hit1-1 and hit2 are two Arabidopsis heat-intolerant mutants which were found by a forward genetics approach. HIT1 is homologous to yeast Vps53p, which is a subunit of Golgi-associated retrograde protein (GARP) complex. GARP complex is required for tethering of endosome-derived transport vesicles to the late Golgi. The heat intolerance phenotype of hit1-1 is thought to be resulted from the inability to remodel plasma membrane under heat stress condition. As for HIT2, it encodes a nuclear transport receptor and the heat-intolerance phenotype was caused in part by heat-induced light-dependent oxidative stress. The chloroplast and photosynthesis are also affected under heat stress. They can be a way to research plant physiological damage under heat stress. Chlorophyll fluorescence is a phenomenon of chlorophyll molecules that is very sensitive to changes in environmental temperatures and useful for study plant physiological conditions under heat stress. In this study, heat-induced chlorophyll fluorescence and quantum yield of photosystem II were measured from WT, hit1-1 and hit2 plants under normal and high temperature conditions. Results were in agreement with that HIT1 and HIT2 participate in different heat-protecting mechanism in plants.