Characterizing the molecular signature of a cell subtype leads to a better understanding of cell diversity, as this molecular data can identify new cellular markers and offer insights about cell function. Here, we describe an efficient protocol to separate a subtype of astrocytes, the Olig2-AS, from other glial cells by using a double reporter mouse approach and to determine the transcriptome profile of the Olig2-AS from the postnatal spinal cord using RNA-sequencing analysis. For complete details on the use and execution of this protocol, please refer to Ohayon et al. (2021). Display omitted •Combined enzymatic and physical dissociation of mouse postnatal spinal cord•Efficient protocol to isolate a subtype of astrocytes (Olig2-AS) from other glial cells•Two-step comparative analysis of RNA-seq databases to characterize glial subtypes Characterizing the molecular signature of a cell subtype leads to a better understanding of cell diversity, as this molecular data can identify new cellular markers and offer insights about cell function. Here, we describe an efficient protocol to separate a subtype of astrocytes, the Olig2-AS, from other glial cells by using a double reporter mouse approach and to determine the transcriptome profile of the Olig2-AS from the postnatal spinal cord using RNA-sequencing analysis.