Jeremy Gurbatow scite author profile

CRISPR/Cas9-based gene knockout in animal cells, particularly in teleosts, has proven to be very efficient with regards to mutation rates, but the precise insertion of exogenous DNA or gene knock-in via the homology-directed repair (HDR) pathway has seldom been achieved outside of the model organisms. Here, we succeeded in integrating with high efficiency an exogenous alligator cathelicidin gene into a targeted non-coding region of channel catfish (Ictalurus punctatus) chromosome 1 using two different donor templates (synthesized linear dsDNA and cloned plasmid DNA constructs). We also tested two different promoters for driving the gene, zebrafish ubiquitin promoter and common carp β-actin promoter, harboring a 250-bp homologous region flanking both sides of the genomic target locus. Integration rates were found higher in dead fry than in live fingerlings, indicating either off-target effects or pleiotropic effects. Furthermore, low levels of mosaicism were detected in the tissues of P1 individuals harboring the transgene, and high transgene expression was observed in the blood of some P1 fish. This can be an indication of the localization of cathelicidin in neutrophils and macrophage granules as also observed in most antimicrobial peptides. This study marks the first use of CRISPR/Cas9 HDR for gene integration in channel catfish and may contribute to the generation of a more efficient system for precise gene integration in catfish and other aquaculture species, and the development of gene-edited, disease-resistant fish.

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Development of a spermatogonia cryopreservation protocol for blue catfish, Ictalurus furcatus

Abualreesh

Myers

Gurbatow

et al. 2020

Cryobiology

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Donor body size and sex steroid hormones impact germ cell production for creation of xenogenic catfish

et al. 2020

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Effects of antioxidants and antifreeze proteins on cryopreservation of blue catfish (Ictalurus furcatus) spermatogonia

et al. 2021

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Development of an Effective Cryopreservation Protocol for Blue Catfish Oogonia

et al. 2021

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Long‐term storage of oogonia and germ‐line stem cells provides an alternative to the limitations associated with cryopreserving eggs of important fish species. These cell types are less vulnerable to the stresses of freezing. Cryopreservation has enormous potential for aquaculture advancement, but protocols must be developed for each species and cell type since its success hinges on various input factors. Blue Catfish Ictalurus furcatus were selected as the test species in this study because of the need to improve fry production of Blue Catfish ♂ × Channel Catfish I. punctatus ♀ hybrids, which can be facilitated by storing oogonia in gene banks. Our objective was to develop a freezing protocol for oogonia of this species. We tested different permeating and nonpermeating cryoprotectants, concentrations of these agents, and freezing rates. We proved that all three factors influenced postthaw recovery of oogonia. Of the permeating cryoprotectants, 1.0 M dimethyl sulfoxide resulted in the most live cells with the highest viability percentages, and adding 0.2 M lactose with 10% egg yolk further improved the results. There were also specific interactions in which the effects of concentration and freezing rate varied among the cryoprotectant treatments. The most effective freezing rate was −1.0°C/min, and cell viability was reduced at −2.5°C/min and −5.0°C/min. From these results, we propose adding 1.0 M dimethyl sulfoxide with 0.2 M lactose and 10% egg yolk to cryomedia and freezing it at a rate of −1.0°C/min. By developing a cryopreservation protocol for a commonly cultured catfish, this work may guide the development of protocols for other species of interest.

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Jeremy Gurbatow

CRISPR/Cas9-mediated knock-in of alligator cathelicidin gene in a non-coding region of channel catfish genome

Development of a spermatogonia cryopreservation protocol for blue catfish, Ictalurus furcatus

Donor body size and sex steroid hormones impact germ cell production for creation of xenogenic catfish

Effects of antioxidants and antifreeze proteins on cryopreservation of blue catfish (Ictalurus furcatus) spermatogonia

Development of an Effective Cryopreservation Protocol for Blue Catfish Oogonia

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