This large multiomic comparative study (17 species, snRNAseq snATACseq Visium HD spatial data) claims that hepatocyte zonation is a mammalian innovation driven by central vein WNT/RSPO signaling acting via TCF7L2, documents rapid turnover of zonated genes across mammals, and identifies human lineage shifts in lipid related regulation (eg CD36) supported by CRE changes and snATAC evidence
The authors provide raw accessions for snRNAseq snATACseq Visium data (E-MTAB series listed) plus code repository and a web app; this greatly improves reproducibility. Key dependencies and parameters are specified (eg ArchR addGroupCoverages MACS2 settings, ArchR addPeak2GeneLinks corCutOff 0.45), facilitating replication
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The manuscript is a major data resource and a convincing descriptive atlas showing that mammalian hepatocyte zonation is widespread and that WNT/RSPO plus TCF7L2 are strong candidate mediators. The strongest contributions are (1) taxonomic breadth and matched chromatin+transcriptome+spatial evidence and (2) the identification of lineage-specific regulatory changes (eg CD36). The main limitations are sampling heterogeneity across species, incomplete functional perturbation evidence for cross-species causality, and potential assembly/alignability biases in CRE orthology calling. Overall confidence in the descriptive claims is high; causal evolutionary mechanism claims are plausible but need targeted functional validation.
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