Leaves are the major organ where higher plants perform photosynthesis. Other green tissues, known as non-leaf green tissue (NLGT), also contain photosynthetic activities. Plants rely on leaf photosynthesis to provide utilization of the entire plant, while photosynthesis of NLGT primarily provides the tissue's own needs. Our previous data demonstrated that the chlorophyll content and chlorophyll fluorescence Fv / Fm were changed in the different development stages of mung bean seeds, indicating that seeds may have photosynthesis ability. Therefore, this research aims to understand the expression differences of photosynthesis-related gene between leaf and NLGT. We first performed next-generation sequencing using mung bean seeds and leaves to represent NLGT and control tissue, respectively. The results showed that the expression of photosynthesis- and chlorophyll-related genes were down regulated, whereas that of the pyruvate metabolic genes were up regulated in the seed coat (testa) and cotyledon. Later on, the differences in gene expression between seed cotyledons and germinated cotyledons were compared. The results revealed that the photosynthesis-related genes in the cotyledons after germination had higher expression level. In summary, this study provides transcriptome information regarding photosynthesis in different tissues of mung bean leaves and seeds, which can be used in the future to adjust the photosynthetic efficiency of NLGT.