ABSTRACT: We have identified a replication-independent histone variant, Hist2h2be (referred to herein as H2be), which is expressed exclusively by olfactory chemosensory neurons. Levels of H2BE are heterogeneous among olfactory neurons, but stereotyped according to the identity of the co-expressed olfactory receptor (OR). Gain- and loss-of-function experiments demonstrate that changes in H2be expression affect olfactory function and OR representation in the adult olfactory epithelium. We show that H2BE expression is reduced by sensory activity and that it promotes neuronal cell death, such that inactive olfactory neurons display higher levels of the variant and shorter life spans. Post-translational modifications (PTMs) of H2BE differ from those of the canonical H2B, consistent with a role for H2BE in altering transcription. We propose a physiological function for H2be in modulating olfactory neuron population dynamics to adapt the OR repertoire to the environment. The objective of generating this dataset was to analyze the effects of H2be loss of function on gene expression changes in the main olfactory epithelium as a result of activity deprivation through unilateral naris occlusion (UNO). This dataset compares gene expression in wild type and H2be-KO main olfactory epithelium (MOE) samples from 5-week old mice that were subjected to unilateral naris occlusion (UNO) for 3 weeks starting from 2 weeks of age. Samples consist of MOE halves that were dissected and carefully removed from the medial bone. Each sample contains tissue from 2 mice (1 female and 1 male). There are three replicates for each genotype (H2be-KO or WT) and UNO side (open or closed) combination.