Towards functional genetics in the European amphioxus: Efficient CRISPR/Cas9 editing reveals Ascl1/2.1 requirement for peripheral nervous system development

IF 2.1 3区生物学 Q2 DEVELOPMENTAL BIOLOGY

Developmental biology Pub Date : 2025-08-16 DOI:10.1016/j.ydbio.2025.08.012

Rafath Chowdhury , Agnès Roure, Sébastien Darras

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Abstract

Amphioxus, or cephalochordates, have a key phylogenetic position among chordates and serve as pivotal invertebrate models for investigating the evolutionary origins of vertebrate traits. Although functional genetic tools have recently been developed, their application has been limited to the Floridian and Asian species, Branchiostoma floridae and Branchiostoma belcheri, respectively. In this study, we established a CRISPR/Cas9-based genome editing protocol to generate F0 mosaic mutants (crispants) in the European amphioxus B. lanceolatum. As a proof of concept, we targeted the Bl-Ascl1/2.1 gene, a putative regulator of epidermal sensory neuron (ESN) development in the peripheral nervous system coding for a bHLH transcription factor. Using a novel microinjection method of the sgRNA/Cas9 complex in fertilized eggs and two-cell stage embryos, we demonstrated the disruption of Bl-Ascl1/2.1 that resulted in a partial to complete loss of ESNs. Importantly, this phenotype could be rescued by Bl-Ascl1/2.1 mRNA microinjection. These findings demonstrate the efficiency of CRISPR/Cas9-mediated gene editing in B. lanceolatum and establish a foundation for future functional studies in this emerging EvoDevo model.

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迈向欧洲文文鱼的功能遗传学：高效的CRISPR/Cas9编辑揭示了周围神经系统发育对Ascl1/2.1的需求

文昌鱼或头脊索动物在脊索动物中具有关键的系统发育地位，是研究脊椎动物特征进化起源的关键无脊椎动物模型。虽然最近开发了功能遗传工具，但它们的应用仅限于佛罗里达和亚洲物种，分别是佛罗里达Branchiostoma和belcheri Branchiostoma。在本研究中，我们建立了基于CRISPR/ cas9的基因组编辑方案，在欧洲文昌鱼B. lanceolatum中产生F0个镶嵌突变体（crispants）。为了证明这一概念，我们将目标对准了Bl-Ascl1/2.1基因，该基因被认为是外周神经系统中表皮感觉神经元（ESN）发育的调节因子，编码bHLH转录因子。利用一种新的sgRNA/Cas9复合物在受精卵和双细胞期胚胎中的显微注射方法，我们证明了Bl-Ascl1/2.1的破坏导致部分或完全丧失esn。重要的是，这种表型可以通过微量注射Bl-Ascl1/2.1 mRNA来挽救。这些发现证明了CRISPR/ cas9介导的基因编辑在白蜡树中的有效性，并为未来在这种新兴的EvoDevo模型中进行功能研究奠定了基础。

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来源期刊

Developmental biology 生物-发育生物学

CiteScore

5.30

自引率

3.70%

发文量

182

审稿时长

1.5 months

期刊介绍： Developmental Biology (DB) publishes original research on mechanisms of development, differentiation, and growth in animals and plants at the molecular, cellular, genetic and evolutionary levels. Areas of particular emphasis include transcriptional control mechanisms, embryonic patterning, cell-cell interactions, growth factors and signal transduction, and regulatory hierarchies in developing plants and animals.