Plants, being immobile and cannot escape from unfavorable environmental conditions, must develop effective protecting mechanisms for survive when exposed to high temperature. To identify the genetic determinants that are essential for plant to cope with heat stress, we have used a forward genetic approach and isolated the et (for essential for thermotolerance) mutant of EMS-mutagenized Arabidopsis. Incubation at 37℃ for 4 days was lethal for et but not for wild-type plants. Gene mapping showed that the mutated locus of et is a single nucleotide change from C to A within the 6th exon of ET gene, leading to a Ser to Tyr substitution at amino acid 227. BLASTp analysis showed that ET is a novel protein whose biological function has never been characterized. Nevertheless, a typical nuclear localization sequence (NLS) was identified, and fluorescent tagged ET was subnuclearly localized to chromocenters. Chromocenters are compact region of chromosome rich in genes under control of transcriptional gene silencing (TGS). Furthermore, we found that heat can mediate chromocenter decondensation and TGS release in wild-type but not in et mutant. Therefore, we conclude that ET may be involved in the epigenetic regulation which is essential for theromotolerance of plants.