MYB proteins are transcription factors containing around 1－3 MYB DNA-binding domains which are composed of 51 amino acids. Base on repeat number of the MYB DNA-binding domain, MYB proteins in plant have been classified into three subfamilies, R1R2R3, R2R3 and R1/2. Previously, three R1/2 MYB transcription factors, OsMYBS1, OsMYBS2 and OsMYBS3 have been demonstrated that are involved in sugar- and hormone-regulated α-amylase gene expression in rice. To study the physiological functions of MYBS proteins in Arabidopsis, we identified four OsMYBS homologous genes, AtMYBS1, AtMYBS2, AtMYBS3 and AtMYBS5. The subcellular localization analysis showed that the AtMYBS1 and AtMYBS2 were localized in nucleus. The mutant of AtMYBS1, atmybs1, exhibited glucose and abscisic acid hypersensitivity phenotype during seed germination and early seedling growth stage；whereas the mutant of AtMYBS2, atmybs2 exhibited hyposensitive to glucose and ABA. The atmybs1/s2 double mutant showed intermediate phenotype for glucose and ABA response between those of the single mutants. These results indicated that the AtMYBS1 plays as a positive regulator and the AtMYBS2 is a negative regulator during seed germination and early seedling growth stage. Compared to wild type, atmybs1 mutant and atmybs2 mutant, the atmybs1/s2 double mutant plants showed pale green leaves, stems and floral buds phenotype. The level of chlorophyll and transcripts of chlorophyll biosynthesis related genes were lower in atmybs1/s2 double mutant than wild type. We therefore conclude that AtMYBS1 and AtMYBS2 are involved in sugar signaling and chlorophyll biosynthesis in Arabidopsis.