ABSTRACT: To get insights into domain organization and functioning of the Danio rerio major α/β-globin locus (Mα/βGL), we have characterized profiles of histone H3 panacetylation across this locus in erythrocytes of adult fish and 18 dpf larvas. To identify enriched domains in our ChipSeq data we used our original protocol and peak caller MACS2. Histone acetylation profiles of Mα/βGL for adult and embryo cells reveal a breaking point in upstream region of the first embryo-larval gene βe1.There are two sub-segments of acetylation: sub-segment to the left of βe1 harbors adult-specific globin genes and is acetylated only in adult cells. Embryo sub-segment contains embryo-larval globin genes and is located to the right of βe1 gene. Acetylation in this subsegment was detected only in 18 dpf larva. Acetylation profile in adult subs-egment possess largest acetylation domain which covers two pairs of adult-stage globins: αa1, and βa1. High acetylation level in this domain well correlates with high expression level observed for these 4 genes in adult erythrocyte. Pattern of H3 panacetylation in 18 dpf larval erythrocytes differs strikingly from that for adult cells. Embryo-larval segment is fragmented in small domains co-located with gene bodies with gaps in intergenic regions. Adult subsegment in adult cells contains strong acetylation domain that cover 4 globin genes along with a part of intergenic regions and few smaller domains. Alternative stage-specific acetylation of subdomains and different pattern of embryonic-larval and adult domain acetylation strongly support the hypothesis of deep structural and functional segregation of stage-specific subdomains within Mα/βGL locus in zebrafish.