Plants have many strategies to cope with environmental stresses, and stress memory is one of them. Previous studies show that plants can respond to and remember various stimuli. However, it was not clear how plants remember the experience of heat stress. In this study, the results of microarray analysis showed that a small group of genes in Arabidopsis were induced by heat treatment to higher or lower expression level in seedlings that had a prior exposure to high temperature three days ago than those that had not. This phenomenon was called heat stress memory response (HSMR) herein. The HSMR of two of these genes, ascorbate peroxidase 2 (APX2) and myo-inositol phosphate synthase 2 (MIPS2) were further confirmed by quantitative RT-PCR. Since APX2 and MIPS2 were shown to be up-regulated by overexpression of heat shock transcription factor A2 (HSFA2) and down-regulated in heat shock factor A1 quadruple knockout (KO) mutant, the functions of HSFA2 and HSFA1 in HSMR were investigated. In the HSFA2 KO mutant, HSMR was greatly diminished, suggesting that HSFA2 plays an important role in HSMR. However, rotamase FK506-binding proteins and heat shock protein 90 that bind to HSFA2 were dispensable for HSMR. Studies on the quadruple and triple KO mutants of the four HFSA1 genes suggest that HSFA1a and HSFA1d were the key players of HSMR. In eukaryotes, sumoylation regulates the activities of HSFs. However, HSMR of the T-DNA KO mutant of SIZ1, which encodes a small ubiquitin-like modifier E3 ligase, was not significantly altered. Finally, thermotolerance assay showed that HSMR was associated with significantly enhanced survival rates of seedlings under severe high temperature, which underscores the importance of this type of stress memory.