Cytokinesis during pollen mitosis I is critical for cell division and differentiation in the male gametophyte development, but the vesicle trafficking mechanisms in this process are largely unknown. Exocyst is an octameric tethering complex which plays multiple important roles in plant cell vesicle trafficking. Here we report the characterization of exocyst subunit SEC6 in the cytokinesis during pollen mitosis I. We found that significantly amount of pollen from two sec6/+ mutant alleles arrested at the transition from unicelluar stage microspore to bicellular stage. Further analysis showed that sec6 mutation impaired cell plate formation and led to vesicles accumulation in cytoplasm. The localization of KNOLLE on the cell plate was compromised. Consistently, SEC6 gene was expressed start from early pollen development stage and SEC6-GFP localized to the cell plate. These results indicated that SEC6 participated in the cell plate formation during pollen mitosis I, where it might help to tether the vesicles before fusion.