-maturing hosts. One of the general prerequisites for pure donor-derived gamete production is the sterility of the host. Various sterilization methods have been developed and used in fish surrogacy; however, a direct comparison of available methods is missing. Such a knowledge gap hinders choice for the surrogate in various fish species, including those in high commercial demand such as tuna or sturgeons. There is a particular limitation from the point of the live material availability and difficulty to perform a high throughput assessment of different surrogates. Yet, large sturgeons or tuna species are one of the most prominent candidates for surrogacy. Zebrafish (Danio rerio) was utilized in this study as a model species to answer whether and to what extent different sterilization strategies can affect the surrogacy. Germ cell-depleted recipients (produced using knockdown of dead end gene), triploid recipients, and zebrafish x pearl danio (Danio albolineatus) hybrid recipients were tested as they represent the most frequently used types of surrogates. Spermatogonia isolated from the vas::EGFP transgenic strain were intraperitoneally transplanted into swim-up 5 day old zebrafish. Colonization rate of transplanted germ cells, survival, gonadal development, and reproductive output of the fish were analysed. Germ cell-depleted recipients with normal somatic cells were identified as the most convenient among tested sterilization methods considering adult germline chimera rate and their reproductive output. The present study provides a significant aid for selecting suitable surrogates in fishes.
Epub:
Yes
Link to Publication:
https://www.sciencedirect.com/science/article/pii/S0044848621014228
Organism or Cell Type:
zebrafish
Delivery Method:
microinjection