Project description:The goal of this experiment is to track cellular regeneration after a dorsal injury to the axolotl pallium. To this end, we employed Div-seq, that is, performed snRNA-seq on cells labelled with EdU, which have thus recently replicated. We performed this in a time course, in order to observed the cell populations that were generated as regeneration progressed.

Project description:In order to understand the genomic and transcriptomic variability of the axolotl pallium, as well as reconstruct their intrinsic gene regulatory networks, we performed single-nucleus multiome sequencing (RNA and open chromatin) of whole axolotl pallium.

Project description:In order to understand the relationship between cellular diversity and pallium regions, single-nucleus RNA-seq (snRNA-seq) was performed in 3 microdissected regions from the axolotl pallium: medial, dorsal, and lateral.

Project description:snRNA-seq of microdissected regions from the axolotl pallium

Project description:Single-nucleus multiome (RNA+ATAC) sequencing of the axolotl pallium

Project description:Circadian time course

Project description:To gain futher insight into the Npas3 regulatory network in astrocytes, RNA-seq was used to analyze the genome-wide changes resulting from the days in vitro (DIV) 14 astrocytes of P0 wild-type (WT) mice and littermate NPAS3-/- mice. Total RNA was extracted from DIV 14 astrocytes of P0 Npas3-/- and WT mice. Then, total RNA was quantified and quality controlled by Agilent Bioanalyzer 2100 system. After cDNA library construction, the library preparations were sequenced on an Illumina NovaSeq 6000 platform in Novogene.

Project description:Genome-wide binding sites of NPAS3 were identified in mouse cortical astrocytes (DIV 14).

Project description:Mouse kidney ischemia-reperfusion injury time course

Project description:Kidney development time course