Abstract
Plant hormones, produced in response to environmental stimuli, regulate almost all aspects of plant growth and development. Ethylene is a gaseous plant hormone that plays pleotropic roles in plant growth, plant development, fruit ripening, stress responses, and pathogen defenses. After decades of research, the key components of ethylene signaling have been identified and characterized. Although the molecular mechanisms of the sensing of ethylene signal and the transduction of ethylene signaling have been studied extensively, how chromatin influences ethylene signaling and ethylene response is a new area of research. This review describes the current understanding of how chromatin modifications, specifically histone acetylation, regulate ethylene signaling and the ethylene response.