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Repressive chromatin modification underpins the long-term expression trend of a perennial flowering gene in nature

Haruki Nishio, Diana Mihaela Buzas, Atsushi J. Nagano, Koji Iwayama, Masayuki Ushio, Hiroshi Kudoh

2020Nature Communications32 citationsDOIOpen Access PDF

Abstract

Natural environments require organisms to possess robust mechanisms allowing responses to seasonal trends. In Arabidopsis halleri, the flowering regulator AhgFLC shows upregulation and downregulation phases along with long-term past temperature, but the underlying machinery remains elusive. Here, we investigate the seasonal dynamics of histone modifications, H3K27me3 and H3K4me3, at AhgFLC in a natural population. Our advanced modelling and transplant experiments reveal that H3K27me3-mediated chromatin regulation at AhgFLC provides two essential properties. One is the ability to respond to the long-term temperature trends via bidirectional interactions between H3K27me3 and H3K4me3; the other is the ratchet-like character of the AhgFLC system, i.e. reversible in the entire perennial life cycle but irreversible during the upregulation phase. Furthermore, we show that the long-term temperature trends are locally indexed at AhgFLC in the form of histone modifications. Our study provides a more comprehensive understanding of H3K27me3 function at AhgFLC in a complex natural environment.

Topics & Concepts

H3K4me3ChromatinHistoneDownregulation and upregulationRegulatorBiologyPopulationTerm (time)Cell biologyComputational biologyEvolutionary biologyGeneticsGeneGene expressionPhysicsPromoterQuantum mechanicsDemographySociologyPlant Molecular Biology ResearchPlant Reproductive BiologyPhotosynthetic Processes and Mechanisms