Gap junction is formed by end-to-end docking of two connexons, hexamers of connexin (Cx) protein, expressed on neighboring cells. It is associated with potassium cycle in cochlear. Mutations in Cx often lead to hearing loss. Three heterozygous mutations, Cx26 368C>A (T123N), Cx26 551G>A (R184Q), and Cx30 119C>T (A40V), were identified in our previous study from Taiwanese nonsyndromic deafness patients. To understand the effects on function of these mutations in gap junction, we set up Tet-on protein expression system. In this system, we constructed a bidirectional pBI vector to express two Cx genes simultaneously. By using this expressive system, we can investigate the interaction between two genes without complications due to different amounts of the two vectors expressed by co-transfection system. Our results indicated that 551G>A missense mutation of Cx26 resulted in the accumulation of Cx protein in Golgi apparatus instead of targeting to cytoplasmic membrane. When either Cx26/Cx26 551G>A or Cx30/Cx26 551G>A mutant protein are co-expressed, the heteromeric connexon accumulated at Golgi apparatus. 119C>T missense mutation of Cx30 resulted in the accumulation of Cx protein in Golgi apparatus instead of targeting to cytoplasmic membrane.When either Cx30/Cx30 119C>T or Cx26/Cx30 119C>T mutant protein are co-expressed, the heteromeric connexon also accumulated at Golgi apparatus. In contrast, Cx26 protein derived from 368C>A missense mutation gave results similar to wild-type Cx26 with junctional plaques at zones of cell-to-cell apposition. Even Cx26 368C>A in complex with either Cx26 or Cx30, the protein still express in cell membrane. In summary, Cx26 551G>A and Cx30 119C>T had dominant negative effect on both normal Cx26 and Cx30 resulting in accumulation of the Cx protein in Golgi apparatus that impaires formation of the gap junction. Cx26 368C>A did not affect the trafficking of Cx protein, but its functional significance remains unknown. In this part, we need more analysis to explain.