A Potential Method for Rapid Screening of Amphioxus Founder Harboring Germline Mutation and Transgene.

Amphioxus is a promising model organism for understanding the origin and evolution of vertebrates due to its basal phylogenetic position among chordates. We here compared the mutation efficacy and mutation type of tail tips and gametes of amphioxus founders injected with Cas9 protein and six different sgRNAs targeting five distinct genes, and revealed a strong correlation for mutation efficacy and a mild correlation for mutation type among the two tissues. In addition, we also observed a positive relationship between gene insertions observed in tail tips and gametes of amphioxus founders injected with Tol2 transposase and two different transgenic constructs. Finally, we showed that amphioxus larvae which had their tail tips cut at the 3-4 gill-slit stage were able to recover within 6 days and developed a normal number of gonads at the adult stage, and that F0 larvae carry similar mutation efficacy and type in the posterior end to that in the tail tips after their metamorphosis. Together, these findings suggest a great potential for obtaining valid amphioxus founders with desired mutations and transgenes at as early as the early larval stage, which will certainly speed up the generation of amphioxus mutants and transgenes and make it more cost- and labor-effective.

Cilia-driven asymmetric Hedgehog signalling determines the amphioxus left-right axis by controlling Dand5 expression.

Cilia rotation-driven nodal flow is crucial for the left-right (L-R) break in symmetry in most vertebrates. However, the mechanism by which the flow signal is translated to asymmetric gene expression has been insufficiently addressed. Here, we show that Hedgehog (Hh) signalling is asymmetrically activated (L

An Effective Microinjection Method and TALEN-Mediated Genome Editing in Pacific Abalone.

Pacific abalone, Haliotis discus hannai, is an economically important marine mollusk species and an important model animal for studies on ecological, fertilization and developmental biology. While embryonic injection and genome editing have been wildly used in gene function study and trait improvement in many species, they have not been developed in abalones. In this study, we reported an effective method to inject exogenous materials in H. discus hannai unfertilized eggs. The injected eggs could be fertilized at a ratio of 52.6% ± 5.9% and hatch at a ratio of 14.6% ± 1.6%. On the base of this, we further developed an efficient genome editing approach in this species with the transcription activator-like effector nuclease (TALEN) technique. Two TALEN pairs targeting the coding sequence of the abalone nodal gene were assembled and tested. While one of the TALEN pairs showed no detectable mutation efficacy, the other one generated mutations in 50% of the targeted loci. The mutation includes small insertions and deletions and base pair replacements like that reported in other species when the TALEN method was applied. Overall, this is the first study to demonstrate site-specific genome editing in abalone. This work can serve as a reference for future studies focusing on the functional genomics in mollusks.