Abstract
Background The neural crest (NC) is a vertebrate-specific cell type that contributes to a wide range of different tissues across all three germ layers. The gene regulatory network (GRN) responsible for the formation of neural crest is conserved across vertebrates. Central to the induction of the NC GRN are AP-2 and SoxE transcription factors but detailed interactions within the network remain to be resolved.
Results We have used gene knockout and RNA sequencing strategies to dissect NC differentiation in zebrafish. We establish that initiation of the NC GRN takes place just after genome activation. We genetically ablate the NC using double mutants of tfap2a;tfap2c or remove specific subsets of the NC with sox10 and mitfa knockouts and characterise genome-wide gene expression levels across multiple time points. We find that although a single allele of tfap2c is capable of maintaining early NC induction and differentiation in the absence of tfap2a function, expression of many target genes remains abnormal and sensitive to tfap2 dosage. This separation of morphological and molecular phenotypes identifies a core set of genes required for early NC development. Using gene knockouts, we associate previously uncharacterised genes with pigment cell development and establish a role for maternal Hippo signalling in melanocyte differentiation.
Conclusions Stepwise genetic ablation of the NC identifies the core gene module required for neural crest induction. This work extends and refines the NC GRN while also uncovering the complex transcriptional basis of genetic compensation via paralogues.
Abbreviations
- ALT
- Alternative
- Chr
- Chromosome
- dpf
- days post fertilisation
- DE
- Differentially Expressed
- DGE
- Differential Gene Expression
- DeTCT
- Differential Transcript Counting Technique
- ENA
- European Nucleotide Archive
- ENU
- N-ethyl-N-nitrosourea
- FACS
- Fluorescence-Activated Cell Sorting
- GFP
- Green Fluorescent Protein
- GRN
- Gene Regulatory Network
- hpf
- hours post fertilisation
- MCL
- Markov Clustering
- mut
- mutant
- MZ
- Maternal Zygotic
- NC
- Neural Crest
- NLS
- Nuclear Localisation Sequence
- PCA
- Principal Component Analysis
- PCR
- Polymerase Chain Reaction
- REF
- Reference
- sib
- sibling
- WT
- Wild type
- ZFA
- Zebrafish Anatomy Ontology