Superior to the C3-type, the C4-type plants drive photosynthesis efficiently with the support of Kranz anatomy. In maize, Kranz anatomy is an extension of root architecture. The well-known SHR-SCR regulatory pathway in root also involves in maize Kranz anatomy development. Based on the co-expression data and the prediction of cis elements from laboratory of Dr. Wen-Hsiung Li, ZmMYB117 was identified to be the possible upstream regulator of ZmSHR1. Several other possible target genes of ZmMYB117 had been predicted. We attempted to verify whether the possible MYB117-SHR1 regulatory pathway also existed in another novel C4 plant, Setaria viridis. SvMYB117 had three alternative splicing forms and highly expressed in strongly dividing tissues, including developing leaves, meristems, and tillers. Through S. viridis protoplast transient system we established, SvMYB117 might involve in organogenesis process through regulating SvANT1 and SvbHLH63 in nucleus. However, due to the unstable expression tendency of SvSHR1 in our condition, advanced experiments are necessary to reveal whether SvMYB117-SvSHR1 regulatory pathway do exist in S. viridis developmental process. In this study, protoplast transient system of S. viridis leaf blade was successfully established. We found that SvMYB117 might involve in organogenesis process through regulating SvANT1.