ATP-binding cassette (ABC) transporters is a membrane transporter superfamily which ubiquitously existed in all living organisms, and play important roles in transporting various substances, including amino acids, polypeptides, lipids and metal ions. Rice has more than 130 ABC transporters, but little is known about their functions. Our previous study indicated that the rice PDR-type ABC transporter OsABCG36 was highly induced by various heavy metals. To dissect the function of OsABCG36, yeast and rice were used to evaluate the transport of metals. Overexpression of OsABCG36 increased cobalt (Co) accumulation and caused toxic effect to yeast. In rice, OsABCG36-RNAi transgenic rice showed a Co sensitive phenotype. Conversely, OsABCG36-OE transgenic rice showed a Co tolerant phenotype. However, the Co concentration of OsABCG36-RNAi and OsABCG36-OE was similar as compared to wild type. Subcellular localization analysis showed that OsABCG36 localized at chloroplast and plasma membrane. The analysis of OsABCG36 expression indicated the transcript level of OsABCG36 was highly induced in both japonica and indica rice, moreover, it was increased along with the increase of Co concentration and time. In addition, treatment of japonica and indica rice with 2.5 mM CoCl2, the transcript of OsABCG36 in root was increased 856 folds and 2536 folds, and that in shoot was also increased 22 folds and 9.8 folds, respectively. According to the analysis of promoter characterization, GUS was induced by Co and that accumulated in blade, collar, sheath, and node of POsABCG36(1K)/GUS, POsABCG36(1.5K)/GUS and POsABCG36(2K)/GUS transgenic rice. The activity of OsABCG36 promoter was also affected by itself introns. The first intron of OsABCG36 could enhance the inducibility of OsABCG36 promoter to heavy metals; the second one could enhance the OsABCG36 promoter activity in shoot; the third one inhibited the promoter activity. To figure out the physiological role of Co in rice seedlings, the treatment of various Co concentrations was conducted. Higher Co concentrations (> 50 uM) could result in Co toxicity in rice seedling, and also inhibit the root growth. Eventually, OsABCG36 is a Co transporter, and might have influx function in yeast. In plants, OsABCG36 might localize at chloroplast and plasma membrane, and function as cellular Co distribution.