Mushroom molecular pharming, a novel and promising industry that use mushrooms as bioreactors to produce pharmaceutical proteins or industrial enzymes, possesses lots of advantages such as safety, easy manipulation and low cost. In our laboratory, we have been successfully established Agrobacterium-mediated transformation in mushroom system. For biosafety of transgenic mushrooms, we also developed homologous selectable system via a single point mutation of succinate dehygrogenase subunit B (SdhB) to make transformants against harmless agent, carboxin. However, previous study show the instability of transformants after several generations of subcultures. In order to improve the efficiency of selection and stability of transformants, we would like to clone another carboxin-binding site of succinate dehydrogenase to enhance the selectable resistance against carboxin. In this study, succinate dehygrogenase subunit C (SdhC) was selected as the target sequence of novel selectable marker. We successfully cloned carboxin-resistance gene (cbrC) based on the SdhC, and found out that gpd-d1 promoter with the first intron improved the expression of cbrC. The activity of succinate dehydrogenase was assaged to compare these two selectable system, SdhB (cbrB) and SdhC (cbrC). The results suggested that carboxin-resistance gene (cbrC) based on the SdhC is a better carboxin resistance selection marker than that based on SdhB. We demonstrated that carboxin-resistance gene (cbrC) based on the SdhC is a new homologous selectable marker, and its seleciotn ability was measured by the succinate dehydrogenase activity in mushrooms. This allows us to develop a dual carboxin-resistant selectable system to improve the stability of transgenic mushrooms.